From bae8e8ac92bc61a2f599412d185d9462ef91e47d Mon Sep 17 00:00:00 2001 From: Chris Date: Thu, 7 Sep 2023 16:24:36 +0100 Subject: [PATCH 01/25] added colour contour plot option --- process/io/plot_scans.py | 140 ++++++++++++++++++++++++--------------- 1 file changed, 87 insertions(+), 53 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index 5aacce39e7..59531563fe 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -124,6 +124,18 @@ def parse_args(args): "list the same number of label names eg: -nl 'leg1 leg2'\n" "(default = MFile file name) " ), + + ) + + parser.add_argument( + "-2DC", + "--two_dimensional_contour", + action="store_true", + help=( + "Option to plot 2D scans as a coloured contour plot instead of a line plot \n " + "Note: Non convergent points will show up with a value of zero \n " + ), + ) return parser.parse_args(args) @@ -145,6 +157,7 @@ def main(args=None): save_format = str(args.save_format) term_output = args.term_output label_name = str(args.label_name) + two_dimensional_contour = args.two_dimensional_contour # --------------------------------------- # Input checks @@ -686,7 +699,7 @@ def main(args=None): plt.clf() # ------------ - # I case of a 2D scan + # In case of a 2D scan # ---------------------------------------------------------------------------------------------- else: # Opening the MFILE.DAT @@ -697,25 +710,22 @@ def main(args=None): n_scan_2 = int(m_file.data["isweep_2"].get_scan(-1)) # Selecting the converged runs only - conv_ij = list() + contour_conv_ij = [] #List of non-converged scan point numbers + conv_ij = list() # 2D array of converged scan point numbers (sweep = rows, sweep_2 = columns) ii_jj = 0 for ii in range(n_scan_1): conv_ij.append(list()) for jj in range(n_scan_2): - ii_jj += 1 + ii_jj += 1 #Represents the scan point number in the MFILE ifail = m_file.data["ifail"].get_scan(ii_jj) if ifail == 1: - conv_ij[ii].append(ii_jj) + conv_ij[ii].append(ii_jj) # Only appends scan number if scan converged + contour_conv_ij.append(ii_jj) else: failed_value_1 = m_file.data[scan_var_name].get_scan(ii_jj) failed_value_2 = m_file.data[scan_2_var_name].get_scan(ii_jj) print( - "Warning : Non-convergent scan point : ({},{}) = ({},{})".format( - scan_var_name, - scan_2_var_name, - failed_value_1, - failed_value_2, - ) + f"Warning : Non-convergent scan point : ({scan_var_name},{scan_2_var_name}) = ({failed_value_1},{failed_value_2})" ) print("Warning : This point will not be shown.") @@ -724,17 +734,15 @@ def main(args=None): # Check if the output variable exists in the MFILE if output_name not in m_file.data.keys(): print( - "Warning : `{}` does not exist in PROCESS dicts".format(output_name) + f"Warning : `{output_name}` does not exist in PROCESS dicts" ) - print("Warning : `{}` will not be output".format(output_name)) + print(f"Warning : `{output_name}` will not be output") continue # Check if the output LaTeX variable label exist if output_name not in labels: print( - "Warning : The {} variable LaTeX label is not defined".format( - output_name - ) + f"Warning : The {output_name} variable LaTeX label is not defined" ) print("Warning : Please update the 'label' dict") labels[output_name] = output_name @@ -742,47 +750,73 @@ def main(args=None): # Declaring the outputs output_arrays = list() - # Converged indexes - for conv_j in conv_ij: - # Scanned variables - scan_1_var_array = np.zeros(len(conv_j)) - scan_2_var_array = np.zeros(len(conv_j)) - output_array = np.zeros(len(conv_j)) - for jj in range(len(conv_j)): - scan_1_var_array[jj] = m_file.data[scan_var_name].get_scan( - conv_j[jj] - ) - scan_2_var_array[jj] = m_file.data[scan_2_var_name].get_scan( - conv_j[jj] - ) - output_array[jj] = m_file.data[output_name].get_scan(conv_j[jj]) + if two_dimensional_contour: + output_contour_z = np.zeros((n_scan_1, n_scan_2)) + x_contour = [] + y_contour = [] + print(contour_conv_ij) + for i in range(n_scan_2): #nscan2 = 13 + x_contour.append(m_file.data[scan_2_var_name].get_scan(i+1)) + for i in range(1,n_scan_1*n_scan_2,n_scan_2): + y_contour.append(m_file.data[scan_var_name].get_scan(i+1)) #is the separte lists in the list + for i in contour_conv_ij: + print(((i-1)%n_scan_2)) + output_contour_z[((i-1)//n_scan_2)][((i-1)%n_scan_2) if ((i-1)//n_scan_2)%2==0 else (-((i-1)%n_scan_2)-1)] = m_file.data[output_name].get_scan(i) + print(output_contour_z) + + flat_output_z = output_contour_z.flatten() + flat_output_z.sort() + + plt.contourf( + x_contour, + y_contour, + output_contour_z, + levels=np.linspace(flat_output_z[1], output_contour_z.max(), 50), + ) + plt.colorbar() + plt.ylabel(labels[output_name], fontsize=axis_font_size) + plt.xlabel(labels[scan_2_var_name], fontsize=axis_font_size) + plt.tight_layout() + plt.savefig( + f"{args.outputdir}/scan_{output_name}_vs_{scan_var_name}_{scan_2_var_name}.{save_format}" + ) + else: + # Converged indexes, for normal 2D line plot + for conv_j in conv_ij: # conv_j is an array element containing the converged scan numbers + # Scanned variables + print(conv_j) + scan_1_var_array = np.zeros(len(conv_j)) + scan_2_var_array = np.zeros(len(conv_j)) + output_array = np.zeros(len(conv_j)) + for jj in range(len(conv_j)): + scan_1_var_array[jj] = m_file.data[scan_var_name].get_scan( + conv_j[jj] + ) + scan_2_var_array[jj] = m_file.data[scan_2_var_name].get_scan( + conv_j[jj] + ) + output_array[jj] = m_file.data[output_name].get_scan(conv_j[jj]) - # Label formating - labl = "{} = {}".format(labels[scan_var_name], scan_1_var_array[0]) + # Label formating + labl = f"{labels[scan_var_name]} = {scan_1_var_array[0]}" - # Plot the graph - plt.plot(scan_2_var_array, output_array, "--o", label=labl) - - plt.grid(True) - plt.ylabel(labels[output_name], fontsize=axis_font_size) - plt.xlabel(labels[scan_2_var_name], fontsize=axis_font_size) - plt.legend(loc="best", fontsize=legend_size) - plt.xticks(size=axis_tick_size) - plt.yticks(size=axis_tick_size) - plt.tight_layout() - plt.savefig( - "{}/scan_{}_vs_{}_{}.{}".format( - args.outputdir, - output_name, - scan_var_name, - scan_2_var_name, - save_format, - ) - ) + # Plot the graph + plt.plot(scan_2_var_array, output_array, "--o", label=labl) - # Display plot (used in Jupyter notebooks) - plt.show() - plt.clf() + plt.grid(True) + plt.ylabel(labels[output_name], fontsize=axis_font_size) + plt.xlabel(labels[scan_2_var_name], fontsize=axis_font_size) + plt.legend(loc="best", fontsize=legend_size) + plt.xticks(size=axis_tick_size) + plt.yticks(size=axis_tick_size) + plt.tight_layout() + plt.savefig( + f"{args.outputdir}/scan_{output_name}_vs_{scan_var_name}_{scan_2_var_name}.{save_format}" + ) + + # Display plot (used in Jupyter notebooks) + plt.show() + plt.clf() if __name__ == "__main__": From 728dcd55643b0865c5afe80e91fd851e22b56968 Mon Sep 17 00:00:00 2001 From: Chris Date: Fri, 8 Sep 2023 10:12:40 +0100 Subject: [PATCH 02/25] Fixed contour plot labels --- process/io/plot_scans.py | 14 ++++++++------ 1 file changed, 8 insertions(+), 6 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index 59531563fe..f580580878 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -30,7 +30,7 @@ import argparse from argparse import RawTextHelpFormatter from pathlib import Path - +from numba import njit # PROCESS libraries import process.io.mfile as mf @@ -754,15 +754,14 @@ def main(args=None): output_contour_z = np.zeros((n_scan_1, n_scan_2)) x_contour = [] y_contour = [] - print(contour_conv_ij) for i in range(n_scan_2): #nscan2 = 13 x_contour.append(m_file.data[scan_2_var_name].get_scan(i+1)) for i in range(1,n_scan_1*n_scan_2,n_scan_2): y_contour.append(m_file.data[scan_var_name].get_scan(i+1)) #is the separte lists in the list for i in contour_conv_ij: - print(((i-1)%n_scan_2)) + # print(((i-1)%n_scan_2)) output_contour_z[((i-1)//n_scan_2)][((i-1)%n_scan_2) if ((i-1)//n_scan_2)%2==0 else (-((i-1)%n_scan_2)-1)] = m_file.data[output_name].get_scan(i) - print(output_contour_z) + #print(output_contour_z) flat_output_z = output_contour_z.flatten() flat_output_z.sort() @@ -773,13 +772,16 @@ def main(args=None): output_contour_z, levels=np.linspace(flat_output_z[1], output_contour_z.max(), 50), ) - plt.colorbar() - plt.ylabel(labels[output_name], fontsize=axis_font_size) + plt.colorbar(label =labels[output_name]) + plt.ylabel(labels[scan_var_name], fontsize=axis_font_size) plt.xlabel(labels[scan_2_var_name], fontsize=axis_font_size) plt.tight_layout() plt.savefig( f"{args.outputdir}/scan_{output_name}_vs_{scan_var_name}_{scan_2_var_name}.{save_format}" ) + plt.show() + plt.clf() + else: # Converged indexes, for normal 2D line plot for conv_j in conv_ij: # conv_j is an array element containing the converged scan numbers From da22960bd955b22171f1a17d3f35f61dc388d406 Mon Sep 17 00:00:00 2001 From: Chris Date: Fri, 8 Sep 2023 15:09:21 +0100 Subject: [PATCH 03/25] Added stack plots switch and subplot fig condition --- process/io/plot_scans.py | 14 ++++++++++++++ 1 file changed, 14 insertions(+) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index f580580878..b70e45ec39 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -137,6 +137,16 @@ def parse_args(args): ), ) + + parser.add_argument( + "-stc", + "--stack_plots", + action="store_true", + help=( + "Option to plot multiple 1D plots in a column of sub0plots \n " + ), + + ) return parser.parse_args(args) @@ -158,6 +168,7 @@ def main(args=None): term_output = args.term_output label_name = str(args.label_name) two_dimensional_contour = args.two_dimensional_contour + stack_plots = args.stack_plots # --------------------------------------- # Input checks @@ -603,6 +614,9 @@ def main(args=None): continue # Loop over inputs + if stack_plots: + fig, axs = plt.subplots(len(output_names), 1, sharex=True, figsize=(8.0, 4.8)) + fig.subplots_adjust(hspace=0.055) for input_file in input_files: # Legend label formating if label_name == []: From a1f5d05c5bc2f29963260d4bf7e1e518c586bda0 Mon Sep 17 00:00:00 2001 From: Chris Date: Fri, 8 Sep 2023 16:14:32 +0100 Subject: [PATCH 04/25] Can now do stacked plots and save --- process/io/plot_scans.py | 69 ++++++++++++++++++++++++++++------------ 1 file changed, 48 insertions(+), 21 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index b70e45ec39..6ded4b6e3c 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -144,6 +144,7 @@ def parse_args(args): action="store_true", help=( "Option to plot multiple 1D plots in a column of sub0plots \n " + "Variables will be plotted in order of input" ), ) @@ -604,7 +605,9 @@ def main(args=None): ) # Plot section # ----------- - + if stack_plots: + fig, axs = plt.subplots(len(output_names), 1, sharex=True, figsize=(8.0, 4.8)) + fig.subplots_adjust(hspace=0.065) for output_name in output_names: # reset counter for label_name kk = 0 @@ -614,9 +617,6 @@ def main(args=None): continue # Loop over inputs - if stack_plots: - fig, axs = plt.subplots(len(output_names), 1, sharex=True, figsize=(8.0, 4.8)) - fig.subplots_adjust(hspace=0.055) for input_file in input_files: # Legend label formating if label_name == []: @@ -631,7 +631,7 @@ def main(args=None): kk = kk + 1 # Plot the graph - if output_names2 != []: + if output_names2 != [] and not stack_plots: fig, ax = plt.subplots() ax.plot( scan_var_array[input_file], @@ -641,15 +641,24 @@ def main(args=None): label=labl, ) else: - plt.plot( - scan_var_array[input_file], - output_arrays[input_file][output_name], - "--o", - color="blue" if output_names2 != [] else None, - label=labl, + if stack_plots: + axs[output_names.index(output_name)].plot( + scan_var_array[input_file], + output_arrays[input_file][output_name], + "--o", + color="blue" if output_names2 != [] else None, + label=labl, ) - plt.xticks(size=axis_tick_size) - plt.yticks(size=axis_tick_size) + else: + plt.plot( + scan_var_array[input_file], + output_arrays[input_file][output_name], + "--o", + color="blue" if output_names2 != [] else None, + label=labl, + ) + plt.xticks(size=axis_tick_size) + plt.yticks(size=axis_tick_size) if output_names2 != []: ax2 = ax.twinx() ax2.plot( @@ -671,7 +680,16 @@ def main(args=None): labels[output_name], fontsize=axis_font_size, color="blue" ) ax.set_xlabel(labels[scan_var_name], fontsize=axis_font_size) - else: + elif stack_plots: + axs[output_names.index(output_name)].grid(True) + axs[output_names.index(output_name)].set_ylabel( + labels[output_name], + fontsize=axis_font_size, + ) + plt.grid(True) + plt.xlabel(labels[scan_var_name], fontsize=axis_font_size) + + else: plt.grid(True) plt.ylabel( labels[output_name], @@ -679,9 +697,9 @@ def main(args=None): color="red" if output_names2 != [] else "black", ) plt.xlabel(labels[scan_var_name], fontsize=axis_font_size) - if len(input_files) != 1: - plt.legend(loc="best", fontsize=legend_size) - plt.tight_layout() + if len(input_files) != 1: + plt.legend(loc="best", fontsize=legend_size) + plt.tight_layout() # Output file naming if output_name == "plascur/1d6": @@ -699,7 +717,16 @@ def main(args=None): if output_names2 != [] else "" + f".{save_format}" ) - else: + elif stack_plots and output_names[-1] == output_name: + plt.savefig( + f"{args.outputdir}/scan_{scan_var_name}_vs_{output_name}" + + f"_vs_{output_name2}" + if output_names2 != [] + else f"{args.outputdir}/scan_{scan_var_name}_vs_{output_names}" + + f".{save_format}" + ) + + else: plt.savefig( f"{args.outputdir}/scan_{scan_var_name}_vs_{output_name}" + f"_vs_{output_name2}" @@ -708,9 +735,9 @@ def main(args=None): + f".{save_format}" ) - # Display plot (used in Jupyter notebooks) - plt.show() - plt.clf() + if not stack_plots:# Display plot (used in Jupyter notebooks) + plt.show() + plt.clf() # ------------ # In case of a 2D scan From eddbcb578ea85c19993f87b74beb5c4dc2b396f2 Mon Sep 17 00:00:00 2001 From: Chris Date: Fri, 8 Sep 2023 17:00:38 +0100 Subject: [PATCH 05/25] Plot formatting --- process/io/plot_scans.py | 19 +++++++++++++++---- 1 file changed, 15 insertions(+), 4 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index 6ded4b6e3c..9dfff2c70c 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -606,8 +606,9 @@ def main(args=None): # Plot section # ----------- if stack_plots: - fig, axs = plt.subplots(len(output_names), 1, sharex=True, figsize=(8.0, 4.8)) - fig.subplots_adjust(hspace=0.065) + fig, axs = plt.subplots(len(output_names), 1, sharex=True, figsize=(8.0, 4.8)) + fig.subplots_adjust(hspace=0.075) + #fig.tight_layout() for output_name in output_names: # reset counter for label_name kk = 0 @@ -684,11 +685,21 @@ def main(args=None): axs[output_names.index(output_name)].grid(True) axs[output_names.index(output_name)].set_ylabel( labels[output_name], - fontsize=axis_font_size, ) plt.grid(True) plt.xlabel(labels[scan_var_name], fontsize=axis_font_size) - + plt.legend( + loc="lower center", + fontsize=legend_size, + bbox_to_anchor=(0.5, -1.7), + fancybox=True, + shadow=False, + ncol=len(input_files), + columnspacing=0.8, + ) + plt.tight_layout() + #axs[output_names.index(output_name)].get_ylim()[0]) + axs[output_names.index(output_name)].set_ylim(axs[output_names.index(output_name)].get_ylim()[0]*0.925,axs[output_names.index(output_name)].get_ylim()[1]*1.075) else: plt.grid(True) plt.ylabel( From 422119c02fec52252cf30850c465d1ea26388166 Mon Sep 17 00:00:00 2001 From: Chris Date: Tue, 26 Sep 2023 14:43:13 +0100 Subject: [PATCH 06/25] Initial file commit --- process/io/plot_radial_build.py | 443 ++++++++++++++++++++++++++++++++ 1 file changed, 443 insertions(+) create mode 100644 process/io/plot_radial_build.py diff --git a/process/io/plot_radial_build.py b/process/io/plot_radial_build.py new file mode 100644 index 0000000000..069b6ac87b --- /dev/null +++ b/process/io/plot_radial_build.py @@ -0,0 +1,443 @@ +""" +Code to display bar type representation of the radial build of a PROCESS run. + +Author: A. Pearce (alexander.pearce@ukaea.uk) +Updated 26/09/23: C. Ashe (christopher.ashe@ukaea.uk) + +Input file: +MFILE.DAT + +""" + +import matplotlib.pyplot as plt +import numpy as np +import argparse +from argparse import RawTextHelpFormatter + +# PROCESS libraries +import process.io.mfile as mf + + +def parse_args(args): + """Parse supplied arguments. + + :param args: arguments to parse + :type args: list, None + :return: parsed arguments + :rtype: Namespace + """ + parser = argparse.ArgumentParser( + description="Plot optimization information", + formatter_class=RawTextHelpFormatter, + ) + + parser.add_argument( + "-f", + "--input", + default="MFILE.DAT", + help=("Specify input file path (default = MFILE.DAT)"), + ) + + parser.add_argument( + "-o", + "--output", + default="radial_build_plot", + help="name out outputted file (default=radial_build_plot)", + ) + + parser.add_argument( + "-sf", + "--save_format", + nargs="?", + default="pdf", + help="Output format (default='pdf') ", + ) + + parser.add_argument( + "-ib", + "--inboard", + action="store_true", + help="Show inboard build only, default = No ", + ) + + return parser.parse_args(args) + + +def get_radial_build(m_file): + isweep = int(m_file.data["isweep"].get_scan(-1)) + + # Find out the number of converged solutions + ifail = [] + for kk in range(isweep): + ifail = np.append(ifail, m_file.data["ifail"].get_scan(kk + 1)) + num_converged_sol = np.count_nonzero(ifail == 1) + radial_build = np.zeros((25, num_converged_sol)) + + radial_labels = [ + "bore", + "ohcth", + "precomp", + "gapoh", + "tfcth", + "tftsgap", + "thshield_ib", + "gapds", + "d_vv_in", + "shldith", + "vvblgap", + "blnkith", + "fwith", + "scrapli", + "rminor", + "scraplo", + "fwoth", + "blnkoth", + "vvblgap", + "d_vv_out", + "shldoth", + "gapsto", + "thshield_ob", + "tftsgap", + "tfthko", + ] + if int(m_file.data["tf_in_cs"].get_scan(-1)) == 1: + radial_labels[1] = "tfcth" + radial_labels[2] = "gapoh" + radial_labels[3] = "ohcth" + radial_labels[4] = "precomp" + radial_labels[5] = "tftsgap" + + ll = 0 + for ii in range(isweep): + if ifail[ii] == 1: + for jj in range(len(radial_labels)): + radial_build[jj, ll] = m_file.data[radial_labels[jj]].get_scan(ii + 1) + ll += 1 + + # plasma is 2*rminor + # Therefore we must count it again + for kk in range(num_converged_sol): + radial_build[14, kk] = 2.0 * radial_build[14, kk] + + return radial_build, num_converged_sol + + +def main(args=None): + args = parse_args(args) + + input_file = str(args.input) + output_name = str(args.output) + save_format = str(args.save_format) + + # LaTeX labels + # ------------ + # ToDo : WOULD BE GREAT TO HAVE IT STORED IN THE PROCESS ! + labels = dict() + labels["shldith"] = r"$\Delta R_\mathrm{sh}$ [$m$]" + labels["rmajor"] = r"$R_\mathrm{maj}$ [$m$]" + labels["crypmw"] = r"$P_\mathrm{cryo}$ [$MW$]" + labels["bt"] = r"$B_\mathrm{T}$ [$T$]" + labels["tfcth"] = r"$\Delta R_\mathrm{TF}$ [$m$]" + labels["powfmw"] = r"$P_\mathrm{fus}$ [$MW$]" + labels["pinjemw"] = r"$P_\mathrm{inj}$ [$MW$]" + labels["pnetelmw"] = r"$P_\mathrm{Net\ elec}$ [$MW$]" + labels["taueff"] = r"$\tau_\mathrm{E}$ [s]" + labels["ralpne"] = r"$f_\mathrm{\alpha}$" + labels["te"] = r"$\left< T_\mathrm{e} \right>$" + labels["taulimit"] = r"$max : \frac{\tau_\mathrm{\alpha}}{\tau_\mathrm{E}}$" + labels["scrapli"] = r"$\Delta R_\mathrm{FW-sep}$ [$m$]" + labels["scraplo"] = r"$\Delta R_\mathrm{FW-sep}^\mathrm{out}$ [$m$]" + labels["vforce"] = r"$F_\mathrm{z}^\mathrm{in}$ [$N$]" + labels["thkcas"] = r"$\Delta R_\mathrm{TF}^\mathrm{buck}$ [$m$]" + labels["bmaxtf"] = r"$B_\mathrm{TF}^\mathrm{max}$ [$T$]" + labels["ritfc"] = r"$I_\mathrm{TF}^\mathrm{tot}$ [$A$]" + labels["dr_tf_wp"] = r"$\Delta R_\mathrm{TF}^\mathrm{WP}$ [$m$]" + labels["aspect"] = r"$A$" + labels["rminor"] = r"$a_\mathrm{min}$ [$m$]" + labels["capcost"] = r"$C_\mathrm{cap}$ [$M\$ $]" + labels["r_tf_outboard_mid"] = r"$\Delta R_\mathrm{TF}^\mathrm{out\ mid}$ [$m$]" + labels["pgrossmw"] = r"$P_\mathrm{gross}^\mathrm{elec}$ [$MW$]" + labels["htpmw"] = r"$P_\mathrm{Primary\ coolant}^\mathrm{elec}$ [$MW$]" + labels["ppfmw"] = r"$P_\mathrm{PF}^\mathrm{elec}$ [$MW$]" + labels["hmax"] = r"$z_\mathrm{TF}^\mathrm{pl\ side}$ [$m$]" + labels["thicndut"] = r"\Delta l_\mathrm{steel\ jacket}^\mathrm{turn}" + labels["cpttf"] = r"$I_\mathrm{TF}^\mathrm{turn}$ [$A$]" + labels["boundl(2)"] = r"$B_\mathrm{T}^\mathrm{min}$ [$A$]" + labels["pinjmw"] = r"$P_\mathrm{inj}$ [$MW$]" + labels["hldivlim"] = r"$q_\mathrm{div}^\mathrm{max}$ [$MW.m^{-2}$]" + labels["hfact"] = r"$f_\mathrm{H}$" + labels["kappa"] = r"$\kappa_\mathrm{sep}$" + labels["triang"] = r"$\delta_\mathrm{sep}$" + labels["f_tf_steel"] = r"f_\mathrm{steel}^\mathrm{TF}" + labels["plascur/1d6"] = r"$I_{\mathrm{p}}$[$MA$]" + labels["n_cycle"] = r"$N_{\mathrm{CS},\mathrm{cycle}}$" + labels["alstroh"] = r"$\sigma_{\mathrm{oh}}^{\mathrm{max}}$[$Pa$]" + labels["ohcth"] = r"$\Delta R_{\mathrm{CS}}$[$m$]" + labels["bore"] = r"$\Delta R_{\mathrm{bore}}$[$m$]" + labels["dnla"] = r"$\bar{n}_{\mathrm{e}}$[$m^{-3}$]" + labels["dnla_gw"] = r"$f_{\mathrm{GW}}$" + labels["normalised_toroidal_beta"] = r"$\beta_{N,\mathrm{tor}}$" + labels["copperaoh_m2"] = r"$\frac{I_{\mathrm{CS}}}{CuA} [$A m$^{-2}$$]$" + labels["copperaoh_m2_max"] = r"$max\frac{I_{\mathrm{CS}}}{CuA} [$A m$^{-2}$$]$" + labels["coreradius"] = r"$r_{core} [M]$" + labels[ + "fcuohsu" + ] = r"$f_{\mathrm{Cu}}^{\mathrm{CS}}$" # copper fraction of strand in central solenoid + labels["coheof"] = r"$J [A M^{-2}]$" + labels["ohhghf"] = r"$Thickness_{\mathrm{CS}}[m]$" + labels["pheat"] = r"$ P_{\mathrm{heat}}$ [$MW$]" + labels["effcd"] = r"$\eta_{\mathrm{CD}}$[$A/W$]" + labels["bigq"] = r"$Q$" + labels["faccd"] = r"$f_{\mathrm{CD}}$" + labels["facoh"] = r"$f_{\mathrm{CD,ind}}$" + labels["bootipf"] = r"$f_{\mathrm{BS}}$" + labels["itvar039"] = r"$f_{\mathrm{LH}}$" + labels["itvar011"] = r"$f_{\mathrm{V.s}}$" + labels["pdivt"] = r"$P_{\mathrm{sep}}$ [$MW$]" + labels["pradmw"] = r"$P_{\mathrm{rad}}$ [$MW$]" + labels[ + "pdivtbt/qar" + ] = r"$\frac{P_{\mathrm{sep}}B_T}{q_{95}AR_{\mathrm{maj}}}$ [$MWTm^{-1}$]" + labels["iooic"] = r"$I_{\mathrm{TF}}/I_{\mathrm{TF},\mathrm{crit}}$" + labels["bktlife"] = r"$T_{\mathrm{blk}}$" + labels["bktcycles"] = r"$N_{\mathrm{blk},\mathrm{cycle}}$" + labels["zeff"] = r"$Z_{\mathrm{eff}}$" + labels["tburn"] = r"$t_{\mathrm{burn}}$[$s$]" + labels["vburn"] = r"$V_{\mathrm{loop}}$ [$V$]" + labels["rli"] = r"$l_i$" + labels["csfv.n_cycle_min"] = r"$N_{\mathrm{min}}^{\mathrm{CS}}$" + labels["csfv.n_cycle"] = r"$N_{\mathrm{cycle}}^{\mathrm{CS}}$" + labels["a_oh_turn"] = r"$Turn_{\mathrm{area}}^{\mathrm{CS}}[$m$^{2}]$" + labels["tbrnmn"] = r"$t_{\mathrm{burn.min}}$[$s$]" + labels["pfv.oh_steel_frac"] = r"$f_{\mathrm{Steel}}^{\mathrm{CS}}$" + labels["csfv.t_structural_radial"] = r"$Turn_{\mathrm{radial}}^{\mathrm{CS}}[$m$]$" + labels["csfv.t_crack_vertical"] = r"$Crack_{\mathrm{vertical}}^{\mathrm{CS}}[$m$]$" + labels["sig_hoop"] = r"$\sigma_{\mathrm{oh},{\mathrm{hoop}}}$[$Pa$]" + labels["rplas"] = r"$R_{\mathrm{plas}}$[$\Omega$]" + # ------------ + + # nsweep varible dict + # ------------------- + # TODO WOULD BE GREAT TO HAVE IT AUTOMATICALLY GENERATED ON THE PROCESS CMAKE! + # THE SAME WAY THE DICTS ARE + # This needs to be kept in sync automatically; this will break frequently + # otherwise + # Rem : Some variables are not in the MFILE, making the defintion rather tricky... + nsweep_dict = dict() + nsweep_dict[1] = "aspect" + nsweep_dict[2] = "hldivlim" + nsweep_dict[3] = "pnetelmw" + nsweep_dict[4] = "hfact" + nsweep_dict[5] = "oacdcp" + nsweep_dict[6] = "walalw" + nsweep_dict[7] = "beamfus0" + nsweep_dict[8] = "fqval" + nsweep_dict[9] = "te" + nsweep_dict[10] = "boundu(15)" + nsweep_dict[11] = "dnbeta" + nsweep_dict[12] = "bscfmax" + nsweep_dict[13] = "boundu(10)" + nsweep_dict[14] = "fiooic" + nsweep_dict[15] = "fjprot" + nsweep_dict[16] = "rmajor" + nsweep_dict[ + 17 + ] = "bmaxtf" # bmxlim the maximum T field upper limit is the scan variable + nsweep_dict[18] = "gammax" + nsweep_dict[19] = "boundl(16)" + nsweep_dict[20] = "cnstv.tbrnmn" + nsweep_dict[21] = "" + nsweep_dict[22] = "cfactr" + nsweep_dict[23] = "boundu(72)" + nsweep_dict[24] = "powfmax" + nsweep_dict[25] = "kappa" + nsweep_dict[26] = "triang" + nsweep_dict[27] = "tbrmin" + nsweep_dict[28] = "bt" + nsweep_dict[29] = "coreradius" + nsweep_dict[30] = "fimpvar" + nsweep_dict[31] = "taulimit" + nsweep_dict[32] = "epsvmc" + nsweep_dict[33] = "ttarget" + nsweep_dict[34] = "qtargettotal" + nsweep_dict[35] = "lambda_q_omp" + nsweep_dict[36] = "lambda_target" + nsweep_dict[37] = "lcon_factor" + nsweep_dict[38] = "boundu(129)" + nsweep_dict[39] = "boundu(131)" + nsweep_dict[40] = "boundu(135)" + nsweep_dict[41] = "blnkoth" + nsweep_dict[42] = "fimp(9)" + nsweep_dict[43] = "rho_ecrh" + nsweep_dict[44] = "alstrtf" + nsweep_dict[45] = "tmargmin_tf" + nsweep_dict[46] = "boundu(152)" + nsweep_dict[47] = "impurity_enrichment(9)" + nsweep_dict[48] = "n_pancake" + nsweep_dict[49] = "n_layer" + nsweep_dict[50] = "fimp(13)" + nsweep_dict[51] = "ftar" + nsweep_dict[52] = "rad_fraction_sol" + nsweep_dict[54] = "b_crit_upper_nbti" + nsweep_dict[55] = "shldith" + nsweep_dict[56] = "crypmw_max" + nsweep_dict[57] = "bt" # Genuinly bt lower bound + nsweep_dict[58] = "scrapli" + nsweep_dict[59] = "scraplo" + nsweep_dict[60] = "sig_tf_wp_max" + nsweep_dict[61] = "copperaoh_m2_max" + nsweep_dict[62] = "coheof" + nsweep_dict[63] = "ohcth" + nsweep_dict[64] = "ohhghf" + nsweep_dict[65] = "csfv.n_cycle_min" + nsweep_dict[66] = "pfv.oh_steel_frac" + nsweep_dict[67] = "csfv.t_crack_vertical" + nsweep_dict[77] = "fvs" # actaully lower bound fvs + nsweep_dict[78] = "vburn" + nsweep_dict[79] = "rplas" # "plasma_res_factor" + # ------------------- + + # Getting the scanned variable name + m_file = mf.MFile(filename=input_file) + nsweep_ref = int(m_file.data["nsweep"].get_scan(-1)) + try: + scan_var_name = nsweep_dict[nsweep_ref] + except: + scan_var_name = "Null" + + radial_labels = [ + "Machine Bore", + "Central Solenoid", + "CS precompression", + "CS Coil gap", + "TF Coil Inboard Leg", + "TF Coil gap", + "Inboard Thermal Shield", + "Gap", + "Inboard VV", + "Inboard Shield", + "Gap", + "Inboard Blanket", + "Inboard First Wall", + "Inboard SOL", + "Plasma", + "Outboard SOL", + "Outboard First Wall", + "Outboard Blanket", + "Gap", + "Outboard VV", + "Outboard Shield", + "Gap", + "Outboard Thermal Shield", + "Gap", + "TF Coil Outboard Leg", + ] + if int(m_file.data["tf_in_cs"].get_scan(-1)) == 1: + radial_labels[1] = "TF Coil Inboard Leg" + radial_labels[2] = "CS Coil gap" + radial_labels[3] = "Central Solenoid" + radial_labels[4] = "CS precompression" + radial_labels[5] = "TF Coil gap" + radial_color = [ + "lightgrey", + "green", + "yellow", + "white", + "blue", + "white", + "lime", + "white", + "dimgrey", + "violet", + "white", + "goldenrod", + "steelblue", + "orange", + "red", + "orange", + "steelblue", + "goldenrod", + "white", + "dimgrey", + "violet", + "white", + "lime", + "white", + "blue", + ] + if int(m_file.data["tf_in_cs"].get_scan(-1)) == 1: + radial_color[1] = "blue" + radial_color[2] = "white" + radial_color[3] = "green" + radial_color[4] = "yellow" + radial_color[5] = "white" + radial_build, num_converged_sol = get_radial_build(m_file) + + # Get scan variable data + nn = 0 + isweep = int(m_file.data["isweep"].get_scan(-1)) + scan_points = np.zeros(num_converged_sol) + for ii in range(isweep): + ifail = m_file.data["ifail"].get_scan(ii + 1) + if ifail == 1: + scan_points[nn] = m_file.data[scan_var_name].get_scan(ii + 1) + nn += 1 + + index = [] + # need a set of checks - remove build parts equal to zero + for ll in range(len(radial_build[:, 0])): + if radial_build[ll, 0] == 0.0: + # note index + index = np.append(index, ll) + + # Plot settings + # ------------- + # Plot cosmetic settings + axis_tick_size = 12 + legend_size = 8 + axis_font_size = 16 + + ind = [y for y, _ in enumerate(scan_points)] + if args.inboard: + end_scan = radial_labels.index("Plasma") + else: + end_scan = len(radial_build) + + for kk in range((len(radial_build[:end_scan, 0]))): + if kk == 0: + lower = np.zeros(len(radial_build[kk, :])) + else: + lower = lower + radial_build[kk - 1, :] + plt.barh( + ind, + radial_build[kk, :], + left=lower, + height=0.8, + label=radial_labels[kk], + color=radial_color[kk], + edgecolor="black", + linewidth=0.05, + ) + + plt.yticks(ind, scan_points, fontsize=axis_tick_size) + plt.ylabel(labels[scan_var_name], fontsize=axis_font_size) + plt.legend( + bbox_to_anchor=(0.5, -0.15), loc="upper center", fontsize=legend_size, ncol=4 + ) + plt.xlabel("Radius [m]") + plt.tight_layout() + plt.savefig( + "{}.{}".format( + output_name, + save_format, + ), + bbox_inches="tight", + ) + + # Display plot (used in Jupyter notebooks) + plt.show() + plt.clf() + + +if __name__ == "__main__": + main() From 4445a0bf9f7517e62fbe18680d8152980c39490a Mon Sep 17 00:00:00 2001 From: Chris Date: Tue, 26 Sep 2023 14:55:11 +0100 Subject: [PATCH 07/25] bare except flake 8 fix --- process/io/plot_radial_build.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/process/io/plot_radial_build.py b/process/io/plot_radial_build.py index 069b6ac87b..00911b22fa 100644 --- a/process/io/plot_radial_build.py +++ b/process/io/plot_radial_build.py @@ -302,7 +302,7 @@ def main(args=None): nsweep_ref = int(m_file.data["nsweep"].get_scan(-1)) try: scan_var_name = nsweep_dict[nsweep_ref] - except: + except NameError: scan_var_name = "Null" radial_labels = [ From f68f71b7fdfd42db06759f280f0600d28d3dc5f6 Mon Sep 17 00:00:00 2001 From: Chris Date: Tue, 26 Sep 2023 15:52:46 +0100 Subject: [PATCH 08/25] Fig size and plot formatting --- process/io/plot_scans.py | 134 ++++++++++++++++++++++----------------- 1 file changed, 76 insertions(+), 58 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index c0cda89d39..3b59afa271 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -30,7 +30,7 @@ import argparse from argparse import RawTextHelpFormatter from pathlib import Path -from numba import njit + # PROCESS libraries import process.io.mfile as mf @@ -124,9 +124,8 @@ def parse_args(args): "list the same number of label names eg: -nl 'leg1 leg2'\n" "(default = MFile file name) " ), - ) - + parser.add_argument( "-2DC", "--two_dimensional_contour", @@ -134,10 +133,10 @@ def parse_args(args): help=( "Option to plot 2D scans as a coloured contour plot instead of a line plot \n " "Note: Non convergent points will show up with a value of zero \n " + "Note: The scan paramters must both be in increasing orderl \n " ), - ) - + parser.add_argument( "-stc", "--stack_plots", @@ -146,7 +145,6 @@ def parse_args(args): "Option to plot multiple 1D plots in a column of sub0plots \n " "Variables will be plotted in order of input" ), - ) return parser.parse_args(args) @@ -401,7 +399,6 @@ def main(args=None): m_file = mf.MFile(filename=input_files[-1]) nsweep_ref = int(m_file.data["nsweep"].get_scan(-1)) scan_var_name = nsweep_dict[nsweep_ref] - # Get the eventual second scan variable nsweep_2_ref = int(0) is_2D_scan = False @@ -522,7 +519,6 @@ def main(args=None): scan_var_array[input_file][ii] = m_file.data[scan_var_name].get_scan( conv_i[ii] ) - # output list declaration output_arrays[input_file] = dict() output_arrays2[input_file] = dict() @@ -553,7 +549,6 @@ def main(args=None): for ii in range(n_scan): ouput_array[ii] = m_file.data[output_name].get_scan(conv_i[ii]) output_arrays[input_file][output_name] = ouput_array - # Second variable scan if output_names2 != []: for output_name2 in output_names2: @@ -607,9 +602,9 @@ def main(args=None): # Plot section # ----------- if stack_plots: - fig, axs = plt.subplots(len(output_names), 1, sharex=True, figsize=(8.0, 4.8)) - fig.subplots_adjust(hspace=0.075) - #fig.tight_layout() + fig, axs = plt.subplots(len(output_names), 1, figsize=(8.0, 12.8)) + fig.subplots_adjust(hspace=0.0) + # fig.tight_layout() for output_name in output_names: # reset counter for label_name kk = 0 @@ -644,13 +639,13 @@ def main(args=None): ) else: if stack_plots: - axs[output_names.index(output_name)].plot( + axs[output_names.index(output_name)].plot( scan_var_array[input_file], output_arrays[input_file][output_name], "--o", color="blue" if output_names2 != [] else None, label=labl, - ) + ) else: plt.plot( scan_var_array[input_file], @@ -690,18 +685,21 @@ def main(args=None): plt.grid(True) plt.xlabel(labels[scan_var_name], fontsize=axis_font_size) plt.legend( - loc="lower center", - fontsize=legend_size, - bbox_to_anchor=(0.5, -1.7), - fancybox=True, - shadow=False, - ncol=len(input_files), - columnspacing=0.8, - ) + loc="lower center", + fontsize=legend_size, + bbox_to_anchor=(0.5, -1.4), + fancybox=True, + shadow=False, + ncol=len(input_files), + columnspacing=0.8, + ) plt.tight_layout() - #axs[output_names.index(output_name)].get_ylim()[0]) - axs[output_names.index(output_name)].set_ylim(axs[output_names.index(output_name)].get_ylim()[0]*0.925,axs[output_names.index(output_name)].get_ylim()[1]*1.075) - else: + # axs[output_names.index(output_name)].get_ylim()[0]) + axs[output_names.index(output_name)].set_ylim( + axs[output_names.index(output_name)].get_ylim()[0] * 0.6, + axs[output_names.index(output_name)].get_ylim()[1] * 1.2, + ) + else: plt.grid(True) plt.ylabel( labels[output_name], @@ -735,19 +733,21 @@ def main(args=None): + f"_vs_{output_name2}" if output_names2 != [] else f"{args.outputdir}/scan_{scan_var_name}_vs_{output_names}" - + f".{save_format}" + + f".{save_format}", + dpi=300, ) - - else: + + else: plt.savefig( f"{args.outputdir}/scan_{scan_var_name}_vs_{output_name}" + f"_vs_{output_name2}" if output_names2 != [] else f"{args.outputdir}/scan_{scan_var_name}_vs_{output_name}" - + f".{save_format}" + + f".{save_format}", + dpi=300, ) - if not stack_plots:# Display plot (used in Jupyter notebooks) + if not stack_plots: # Display plot (used in Jupyter notebooks) plt.show() plt.clf() # ------------ @@ -761,18 +761,21 @@ def main(args=None): # Number of scan points n_scan_1 = int(m_file.data["isweep"].get_scan(-1)) n_scan_2 = int(m_file.data["isweep_2"].get_scan(-1)) - # Selecting the converged runs only - contour_conv_ij = [] #List of non-converged scan point numbers - conv_ij = list() # 2D array of converged scan point numbers (sweep = rows, sweep_2 = columns) + contour_conv_ij = [] # List of non-converged scan point numbers + conv_ij = ( + list() + ) # 2D array of converged scan point numbers (sweep = rows, sweep_2 = columns) ii_jj = 0 for ii in range(n_scan_1): conv_ij.append(list()) for jj in range(n_scan_2): - ii_jj += 1 #Represents the scan point number in the MFILE + ii_jj += 1 # Represents the scan point number in the MFILE ifail = m_file.data["ifail"].get_scan(ii_jj) if ifail == 1: - conv_ij[ii].append(ii_jj) # Only appends scan number if scan converged + conv_ij[ii].append( + ii_jj + ) # Only appends scan number if scan converged contour_conv_ij.append(ii_jj) else: failed_value_1 = m_file.data[scan_var_name].get_scan(ii_jj) @@ -786,9 +789,7 @@ def main(args=None): for output_name in output_names: # Check if the output variable exists in the MFILE if output_name not in m_file.data.keys(): - print( - f"Warning : `{output_name}` does not exist in PROCESS dicts" - ) + print(f"Warning : `{output_name}` does not exist in PROCESS dicts") print(f"Warning : `{output_name}` will not be output") continue @@ -807,37 +808,54 @@ def main(args=None): output_contour_z = np.zeros((n_scan_1, n_scan_2)) x_contour = [] y_contour = [] - for i in range(n_scan_2): #nscan2 = 13 - x_contour.append(m_file.data[scan_2_var_name].get_scan(i+1)) - for i in range(1,n_scan_1*n_scan_2,n_scan_2): - y_contour.append(m_file.data[scan_var_name].get_scan(i+1)) #is the separte lists in the list + for i in range(n_scan_2): # nscan2 = 13 + x_contour.append(m_file.data[scan_2_var_name].get_scan(i + 1)) + for i in range(1, n_scan_1 * n_scan_2, n_scan_2): + y_contour.append( + m_file.data[scan_var_name].get_scan(i + 1) + ) # is the separte lists in the list for i in contour_conv_ij: - # print(((i-1)%n_scan_2)) - output_contour_z[((i-1)//n_scan_2)][((i-1)%n_scan_2) if ((i-1)//n_scan_2)%2==0 else (-((i-1)%n_scan_2)-1)] = m_file.data[output_name].get_scan(i) - #print(output_contour_z) - + # if (x_contour[1]>x_contour[0]) and y_contour[1]>y_contour[0] + # print(((i-1)%n_scan_2)) + output_contour_z[((i - 1) // n_scan_2)][ + ((i - 1) % n_scan_2) + if ((i - 1) // n_scan_2) % 2 == 0 + else (-((i - 1) % n_scan_2) - 1) + ] = m_file.data[output_name].get_scan(i) + # print(output_contour_z) + flat_output_z = output_contour_z.flatten() flat_output_z.sort() - + print(x_contour) + print(y_contour) + print(output_contour_z) plt.contourf( - x_contour, - y_contour, - output_contour_z, - levels=np.linspace(flat_output_z[1], output_contour_z.max(), 50), - ) - plt.colorbar(label =labels[output_name]) + x_contour, + y_contour, + output_contour_z, + levels=np.linspace( + list(filter(lambda i: i > 0.0, flat_output_z))[0], + flat_output_z.max(), + 50, + ), + ) + plt.colorbar(label=labels[output_name]) plt.ylabel(labels[scan_var_name], fontsize=axis_font_size) plt.xlabel(labels[scan_2_var_name], fontsize=axis_font_size) plt.tight_layout() plt.savefig( - f"{args.outputdir}/scan_{output_name}_vs_{scan_var_name}_{scan_2_var_name}.{save_format}" - ) + f"{args.outputdir}/scan_{output_name}_vs_{scan_var_name}_{scan_2_var_name}.{save_format}" + ) plt.show() plt.clf() - + else: - # Converged indexes, for normal 2D line plot - for conv_j in conv_ij: # conv_j is an array element containing the converged scan numbers + # Converged indexes, for normal 2D line plot + for ( + conv_j + ) in ( + conv_ij + ): # conv_j is an array element containing the converged scan numbers # Scanned variables print(conv_j) scan_1_var_array = np.zeros(len(conv_j)) From c5194b3994943eb16ad3344dfea0d195151b4c09 Mon Sep 17 00:00:00 2001 From: Chris Date: Tue, 26 Sep 2023 16:17:06 +0100 Subject: [PATCH 09/25] auto figure scaling for multiple plots --- process/io/plot_scans.py | 6 ++++-- 1 file changed, 4 insertions(+), 2 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index 3b59afa271..5a586aafca 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -602,7 +602,9 @@ def main(args=None): # Plot section # ----------- if stack_plots: - fig, axs = plt.subplots(len(output_names), 1, figsize=(8.0, 12.8)) + fig, axs = plt.subplots( + len(output_names), 1, figsize=(8.0, (3.8 + (1 * len(output_names)))) + ) fig.subplots_adjust(hspace=0.0) # fig.tight_layout() for output_name in output_names: @@ -696,7 +698,7 @@ def main(args=None): plt.tight_layout() # axs[output_names.index(output_name)].get_ylim()[0]) axs[output_names.index(output_name)].set_ylim( - axs[output_names.index(output_name)].get_ylim()[0] * 0.6, + axs[output_names.index(output_name)].get_ylim()[0] * 0.8, axs[output_names.index(output_name)].get_ylim()[1] * 1.2, ) else: From 0e87a3bdb94882edf1aa278d1fc9378a26047adf Mon Sep 17 00:00:00 2001 From: Chris Date: Wed, 27 Sep 2023 10:07:17 +0100 Subject: [PATCH 10/25] Initial no-scan plot attempt --- process/io/plot_radial_build.py | 45 ++++++++++++++++++++------------- 1 file changed, 28 insertions(+), 17 deletions(-) diff --git a/process/io/plot_radial_build.py b/process/io/plot_radial_build.py index 00911b22fa..641fd8a2e0 100644 --- a/process/io/plot_radial_build.py +++ b/process/io/plot_radial_build.py @@ -65,7 +65,10 @@ def parse_args(args): def get_radial_build(m_file): isweep = int(m_file.data["isweep"].get_scan(-1)) - + if isweep == 0: + isweep = 1 + else: + pass # Find out the number of converged solutions ifail = [] for kk in range(isweep): @@ -299,10 +302,10 @@ def main(args=None): # Getting the scanned variable name m_file = mf.MFile(filename=input_file) - nsweep_ref = int(m_file.data["nsweep"].get_scan(-1)) try: + nsweep_ref = int(m_file.data["nsweep"].get_scan(-1)) scan_var_name = nsweep_dict[nsweep_ref] - except NameError: + except Exception: scan_var_name = "Null" radial_labels = [ @@ -374,15 +377,17 @@ def main(args=None): radial_build, num_converged_sol = get_radial_build(m_file) # Get scan variable data - nn = 0 - isweep = int(m_file.data["isweep"].get_scan(-1)) - scan_points = np.zeros(num_converged_sol) - for ii in range(isweep): - ifail = m_file.data["ifail"].get_scan(ii + 1) - if ifail == 1: - scan_points[nn] = m_file.data[scan_var_name].get_scan(ii + 1) - nn += 1 - + if scan_var_name != "Null": + nn = 0 + isweep = int(m_file.data["isweep"].get_scan(-1)) + scan_points = np.zeros(num_converged_sol) + for ii in range(isweep): + ifail = m_file.data["ifail"].get_scan(ii + 1) + if ifail == 1: + scan_points[nn] = m_file.data[scan_var_name].get_scan(ii + 1) + nn += 1 + else: + scan_points = 1 index = [] # need a set of checks - remove build parts equal to zero for ll in range(len(radial_build[:, 0])): @@ -396,8 +401,10 @@ def main(args=None): axis_tick_size = 12 legend_size = 8 axis_font_size = 16 - - ind = [y for y, _ in enumerate(scan_points)] + if scan_var_name != "Null": + ind = [y for y, _ in enumerate(scan_points)] + else: + pass if args.inboard: end_scan = radial_labels.index("Plasma") else: @@ -409,7 +416,7 @@ def main(args=None): else: lower = lower + radial_build[kk - 1, :] plt.barh( - ind, + ind if scan_var_name != "Null" else 0, radial_build[kk, :], left=lower, height=0.8, @@ -419,8 +426,12 @@ def main(args=None): linewidth=0.05, ) - plt.yticks(ind, scan_points, fontsize=axis_tick_size) - plt.ylabel(labels[scan_var_name], fontsize=axis_font_size) + if scan_var_name != "Null": + plt.yticks(ind, scan_points, fontsize=axis_tick_size) + plt.ylabel(labels[scan_var_name], fontsize=axis_font_size) + else: + plt.yticks([]) + plt.legend( bbox_to_anchor=(0.5, -0.15), loc="upper center", fontsize=legend_size, ncol=4 ) From dee41b2db27bc725a455cf5daf7f71c21a945da3 Mon Sep 17 00:00:00 2001 From: Chris Date: Wed, 27 Sep 2023 10:33:25 +0100 Subject: [PATCH 11/25] stack plots output filename format --- process/io/plot_scans.py | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index 5a586aafca..f4b9288ba7 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -734,7 +734,8 @@ def main(args=None): f"{args.outputdir}/scan_{scan_var_name}_vs_{output_name}" + f"_vs_{output_name2}" if output_names2 != [] - else f"{args.outputdir}/scan_{scan_var_name}_vs_{output_names}" + else f"{args.outputdir}/scan_{scan_var_name}_vs_" + + "_vs_".join(output_names) + f".{save_format}", dpi=300, ) @@ -748,7 +749,6 @@ def main(args=None): + f".{save_format}", dpi=300, ) - if not stack_plots: # Display plot (used in Jupyter notebooks) plt.show() plt.clf() From 5a684e34738a0c7927bd83243706af2a9759e7fd Mon Sep 17 00:00:00 2001 From: Chris Date: Wed, 27 Sep 2023 13:11:34 +0100 Subject: [PATCH 12/25] Legend placement format --- process/io/plot_scans.py | 9 +++++++-- 1 file changed, 7 insertions(+), 2 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index f4b9288ba7..b241bd43c9 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -302,6 +302,7 @@ def main(args=None): labels["fkind"] = r"N$^\mathrm{th}$ of a kind factor" labels["startupratio"] = r"Gyrotron Redundancy" labels["etaech"] = r"ECH wall plug to injector efficiency" + labels["tauee"] = r"$\tau_E$" # ------------ @@ -603,7 +604,10 @@ def main(args=None): # ----------- if stack_plots: fig, axs = plt.subplots( - len(output_names), 1, figsize=(8.0, (3.8 + (1 * len(output_names)))) + len(output_names), + 1, + figsize=(8.0, (3.5 + (1 * len(output_names)))), + sharex=True, ) fig.subplots_adjust(hspace=0.0) # fig.tight_layout() @@ -689,7 +693,8 @@ def main(args=None): plt.legend( loc="lower center", fontsize=legend_size, - bbox_to_anchor=(0.5, -1.4), + bbox_to_anchor=(0.5, -0.5 - (0.1 * len(output_names))), + # bbox_to_anchor=(0.5, -1.4), fancybox=True, shadow=False, ncol=len(input_files), From b30cf540326df0556275dbf4fa3fce09d0ea6b8a Mon Sep 17 00:00:00 2001 From: Chris Date: Wed, 27 Sep 2023 13:25:45 +0100 Subject: [PATCH 13/25] Integration test and outputdir command option --- process/io/plot_radial_build.py | 13 +++++++++---- tests/integration/test_plot_radial_build.py | 17 +++++++++++++++++ 2 files changed, 26 insertions(+), 4 deletions(-) create mode 100644 tests/integration/test_plot_radial_build.py diff --git a/process/io/plot_radial_build.py b/process/io/plot_radial_build.py index 641fd8a2e0..d2fb19cf82 100644 --- a/process/io/plot_radial_build.py +++ b/process/io/plot_radial_build.py @@ -13,6 +13,7 @@ import numpy as np import argparse from argparse import RawTextHelpFormatter +from pathlib import Path # PROCESS libraries import process.io.mfile as mf @@ -45,6 +46,13 @@ def parse_args(args): help="name out outputted file (default=radial_build_plot)", ) + parser.add_argument( + "-o", + "--outputdir", + default=Path.cwd(), + help="Output directory for plot, defaults to current working directory.", + ) + parser.add_argument( "-sf", "--save_format", @@ -438,10 +446,7 @@ def main(args=None): plt.xlabel("Radius [m]") plt.tight_layout() plt.savefig( - "{}.{}".format( - output_name, - save_format, - ), + f"{args.outputdir}/{output_name}.{save_format}", bbox_inches="tight", ) diff --git a/tests/integration/test_plot_radial_build.py b/tests/integration/test_plot_radial_build.py new file mode 100644 index 0000000000..9811eae751 --- /dev/null +++ b/tests/integration/test_plot_radial_build.py @@ -0,0 +1,17 @@ +"""Integration tests for plot_radial_build.py.""" +from process.io import plot_radial_build + + +def test_plot_radial_build(temp_data, scan_mfile_name): + """Run plot_scans script on a scan MFILE.DAT and check for a PDF output. + + :param temp_data: temporary data dir + :type temp_data: Path + :param scan_mfile_name: name of the mfile in the data dir + :type scan_mfile_name: str + """ + mfile = temp_data / scan_mfile_name + + plot_radial_build.main(args=["-f", str(mfile), "--outputdir", str(temp_data)]) + + assert len(list(temp_data.glob("*.pdf"))) From 7fa88507ae597dfb2afdca107e062a74f9278cdd Mon Sep 17 00:00:00 2001 From: Chris Date: Wed, 27 Sep 2023 16:51:23 +0100 Subject: [PATCH 14/25] remove outputdir --- tests/integration/test_plot_radial_build.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/tests/integration/test_plot_radial_build.py b/tests/integration/test_plot_radial_build.py index 9811eae751..201b820d4f 100644 --- a/tests/integration/test_plot_radial_build.py +++ b/tests/integration/test_plot_radial_build.py @@ -12,6 +12,6 @@ def test_plot_radial_build(temp_data, scan_mfile_name): """ mfile = temp_data / scan_mfile_name - plot_radial_build.main(args=["-f", str(mfile), "--outputdir", str(temp_data)]) + plot_radial_build.main(args=["-f", str(mfile)]) assert len(list(temp_data.glob("*.pdf"))) From ddfa98b1c7718321d5c25c4457bfbe4a37cf3565 Mon Sep 17 00:00:00 2001 From: Chris Date: Thu, 28 Sep 2023 09:16:24 +0100 Subject: [PATCH 15/25] integration test save directory fix --- process/io/plot_radial_build.py | 2 +- tests/integration/test_plot_radial_build.py | 6 +++--- 2 files changed, 4 insertions(+), 4 deletions(-) diff --git a/process/io/plot_radial_build.py b/process/io/plot_radial_build.py index d2fb19cf82..c8a2bf555a 100644 --- a/process/io/plot_radial_build.py +++ b/process/io/plot_radial_build.py @@ -47,7 +47,7 @@ def parse_args(args): ) parser.add_argument( - "-o", + "-op", "--outputdir", default=Path.cwd(), help="Output directory for plot, defaults to current working directory.", diff --git a/tests/integration/test_plot_radial_build.py b/tests/integration/test_plot_radial_build.py index 201b820d4f..59e6d73bd3 100644 --- a/tests/integration/test_plot_radial_build.py +++ b/tests/integration/test_plot_radial_build.py @@ -2,7 +2,7 @@ from process.io import plot_radial_build -def test_plot_radial_build(temp_data, scan_mfile_name): +def test_plot_radial_build(temp_data, mfile_name): """Run plot_scans script on a scan MFILE.DAT and check for a PDF output. :param temp_data: temporary data dir @@ -10,8 +10,8 @@ def test_plot_radial_build(temp_data, scan_mfile_name): :param scan_mfile_name: name of the mfile in the data dir :type scan_mfile_name: str """ - mfile = temp_data / scan_mfile_name + mfile = temp_data / mfile_name - plot_radial_build.main(args=["-f", str(mfile)]) + plot_radial_build.main(args=["-f", str(mfile), "--outputdir", str(temp_data)]) assert len(list(temp_data.glob("*.pdf"))) From a8882aa7779d55ea1f7b88498fde33586cd06e63 Mon Sep 17 00:00:00 2001 From: Chris Date: Thu, 28 Sep 2023 10:07:22 +0100 Subject: [PATCH 16/25] Documentation additions --- .../proc-pages/images/radial_build_plot.png | Bin 0 -> 31977 bytes documentation/proc-pages/usage/plotting.md | 15 ++++++++++++++- 2 files changed, 14 insertions(+), 1 deletion(-) 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Plotting an MFILE

-`plot_proc` is used for plotting an MFILE. It can be run using its own CLI: +

Summary document

+`plot_proc` is used for plotting an overview of the results from an MFILE. It can be run using its own CLI: ```bash python process/io/plot_proc.py -f path/to/MFILE.DAT @@ -12,4 +13,16 @@ or through Process's main CLI (working, but still in development): ```bash process -i path/to/IN.DAT --plot --mfile path/to/MFILE.DAT +``` +

Radial build

+ +`plot_radial_build` is to plot the radial build of the machine in terms of bar segments. It can be run as follows: + +```bash +python process/io/plot_radial_build.py -f path/to/MFILE.DAT ``` +
+![radial_build_plot](../../images/radial_build_plot.png){ width="100%"} +
Figure 1: Simple radial build plot
+
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z05SN{K#UXZZp6!TZTr%US`q$pVX6P`3RM61L$0#?zY28yZ=9YtM$!xTxr@moAKU0! Q$mq{#>6}c`xOV5i07*&rJpcdz literal 0 HcmV?d00001 diff --git a/documentation/proc-pages/usage/plotting.md b/documentation/proc-pages/usage/plotting.md index 49a84ff72e..7c97e2e068 100644 --- a/documentation/proc-pages/usage/plotting.md +++ b/documentation/proc-pages/usage/plotting.md @@ -14,6 +14,16 @@ or through Process's main CLI (working, but still in development): ```bash process -i path/to/IN.DAT --plot --mfile path/to/MFILE.DAT ``` +
+![plot_proc_1](../../images/plot_proc_1.PNG){ width="100%"} +
Figure 1: plot_proc front summary page
+
+ +
+![plot_proc_2](../../images/plot_proc_2.PNG){ width="100%"} +
Figure 2: plot_proc plasma profiles and cross-sections page
+
+

Radial build

`plot_radial_build` is to plot the radial build of the machine in terms of bar segments. It can be run as follows: @@ -23,6 +33,6 @@ python process/io/plot_radial_build.py -f path/to/MFILE.DAT ```
![radial_build_plot](../../images/radial_build_plot.png){ width="100%"} -
Figure 1: Simple radial build plot
+
Figure 3: Simple radial build plot
From e7a9a81a43df97c178994444725a44582e997433 Mon Sep 17 00:00:00 2001 From: Chris Date: Thu, 28 Sep 2023 11:18:33 +0100 Subject: [PATCH 18/25] default plot cutting and title addition --- process/io/plot_scans.py | 5 +++++ 1 file changed, 5 insertions(+) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index b241bd43c9..f13594aebd 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -714,6 +714,11 @@ def main(args=None): color="red" if output_names2 != [] else "black", ) plt.xlabel(labels[scan_var_name], fontsize=axis_font_size) + plt.title( + f"{labels[output_name]} vs {labels[scan_var_name]}", + fontsize=axis_font_size, + ) + plt.tight_layout() if len(input_files) != 1: plt.legend(loc="best", fontsize=legend_size) plt.tight_layout() From b74eaa9170a9913e62bbe15612b0d8248a6bc153 Mon Sep 17 00:00:00 2001 From: Chris Date: Thu, 28 Sep 2023 11:26:57 +0100 Subject: [PATCH 19/25] only show legend if 2 or more plots files used --- process/io/plot_scans.py | 21 +++++++++++---------- 1 file changed, 11 insertions(+), 10 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index f13594aebd..6decfc3180 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -690,16 +690,17 @@ def main(args=None): ) plt.grid(True) plt.xlabel(labels[scan_var_name], fontsize=axis_font_size) - plt.legend( - loc="lower center", - fontsize=legend_size, - bbox_to_anchor=(0.5, -0.5 - (0.1 * len(output_names))), - # bbox_to_anchor=(0.5, -1.4), - fancybox=True, - shadow=False, - ncol=len(input_files), - columnspacing=0.8, - ) + if len(input_files) > 1: + plt.legend( + loc="lower center", + fontsize=legend_size, + bbox_to_anchor=(0.5, -0.5 - (0.1 * len(output_names))), + # bbox_to_anchor=(0.5, -1.4), + fancybox=True, + shadow=False, + ncol=len(input_files), + columnspacing=0.8, + ) plt.tight_layout() # axs[output_names.index(output_name)].get_ylim()[0]) axs[output_names.index(output_name)].set_ylim( From f1810e09000bd9b20497614ca147b11403a14749 Mon Sep 17 00:00:00 2001 From: Chris Date: Thu, 28 Sep 2023 11:33:32 +0100 Subject: [PATCH 20/25] minor ticks added --- process/io/plot_scans.py | 7 ++++--- 1 file changed, 4 insertions(+), 3 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index 6decfc3180..67ec2a5054 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -684,11 +684,12 @@ def main(args=None): ) ax.set_xlabel(labels[scan_var_name], fontsize=axis_font_size) elif stack_plots: + axs[output_names.index(output_name)].minorticks_on() axs[output_names.index(output_name)].grid(True) axs[output_names.index(output_name)].set_ylabel( labels[output_name], ) - plt.grid(True) + plt.xlabel(labels[scan_var_name], fontsize=axis_font_size) if len(input_files) > 1: plt.legend( @@ -704,8 +705,8 @@ def main(args=None): plt.tight_layout() # axs[output_names.index(output_name)].get_ylim()[0]) axs[output_names.index(output_name)].set_ylim( - axs[output_names.index(output_name)].get_ylim()[0] * 0.8, - axs[output_names.index(output_name)].get_ylim()[1] * 1.2, + axs[output_names.index(output_name)].get_ylim()[0] * 0.9, + axs[output_names.index(output_name)].get_ylim()[1] * 1.1, ) else: plt.grid(True) From 3404b2f3cd70eb8698cfb385f469d8106a1c9d8d Mon Sep 17 00:00:00 2001 From: Chris Date: Thu, 28 Sep 2023 13:44:14 +0100 Subject: [PATCH 21/25] comments tidy --- process/io/plot_scans.py | 10 +++------- 1 file changed, 3 insertions(+), 7 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index 67ec2a5054..32eb2dbe31 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -610,7 +610,6 @@ def main(args=None): sharex=True, ) fig.subplots_adjust(hspace=0.0) - # fig.tight_layout() for output_name in output_names: # reset counter for label_name kk = 0 @@ -703,9 +702,9 @@ def main(args=None): columnspacing=0.8, ) plt.tight_layout() - # axs[output_names.index(output_name)].get_ylim()[0]) axs[output_names.index(output_name)].set_ylim( - axs[output_names.index(output_name)].get_ylim()[0] * 0.9, + axs[output_names.index(output_name)].get_ylim()[0] + * 0.9, # Adds some spacing around the plots axs[output_names.index(output_name)].get_ylim()[1] * 1.1, ) else: @@ -822,21 +821,18 @@ def main(args=None): output_contour_z = np.zeros((n_scan_1, n_scan_2)) x_contour = [] y_contour = [] - for i in range(n_scan_2): # nscan2 = 13 + for i in range(n_scan_2): x_contour.append(m_file.data[scan_2_var_name].get_scan(i + 1)) for i in range(1, n_scan_1 * n_scan_2, n_scan_2): y_contour.append( m_file.data[scan_var_name].get_scan(i + 1) ) # is the separte lists in the list for i in contour_conv_ij: - # if (x_contour[1]>x_contour[0]) and y_contour[1]>y_contour[0] - # print(((i-1)%n_scan_2)) output_contour_z[((i - 1) // n_scan_2)][ ((i - 1) % n_scan_2) if ((i - 1) // n_scan_2) % 2 == 0 else (-((i - 1) % n_scan_2) - 1) ] = m_file.data[output_name].get_scan(i) - # print(output_contour_z) flat_output_z = output_contour_z.flatten() flat_output_z.sort() From 8109eb437039e885837afdfa9a2396e09b80a0ca Mon Sep 17 00:00:00 2001 From: Chris Date: Thu, 28 Sep 2023 15:58:47 +0100 Subject: [PATCH 22/25] colour bar font size fix --- process/io/plot_scans.py | 7 +++++-- 1 file changed, 5 insertions(+), 2 deletions(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index 32eb2dbe31..c5c4571b36 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -218,7 +218,7 @@ def main(args=None): labels["pnetelmw"] = r"$P_\mathrm{Net\ elec}$ [$MW$]" labels["taueff"] = r"$\tau_\mathrm{E}$ [s]" labels["ralpne"] = r"$f_\mathrm{\alpha}$" - labels["te"] = r"$\left< T_\mathrm{e} \right>$" + labels["te"] = r"$\left< T_\mathrm{e} \right> \ [keV]$" labels["taulimit"] = r"$max : \frac{\tau_\mathrm{\alpha}}{\tau_\mathrm{E}}$" labels["scrapli"] = r"$\Delta R_\mathrm{FW-sep}$ [$m$]" labels["scraplo"] = r"$\Delta R_\mathrm{FW-sep}^\mathrm{out}$ [$m$]" @@ -303,6 +303,7 @@ def main(args=None): labels["startupratio"] = r"Gyrotron Redundancy" labels["etaech"] = r"ECH wall plug to injector efficiency" labels["tauee"] = r"$\tau_E$" + labels["dene"] = r"$n_e$" # ------------ @@ -849,13 +850,15 @@ def main(args=None): 50, ), ) - plt.colorbar(label=labels[output_name]) + + plt.colorbar().set_label(label=labels[output_name], size=axis_font_size) plt.ylabel(labels[scan_var_name], fontsize=axis_font_size) plt.xlabel(labels[scan_2_var_name], fontsize=axis_font_size) plt.tight_layout() plt.savefig( f"{args.outputdir}/scan_{output_name}_vs_{scan_var_name}_{scan_2_var_name}.{save_format}" ) + plt.grid(True) plt.show() plt.clf() From e32544b687fe1575e2180b9425d73b0e59a53c34 Mon Sep 17 00:00:00 2001 From: Chris Date: Fri, 29 Sep 2023 17:34:21 +0100 Subject: [PATCH 23/25] 2D contour and stack scan example documentation --- .../images/2D_contour_plot_example.png | Bin 0 -> 34212 bytes .../images/stack_scan_plot_example.png | Bin 0 -> 209149 bytes 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Scan files

+ +`plot_scans` is a tool to show the change in variables as a scan variable is varied. +Scans can be done in one or two dimensions. + +```bash +python process/io/plot_scans.py -f path/to/MFILE.DAT +``` +
+![2D_contour_plot](../../images/2D_contour_plot_example.png){figures-side, width="100%"} +
Figure 3: 2D scan contour plot
+
+ +
+![2D_stack_plot](../../images/stack_scan_plot_example.png){figures-side, width="100%"} +
Figure 3: 1D scan plot
+
+ + +

Radial build

`plot_radial_build` is to plot the radial build of the machine in terms of bar segments. It can be run as follows: @@ -33,6 +53,6 @@ python process/io/plot_radial_build.py -f path/to/MFILE.DAT ```
![radial_build_plot](../../images/radial_build_plot.png){ width="100%"} -
Figure 3: Simple radial build plot
+
Figure 5: Simple radial build plot
From d859287a841ea278dfb94eb77adb728ed81f4e9d Mon Sep 17 00:00:00 2001 From: Christopher Ashe- UKAEA <91618944+chris-ashe@users.noreply.github.com> Date: Wed, 25 Oct 2023 14:17:06 +0100 Subject: [PATCH 24/25] Removed spelling error in argparse --- process/io/plot_scans.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py index c5c4571b36..bc2da87e02 100644 --- a/process/io/plot_scans.py +++ b/process/io/plot_scans.py @@ -142,7 +142,7 @@ def parse_args(args): "--stack_plots", action="store_true", help=( - "Option to plot multiple 1D plots in a column of sub0plots \n " + "Option to plot multiple 1D plots in a column of subplots \n " "Variables will be plotted in order of input" ), ) From fb3812c70c3fe91b438ebf18b0d8fc9825d1044e Mon Sep 17 00:00:00 2001 From: Chris Date: Wed, 25 Oct 2023 16:41:11 +0100 Subject: [PATCH 25/25] stack and contour plot tests added --- tests/integration/conftest.py | 10 + tests/integration/data/scan_2D_MFILE.DAT | 18101 +++++++++++++++++++++ tests/integration/test_plot_scans.py | 50 + 3 files changed, 18161 insertions(+) create mode 100644 tests/integration/data/scan_2D_MFILE.DAT diff --git a/tests/integration/conftest.py b/tests/integration/conftest.py index d30e42934c..3fe93230ea 100644 --- a/tests/integration/conftest.py +++ b/tests/integration/conftest.py @@ -65,3 +65,13 @@ def scan_mfile_name(): :rtype: str """ return "scan_MFILE.DAT" + + +@pytest.fixture +def scan_2D_mfile_name(): + """Return the name of a 2D scan mfile to test. + + :return: name of the mfile + :rtype: str + """ + return "scan_2D_MFILE.DAT" diff --git a/tests/integration/data/scan_2D_MFILE.DAT b/tests/integration/data/scan_2D_MFILE.DAT new file mode 100644 index 0000000000..8f48556545 --- /dev/null +++ b/tests/integration/data/scan_2D_MFILE.DAT @@ -0,0 +1,18101 @@ + # PROCESS # + # Power Reactor Optimisation Code # + # PROCESS # + # Power Reactor Optimisation Code # + PROCESS_version_number__________________________________________________ (procver)_____________________ "3.0.0 R" + Date_of_run_____________________________________________________________ (date)________________________ "25/10/2023" + Time_of_run_____________________________________________________________ (time)________________________ "16:30" + User____________________________________________________________________ (username)____________________ "mn3981" + PROCESS_run_title_______________________________________________________ (runtitle)____________________ "Generic large tokamak + PROCESS_tag_number______________________________________________________ (tagno)_______________________ "v3.0.0-25-g7260b34" + PROCESS_git_branch_name_________________________________________________ (branch_name)_________________ "main" + PROCESS_last_commit_message_____________________________________________ (commsg)______________________ "Convert croco to Python" + Input_filename__________________________________________________________ (fileprefix)__________________ "/home/mn3981/process-gh/large_tokamak_IN.DAT " + Number_of_first_variable_scan_points____________________________________ (isweep)______________________ 5 + Number_of_second_variable_scan_points___________________________________ (isweep_2)____________________ 3 + Scanning_first_variable_number__________________________________________ (nsweep)______________________ 9 + Scanning_second_variable_number_________________________________________ (nsweep_2)____________________ 28 + Scanning_second_variable_number_________________________________________ (nsweep_2)____________________ 28 + Scanning_second_variable_number_________________________________________ (nsweep_2)____________________ 28 + + Scan_point_number_______________________________________________________ (iscan)_______________________ 1 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 4.9491E-05 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.3836E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.1279E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.2869E-02 + dene____________________________________________________________________ (itvar002)____________________ 8.0365E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 1.0715E+00 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.1076E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.0098E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 5.0098E-01 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.0048E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.3303E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 5.3303E-01 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6283E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 1.0000E+00 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 1.0000E+00 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 1.0000E+00 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.6704E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.6704E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 7.4488E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 3.7500E-01 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.9829E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.9829E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.9829E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.0785E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0157E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.0736E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.5443E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 8.5443E-01 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.5428E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1229E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 1.4153E+00 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1150E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7242E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 9.5403E-01 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.6810E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3792E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 8.9653E-01 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3746E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3618E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 1.0402E+00 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3612E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.2414E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.1141E+00 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.2387E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.9979E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.9979E-01 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.9979E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.9979E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.9979E-01 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.9979E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.9924E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.9924E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.9924E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 1.0000E+00 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 1.0000E+00 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 1.0000E+00 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9994E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9994E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9994E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 7.9177E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 7.9177E-01 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 7.9156E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.5213E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 4.5213E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.5158E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 1.0000E+00 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 1.0000E+00 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 1.0000E+00 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 5.9638E-01 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.8493E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 9.8493E-01 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.8491E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.9494E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.9494E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.9494E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.4643E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 8.4643E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.4628E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.1671E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 1.0610E+00 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.7005E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 1.2000E+00 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 1.1628E-01 + ohcth___________________________________________________________________ (itvar031)____________________ 5.5540E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 1.1108E+00 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.6329E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.5455E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 1.0130E+00 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 1.1607E-02 + bore____________________________________________________________________ (itvar033)____________________ 2.0486E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 1.0243E+00 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 1.9683E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 3.9070E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 9.7676E-01 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 3.9009E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.6496E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 6.5985E-01 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.6413E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.6707E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 5.3414E-01 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.2849E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.0000E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 1.0000E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 0.0000E+00 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.4085E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 1.0511E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 7.7466E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.8267E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 1.3580E+00 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.3070E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.4551E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 7.4551E-01 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 4.9101E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9362E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 6.1702E-01 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.1909E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.5660E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 1.4647E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.5659E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.7806E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 9.5613E-01 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 4.8790E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ -3.8936E-11 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ -1.7533E-12 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 7.1717E-11 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 3.3800E-10 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ -3.3790E-11 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ -3.6063E-11 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ -5.9219E-06 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ 3.5850E-09 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ 2.4267E-06 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ 9.9570E-06 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ 1.4020E-10 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ 1.6181E-10 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 1.1928E-07 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 1.1814E-07 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -9.7978E-07 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ 1.2285E-05 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ 7.8000E-07 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -2.4213E-06 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 4.6484E-05 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ -9.6978E-09 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ -2.8820E-06 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ 5.1115E-08 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -4.5348E-10 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ -1.2077E-08 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -7.7507E-09 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ 2.9679E-08 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.2378E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.9781E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 5.0680E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4966E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9813E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8601E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7554E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0160E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4116E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.2190E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.4110E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.2498E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4520E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3788E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.8998E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6834E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8186E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.4513E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.9637E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.4900E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6930E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3260E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7060E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.1694E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8115E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9200E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.5767E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.0416E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.4667E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.9570E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.6061E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2695E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.5333E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9613E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.6893E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5608E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6459E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.0935E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0739E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7884E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7884E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6943E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0471E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0159E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7764E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8892E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5054E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3440E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7393E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.7541E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.2858E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0740E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 4.9127E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4084E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3296E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8037E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4064E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6184E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4220E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0040E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.2378E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.9781E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.2378E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.6003E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6569E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.9385E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2165E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3401E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.2000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6462E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.2714E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.5455E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.9385E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.3836E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2577E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.4772E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3089E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4593E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.9527E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.0975E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.0344E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.1924E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.8659E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4711E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8318E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9100E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8142E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.2463E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0596E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2100E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.4680E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2100E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.4680E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3354E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0365E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0571E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.9000E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.2224E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6171E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.5133E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.9913E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6531E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.4167E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.4167E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.4551E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2359E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.4551E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.5660E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7049E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.4502E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.3042E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.7084E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2581E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0876E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3107E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0912E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.2383E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6360E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.4167E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.5991E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.5972E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.8937E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.1944E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.2784E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2307E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8038E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.2134E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4406E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.3016E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.7889E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3132E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.1921E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.7628E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7180E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7210E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.5972E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0020E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2234E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3216E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9018E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.8062E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2311E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7689E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.3844E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5405E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6117E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0147E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.8493E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2712E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7990E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.6960E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.1050E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6880E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6488E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2644E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6540E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7153E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.8443E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5443E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0890E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2927E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2073E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7386E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4256E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.2608E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5982E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6488E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2644E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6540E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.6488E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.6488E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1671E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1609E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1609E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1609E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5403E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.0737E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9249E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.7889E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9961E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.3150E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7855E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.4772E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9629E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.8476E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.8020E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3405E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9971E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.9617E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.6314E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.1061E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.4049E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.2523E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2084E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1130E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.0453E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.1061E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 4.1078E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0689E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9916E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4126E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7176E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.6999E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5332E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1129E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6662E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.1061E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 6.0930E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 3.9070E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.9996E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8403E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.9617E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6569E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2000E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6569E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.8415E+03 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0486E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.5540E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.6514E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.7479E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3921E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.7479E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4323E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1558E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0405E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1540E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8722E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.5898E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5623E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4621E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.4264E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7584E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.5898E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5287E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3482E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.2197E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6786E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4438E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5747E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.1224E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.3749E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2633E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.1197E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1879E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.7479E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.7479E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7838E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4547E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7522E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2447E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1032E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.3156E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7457E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.4632E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.6707E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.3122E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4883E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9159E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.7806E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1956E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.1005E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.7055E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2197E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8925E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2910E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4728E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.7774E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6174E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0174E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0000E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.5830E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4085E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.5915E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.1902E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3501E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.6415E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3121E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4642E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.8257E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0921E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1962E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0800E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0800E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2407E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6445E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1870E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1644E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0147E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.0147E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.7753E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.6496E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.4655E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.9979E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9958E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4961E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4085E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0593E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.4389E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1839E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.6519E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6445E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5000E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2189E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.8267E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.2414E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.4070E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.4743E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0423E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.6946E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 1.9874E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4055E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.4875E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0463E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7086E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1229E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0486E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.5540E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.8157E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4641E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.1249E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3392E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3516E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9362E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.5000E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5400E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.5000E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7111E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5002E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8842E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.5184E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.6208E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.5061E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9098E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9098E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3191E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2937E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2937E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.6029E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8411E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.5784E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0553E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3925E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3925E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.3326E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1330E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.0768E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6710E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1276E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1276E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9072E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6289E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6218E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6710E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1276E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1276E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9072E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6289E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6218E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5185E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0862E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0862E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3077E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2309E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5692E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5185E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0862E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0862E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3077E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2309E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5692E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3263E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.5540E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6787E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8715E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4070E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.8645E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.0000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3618E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.8251E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4444E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8411E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8411E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 1.6657E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8895E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1330E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1330E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.5361E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0181E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9951E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9951E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6289E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0181E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9951E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9951E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6289E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.9725E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7291E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7291E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2309E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.9725E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7291E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7291E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2309E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7520E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.4156E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.4156E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8715E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6569E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6569E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6569E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2753E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.1486E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3699E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2511E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9584E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.6577E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4211E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2725E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.5991E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0921E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6443E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6156E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6675E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 6.9768E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.3700E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6103E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2733E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.3954E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4712E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7774E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5301E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6076E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.8267E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9958E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.9889E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.8779E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1324E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.2058E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.8193E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.6496E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.0217E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.2681E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8006E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1118E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.2304E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.6172E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.0614E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.0878E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1847E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.7826E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8564E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1139E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.7969E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0256E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0180E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6662E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6662E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0222E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8240E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.6704E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6636E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6636E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.4806E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5277E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.2741E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.2741E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.0866E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.2741E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.4806E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0381E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6748E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0457E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4193E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9082E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9445E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3549E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1241E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2139E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4913E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5675E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6258E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.8762E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.5426E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0256E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3039E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5323E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4490E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 4.0074E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9207E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2817E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3522E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6258E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6156E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6675E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 6.9768E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8570E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.0193E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9167E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.8762E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5644E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 1.9809E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6258E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5323E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4391E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1807E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1424E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9249E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.7889E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8038E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0347E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2307E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.8062E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8038E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.5991E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0435E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.8062E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6323E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1423E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8059E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4023E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.3516E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.3700E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1424E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.0069E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.8762E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6258E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0256E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.3205E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5323E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.5697E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.5697E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.5697E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.5991E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0435E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9034E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.0069E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.2855E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1807E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9042E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1051E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5057E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.3244E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.4651E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8336E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.7970E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 2 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 1.2876E-04 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.5277E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.0426E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.4311E-02 + dene____________________________________________________________________ (itvar002)____________________ 8.0675E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 1.0039E+00 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.1389E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.0559E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 1.0092E+00 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.0509E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.3793E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 1.0092E+00 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6529E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.6067E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.6067E-01 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.6063E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.6990E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.0171E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 7.7669E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.8318E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.8486E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.8316E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.2496E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0337E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.2448E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.3800E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 9.8077E-01 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.3784E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1286E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 1.0027E+00 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1207E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7168E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 9.9870E-01 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.6735E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3833E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 1.0008E+00 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3787E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3607E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 9.9988E-01 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3601E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.2925E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.0071E+00 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.2898E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.9228E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.9249E-01 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.9228E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.9228E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.9249E-01 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.9228E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.8448E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.8523E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.8447E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.9496E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.9496E-01 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.9496E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9703E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9709E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9702E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 7.9669E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 1.0062E+00 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 7.9649E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.4539E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 9.8510E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.4484E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9931E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 9.9931E-01 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9931E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.9291E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 1.0081E+00 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.9290E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.7565E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.8060E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.7562E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.2935E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 9.7982E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.2918E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.1660E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 9.9914E-01 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.6914E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.7479E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 4.0650E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.5277E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 9.9527E-01 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.6059E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.4640E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 9.7700E-01 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 9.8717E-03 + bore____________________________________________________________________ (itvar033)____________________ 2.0684E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 1.0097E+00 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 1.9883E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0452E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 1.0354E+00 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.0392E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.6085E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 9.7507E-01 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.6001E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.5744E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 9.6393E-01 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.1835E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.0947E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 1.0118E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 1.0296E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.4877E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 1.0094E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 7.9266E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.8260E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 9.9992E-01 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.3041E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.4161E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 9.9477E-01 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 4.8321E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9713E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 1.0071E+00 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2279E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.6035E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 1.0067E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.6034E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.7107E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 9.8538E-01 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 4.4422E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ -2.1831E-08 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ 6.2351E-08 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 3.8197E-09 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 1.3686E-07 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 1.9133E-07 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 2.7050E-07 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ -1.3860E-04 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -1.2514E-07 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ -5.5511E-16 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -9.2743E-06 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ -1.0230E-08 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ -8.8056E-08 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 2.6397E-07 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 2.5671E-07 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -1.0190E-06 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ -2.7330E-08 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -2.4472E-07 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -2.8789E-06 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 4.7630E-07 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 1.6466E-07 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ -1.5585E-07 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ 2.5270E-07 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -1.8388E-07 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 2.9052E-07 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -1.3171E-07 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -1.0729E-07 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1809E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.9607E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9264E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4860E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9760E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8438E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7441E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 3.9817E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4112E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.1626E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.3030E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.1507E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4208E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3404E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.6984E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6990E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8654E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.5511E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 8.0253E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.5209E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6760E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7186E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.2080E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8557E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.8505E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.5391E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 1.9610E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.4664E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8315E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.5342E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2697E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.5784E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9587E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7152E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5505E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6693E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1375E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0807E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7857E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7857E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6889E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0481E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0207E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7638E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8772E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5079E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3264E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7521E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.7463E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.2967E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0743E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 4.9562E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.3913E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3122E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.7980E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4019E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.5913E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4176E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0009E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1809E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.9607E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1809E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5395E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6633E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.8709E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.1985E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3404E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.1000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6796E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.1733E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.4640E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.8709E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.5277E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2532E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.6299E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.4981E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4614E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.0779E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.0934E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.1671E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.1775E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.7940E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.5167E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8844E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9680E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8631E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.2830E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0640E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2100E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.4680E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2100E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.4680E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3354E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0675E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0612E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.9344E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.2520E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6475E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.5610E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.9829E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6508E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.4453E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.4453E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.4161E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2419E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.4161E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.6035E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7047E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.4581E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.3285E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.7227E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2911E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0891E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3042E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.1199E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.1656E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6616E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.4453E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6138E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6119E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9111E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2238E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.2902E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2420E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8317E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.2817E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4610E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.2401E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.8240E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3308E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2132E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.7759E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7346E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7761E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6119E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0112E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2371E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3272E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9099E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.7249E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2311E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7689E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.3962E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5532E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6185E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0232E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9291E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2503E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7557E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.5972E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0776E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6638E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.5263E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2479E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.5736E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.6244E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.7065E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.4848E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0634E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2533E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1909E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7554E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4321E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.3016E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5951E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.5263E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2479E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.5736E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.5263E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.5263E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1660E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1472E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1472E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1472E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5390E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.0722E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9493E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.8240E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9751E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.2760E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7767E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.6299E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 2.0016E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7709E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.8701E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3345E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 5.0164E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.0339E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.6578E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.1146E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.4347E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.2711E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2599E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1485E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.1749E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.1146E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 4.0431E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0820E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9820E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4036E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7709E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.7523E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5255E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1326E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6483E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.1146E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9548E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0452E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 6.0647E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8362E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 3.0338E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6633E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.4937E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6633E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0137E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0684E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.5277E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.5991E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.5817E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.4002E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.5817E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4722E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1618E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0407E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1542E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.7864E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.5310E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.4366E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.3173E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.3427E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.6892E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.5310E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.4178E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.2201E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1411E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6321E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4110E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5064E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0431E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.3053E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2346E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -6.7019E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1962E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.5817E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.5817E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7798E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4555E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7234E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2248E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1070E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.2321E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7766E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.3536E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5744E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1884E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4179E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8472E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.7107E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1970E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.1033E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.6827E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2483E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8742E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2643E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4446E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.7926E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6326E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0137E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0947E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.5793E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4877E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.5123E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5076E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.7215E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2837E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.5813E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2720E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4464E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.6839E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0694E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1732E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0400E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0400E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2167E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6304E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1837E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1183E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.9375E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 1.9375E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.4791E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.6085E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.3691E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.9228E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.8463E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4973E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4877E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0049E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.7927E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1785E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.6069E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6304E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5076E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2103E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.8260E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.2925E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.4035E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5050E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0515E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7013E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 1.9925E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4012E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5259E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0578E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7235E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1286E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0684E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.5277E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.7740E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4122E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0885E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3236E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3618E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9713E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4948E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5211E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4948E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7249E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5045E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8791E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.5083E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5657E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.5028E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9481E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9481E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3025E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.3022E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.3022E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.6633E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8653E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.6865E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0536E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.4030E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.4030E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.4133E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1653E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.1946E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6702E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1278E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1278E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9080E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6320E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6226E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6702E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1278E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1278E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9080E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6320E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6226E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5176E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1075E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1075E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3146E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2585E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5753E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5176E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1075E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1075E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3146E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2585E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5753E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3448E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.5277E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6691E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8677E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4035E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.9674E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.1000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3607E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.9479E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4556E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8653E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8653E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 7.3942E+04 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.9044E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1653E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1653E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.6545E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0175E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9916E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9916E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6320E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0175E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9916E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9916E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6320E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 4.2402E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7173E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7173E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2585E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 4.2402E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7173E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7173E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2585E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7483E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.6380E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.6380E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8677E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6633E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6633E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6633E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2929E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.0594E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3404E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2401E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9359E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.5822E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3916E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2457E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6138E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0694E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6595E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6305E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6789E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0410E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.3421E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6251E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2850E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4082E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4847E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7765E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5286E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6094E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.8260E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.8463E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.8711E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.8055E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1156E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1726E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.7473E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.6085E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.9457E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.2673E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.7299E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.0332E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.2296E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.5532E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.0608E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.0873E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1848E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.6556E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8331E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.0999E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.7257E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0255E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 2.9908E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6689E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6689E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0522E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8351E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7087E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6700E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6700E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5734E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5200E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3353E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3353E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1308E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3353E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5734E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0606E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6582E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0727E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4683E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.8839E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9411E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3502E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1215E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.1999E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4878E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5650E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6086E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.8935E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.3373E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0255E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.2982E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5253E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4364E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8949E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9205E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2709E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3173E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6086E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6305E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6789E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0410E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8742E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.0931E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9297E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.8935E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5613E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 1.9984E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6086E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5253E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4616E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1802E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1614E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9493E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.8240E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8317E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0626E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2420E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.7249E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8317E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6138E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0715E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.7249E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6474E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1613E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8226E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4152E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.3745E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.3421E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1614E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.0684E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.8935E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6086E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0255E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2819E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5253E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.6457E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.6457E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.6457E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6138E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0715E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9209E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.0684E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.2969E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1802E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9217E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1179E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5210E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2943E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5135E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8499E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8129E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 3 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 5.5704E-05 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.6750E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.0417E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.5786E-02 + dene____________________________________________________________________ (itvar002)____________________ 8.0917E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 1.0030E+00 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.1633E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.0802E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 1.0048E+00 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.0753E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4052E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 1.0048E+00 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6659E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.3769E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.7608E-01 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.3763E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7105E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.0068E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 7.8947E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7779E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0075E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7717E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.7726E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.9398E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.7724E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.4257E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0335E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.4211E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.2157E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 9.8039E-01 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.2139E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1239E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 9.9780E-01 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1161E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.6891E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 9.9515E-01 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.6455E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3818E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 9.9972E-01 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3772E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3661E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 1.0006E+00 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3654E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.3450E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.0072E+00 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.3424E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.8452E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.9218E-01 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.8450E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.8452E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.9218E-01 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.8452E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.7141E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.8672E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.7138E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.9090E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.9592E-01 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.9089E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9508E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9804E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9507E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 7.9642E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 9.9966E-01 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 7.9621E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.3566E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 9.7815E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.3510E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9939E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 1.0001E+00 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9939E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.8842E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 9.9548E-01 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.8841E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.5138E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.7512E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.5133E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.0806E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 9.7433E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.0787E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.1665E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 1.0004E+00 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.6953E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.5817E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 3.6784E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.5352E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 1.0014E+00 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.6136E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.3859E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 9.7746E-01 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 8.2108E-03 + bore____________________________________________________________________ (itvar033)____________________ 2.0815E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 1.0063E+00 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 2.0015E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.1394E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 1.0233E+00 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.1335E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.5790E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 9.8168E-01 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.5706E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.5098E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 9.7491E-01 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.1155E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.1335E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 1.0048E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 1.4510E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.5652E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 1.0091E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 8.1027E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.7563E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 9.9210E-01 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.0254E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.4201E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 1.0005E+00 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 4.8402E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9863E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 1.0030E+00 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2437E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.6875E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 1.0150E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.6874E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.6404E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 9.8506E-01 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 4.0024E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ -1.0390E-07 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ -1.6143E-08 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 1.0515E-09 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 3.5317E-07 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 5.0972E-07 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 9.8386E-07 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ 3.4735E-05 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -1.6817E-07 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ 4.7036E-07 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -2.1571E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ -1.7741E-10 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ -7.0925E-09 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 4.7108E-07 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 3.6078E-07 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ 2.3481E-06 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ -8.3522E-09 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -9.1601E-07 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -2.4938E-05 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 1.2148E-07 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 4.0204E-07 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ 8.6457E-09 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ 2.7688E-07 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -2.0499E-07 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 8.9505E-07 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -1.4576E-07 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -1.0773E-07 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1514E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 4.1198E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.8552E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4774E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9686E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8222E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7346E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 3.9535E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4109E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.1098E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.2368E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.0796E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.3901E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3089E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.5341E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.7154E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.9026E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.6346E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 8.0734E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.5498E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6624E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2668E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2668E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7180E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.2147E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8563E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.7725E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4811E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 1.8802E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.4390E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.6576E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.4706E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2699E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.6125E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9558E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7256E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5339E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6817E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1624E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0844E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7877E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7877E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6817E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0449E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0233E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7536E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8674E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5084E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3123E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7593E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.7459E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.2975E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0743E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 4.9809E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.3773E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3001E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.7933E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.3983E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.5689E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4139E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 9.9827E+03 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1514E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 4.1198E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1514E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5046E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6683E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.8062E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.1810E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3354E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.0000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.7056E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.0752E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.3859E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.8062E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.6750E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2490E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.7864E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.6810E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4597E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.2069E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.0899E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.3041E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.1634E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.7239E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.5630E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.9371E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 3.0262E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.9106E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.3087E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0667E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2100E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.4680E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2100E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.4680E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3354E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0917E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0643E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.9611E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.2702E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6635E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6426E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 6.0041E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6567E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.4676E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.4676E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.4201E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2370E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.4201E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.6875E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7061E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.4776E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.3475E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.7338E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2958E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0835E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.2683E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.1190E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.0686E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6815E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.4676E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6215E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6196E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9203E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2393E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.2964E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2480E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8521E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.3698E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4907E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.1799E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.8985E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3558E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2457E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.8297E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7600E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.8609E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6196E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0160E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2128E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3173E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.8956E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.7110E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2311E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7689E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4019E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5603E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5559E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6064E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0080E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.8842E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2285E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7098E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.4956E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0482E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6384E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.3914E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2298E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.4846E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.5257E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.5570E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.4203E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0345E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2090E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1723E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7685E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4371E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.3336E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5895E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.3914E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2298E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.4846E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.3914E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.3914E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1665E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1421E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1421E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1421E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5425E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.0764E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9622E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.8985E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9727E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.2781E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7693E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.7864E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 2.0417E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.6995E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.9230E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3268E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 5.0314E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.0930E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.6841E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.1238E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.4650E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.2922E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.3125E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1846E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.3075E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.1238E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 4.0227E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.1144E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9585E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.3947E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7853E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.7799E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5269E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.5891E-01 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1272E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.5902E+04 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6344E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.1238E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.5526E-03 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.8606E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.1394E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5559E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5112E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 6.1163E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8300E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 3.0929E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6683E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.6787E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6683E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0323E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0815E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.5352E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.5613E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.4468E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.4068E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.4468E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4960E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1659E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0410E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1546E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.6721E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.4632E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.2773E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.1353E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.2722E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.5973E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.4632E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.2791E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.0605E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.0203E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.5607E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.3732E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.4106E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 4.9339E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.1880E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2016E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -6.3499E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.2030E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.4468E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.4468E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7766E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4562E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.6999E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2093E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1139E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.1642E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.8027E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.2777E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5098E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.0995E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.3467E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.7778E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.6404E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1984E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.1061E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.6486E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2651E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8744E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2475E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4275E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.7852E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6252E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 3.9985E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.1335E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.5669E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5652E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.4348E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5137E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.2683E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2246E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.4962E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2408E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4272E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.5756E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0521E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1502E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0000E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0000E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1927E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6163E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1765E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.0721E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.8617E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 1.8617E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.1887E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.5790E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2300E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.8452E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.6928E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.5012E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5652E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 1.9466E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 8.1596E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1707E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5620E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6163E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5137E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.1921E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.7563E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.3450E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.4029E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5107E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0532E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.6963E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 1.9893E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3990E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5459E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0638E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7334E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1239E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0815E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.5352E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.7859E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4050E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0835E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3215E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3809E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9863E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4954E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5036E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4954E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7388E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5074E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8833E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.5166E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5551E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.5055E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9725E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9725E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.2890E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.3092E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.3092E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.7137E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8855E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.7779E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0523E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.4117E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.4117E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.4806E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1923E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.2939E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6695E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1277E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1277E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9075E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6299E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6223E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6695E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1277E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1277E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9075E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6299E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6223E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5168E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1222E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1222E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3194E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2776E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5793E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5168E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1222E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1222E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3194E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2776E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5793E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3583E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.5352E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6652E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8661E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4029E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 4.0546E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.1000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3661E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -2.0517E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4650E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8855E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8855E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 3.4623E+03 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.9170E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1923E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1923E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.7441E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0192E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9840E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9840E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6299E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0192E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9840E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9840E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6299E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 4.4577E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7040E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7040E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2776E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 4.4577E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7040E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7040E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2776E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7478E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.8287E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.8287E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8661E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6683E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6683E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6683E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.3067E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 3.9717E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3161E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2311E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9173E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.5202E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3690E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2200E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6215E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0521E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6694E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6403E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6782E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0748E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.3152E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6329E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2912E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4150E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4918E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7758E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5274E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6107E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.7563E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.6928E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.7966E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.7463E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1069E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1218E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.6752E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.5790E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.8836E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.1942E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.6512E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 2.9458E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.1568E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.4891E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.0051E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.0393E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1943E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.5267E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8009E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.0805E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.6545E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0174E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 2.9672E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6709E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6709E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0750E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8432E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7191E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6750E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6750E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5987E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5215E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3520E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3520E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1428E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3520E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5987E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0645E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6447E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0774E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4816E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.8641E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9384E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3462E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1194E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.1805E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4831E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5630E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5859E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9047E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.1557E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0174E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5112E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.2987E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5193E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4259E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8329E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9054E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2566E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2712E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5859E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6403E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6782E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0748E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8853E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1320E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9290E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9047E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5529E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0082E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5859E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5193E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4761E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5559E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1833E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1722E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9622E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.8985E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8521E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0773E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2480E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.7110E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5559E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8521E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6215E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0862E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5559E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.7110E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6571E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1721E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8334E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4220E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.3733E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.3152E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1722E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.0930E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5112E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9047E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5859E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0174E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2616E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5193E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.6888E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.6888E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.6888E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6215E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0862E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9302E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.0930E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3033E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1833E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9309E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1205E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5241E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2893E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5410E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8591E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8219E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 4 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 1.9629E-05 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.6920E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.0046E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.5956E-02 + dene____________________________________________________________________ (itvar002)____________________ 8.0561E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 9.9560E-01 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.1274E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.0889E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 1.0017E+00 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.0840E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4144E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 1.0017E+00 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6706E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.2985E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.9164E-01 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.2978E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7208E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.0060E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 8.0093E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 9.9260E-01 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.7229E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.9492E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.7227E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.4560E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0056E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.4515E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.2157E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 1.0000E+00 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.2139E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1225E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 9.9931E-01 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1146E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.6841E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 9.9913E-01 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.6405E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3828E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 1.0002E+00 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3781E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3720E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 1.0006E+00 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3714E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.3452E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.0000E+00 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.3425E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.8459E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 1.0001E+00 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.8457E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.8459E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 1.0001E+00 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.8459E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.6968E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.9822E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.6965E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.9082E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.9992E-01 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.9081E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9428E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9920E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9427E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 7.9755E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 1.0014E+00 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 7.9735E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.3533E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 9.9925E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.3477E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9814E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 9.9874E-01 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9813E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.8616E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 9.9771E-01 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.8615E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.5015E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.9871E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.5010E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.0708E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 9.9879E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.0689E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.1778E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 1.0097E+00 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.7984E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.4468E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 3.3645E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.5349E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 9.9994E-01 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.6132E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.4009E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 1.0044E+00 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 8.5290E-03 + bore____________________________________________________________________ (itvar033)____________________ 2.0802E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 9.9935E-01 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 2.0002E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.1153E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 9.9420E-01 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.1094E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.5798E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 1.0005E+00 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.5713E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.5136E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 1.0015E+00 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.1196E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.1427E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 1.0011E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 1.5510E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.5682E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 1.0004E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 8.1096E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.7532E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 9.9964E-01 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.0127E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.4833E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 1.0085E+00 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 4.9665E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9892E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 1.0006E+00 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2468E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.7385E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 1.0090E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.7384E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.6500E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 1.0021E+00 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 4.0625E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ 2.7418E-09 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ -1.3530E-09 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 2.6048E-11 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 9.7959E-09 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 2.4886E-08 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 2.4891E-08 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ -6.0322E-06 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -3.7385E-08 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ 3.1379E-09 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -1.9044E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ 4.2594E-09 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ 5.8768E-11 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ -5.1029E-09 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 2.5181E-09 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -5.5772E-08 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ -9.4061E-10 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -4.5992E-08 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -1.3423E-07 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 2.7461E-09 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 5.0140E-09 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ -4.9924E-09 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ -7.2194E-09 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -1.2207E-08 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 7.4762E-08 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -1.4173E-08 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -1.0848E-08 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1409E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 4.0530E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.8190E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4783E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9685E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8195E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7354E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 3.9536E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4110E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.1111E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.2391E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.0849E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.3847E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3091E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.5355E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.7139E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8977E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.6403E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 8.0026E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.5477E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6624E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7088E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.1928E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8532E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.7725E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4805E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 1.8807E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.4378E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.6563E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.4671E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2701E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.6077E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9549E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7344E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5346E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6861E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1692E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0855E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7821E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7821E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6808E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0446E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0243E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7546E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8684E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5096E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3107E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7613E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.7345E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3013E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0736E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 4.9877E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.3760E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.2983E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.7929E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.3979E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.5668E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4135E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 9.9803E+03 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1409E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 4.0530E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1409E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.4929E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6609E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.8186E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.1844E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3410E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.0000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6673E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.0746E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.4009E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.8186E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.6920E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2656E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.8030E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.7217E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4664E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.2198E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1037E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.3166E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.2186E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.7374E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.5848E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.9638E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 3.0528E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.9015E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.3439E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0714E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2200E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.4957E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2200E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.4957E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3470E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0561E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0597E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.9217E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.2309E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6217E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6633E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 6.0286E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6696E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.4348E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.4348E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.4833E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2215E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.4833E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.7385E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7081E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.4941E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.3196E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.7174E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2901E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0837E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.2717E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0988E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.0729E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6522E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.4348E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6243E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6224E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9313E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2448E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.2986E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2549E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8517E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.3791E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4829E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.2108E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.8956E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3524E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2419E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.8205E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7571E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.8512E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6224E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0178E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2196E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3201E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.8996E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.6372E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2187E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7813E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4011E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5610E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6098E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0123E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.8616E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2245E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.6979E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.4836E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0398E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6326E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.3549E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2250E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.4593E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.5043E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.5241E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.4064E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0256E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.1956E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1665E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7492E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4297E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.2866E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5781E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.3549E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2250E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.4593E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.3549E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.3549E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1778E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1540E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1540E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1540E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5409E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.0999E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9622E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.8956E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9773E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.2692E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7816E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.8030E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 2.0515E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.6373E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.9186E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3194E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 5.0093E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.0982E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7394E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.1715E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5110E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3397E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.3186E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1924E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.3228E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.1715E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.9960E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0884E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9773E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.3964E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7588E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.7900E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5404E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1468E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6548E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.1715E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.8847E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.1153E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 6.1107E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8204E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 3.0982E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6609E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.7431E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6609E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0386E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0802E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.5349E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.5651E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.4602E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.4062E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.4602E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4983E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1664E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0410E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1546E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 0.0000E+00 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.6661E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.4601E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.2692E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.1261E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.2721E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.5931E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.4601E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.2727E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.0531E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.0096E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.5544E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.3714E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.4033E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 4.9258E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.1768E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2000E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -6.3497E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.2023E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.4602E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.4602E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7769E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4561E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7023E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2109E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1136E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.1709E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.8000E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.2827E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5136E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1061E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.3564E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.7873E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.6500E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1982E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.1057E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.6570E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2670E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8713E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2458E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4281E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.7899E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6299E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0014E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.1427E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.5691E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5682E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.4318E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5139E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.2652E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2369E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.5162E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2436E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4304E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.5855E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0537E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1502E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0000E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0000E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1927E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6111E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1749E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.0724E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.8618E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 1.8618E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.1887E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.5798E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2253E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.8459E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.6942E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.5005E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5682E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 1.9433E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 8.1612E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1685E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5548E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6111E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5139E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.1917E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.7532E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.3452E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.4028E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5119E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0536E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.6955E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 1.9892E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3987E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5486E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0646E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7341E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1225E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0802E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.5349E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.7854E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4021E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0815E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3206E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3832E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9892E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4860E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.4830E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4860E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7345E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5086E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8846E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.5192E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5540E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.5064E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9779E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9779E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.2904E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.3091E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.3091E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.7129E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8852E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.7987E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0524E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.4119E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.4119E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.4823E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1929E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.3157E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6695E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1276E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1276E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9072E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6289E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6217E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6695E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1276E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1276E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9072E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6289E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6217E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5169E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1200E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1200E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3187E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2748E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5786E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5169E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1200E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1200E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3187E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2748E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5786E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3569E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.5349E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6617E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8647E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4028E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 4.0446E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.1000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3720E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -2.0952E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4639E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8852E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8852E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ -4.0384E+04 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.9154E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1929E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1929E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.7904E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0183E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9813E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9813E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6289E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0183E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9813E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9813E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6289E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 4.4351E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7024E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7024E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2748E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 4.4351E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7024E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7024E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2748E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7476E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.9068E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.9068E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8647E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6609E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6609E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6609E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2864E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 3.9563E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3163E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2312E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9174E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.5205E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3711E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2271E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6243E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0537E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6716E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6424E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6810E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0869E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.3227E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6357E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2934E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4174E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4944E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7759E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5275E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6109E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.7532E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.6942E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.7994E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.7473E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1075E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1214E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.6756E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.5798E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.8847E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.1908E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.6513E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 2.9459E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.1534E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.4895E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.0025E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.0371E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1947E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.5274E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8006E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.0804E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.6549E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0170E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 2.9653E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6726E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6726E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0718E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8494E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7000E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6676E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6676E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5523E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5348E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3214E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3214E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1208E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3214E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5523E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0517E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6460E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0621E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4571E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.8661E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9387E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3465E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1196E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.1804E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4825E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5632E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5830E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9072E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.1455E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0170E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.2888E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5198E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4260E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.7992E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9047E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2548E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2654E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5830E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6424E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6810E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0869E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8878E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1459E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9322E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9072E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5534E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0110E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5830E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5198E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4794E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1776E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1751E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9622E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.8956E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8517E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0826E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2549E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.6372E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8517E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6243E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0915E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.6372E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6593E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1751E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8358E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4245E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.3788E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.3227E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1752E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1139E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9072E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5830E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0170E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2477E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5198E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7006E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7006E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7006E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6243E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0915E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9335E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1139E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3051E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1776E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9342E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1277E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5327E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2717E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5485E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8617E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8244E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 5 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 2.9970E-04 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.5537E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 9.6253E-01 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.4571E-02 + dene____________________________________________________________________ (itvar002)____________________ 8.0534E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 9.9966E-01 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.1246E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.0970E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 1.0016E+00 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.0921E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4231E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 1.0016E+00 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6749E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.4767E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 1.0192E+00 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.4761E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7097E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 9.9355E-01 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 7.8860E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.7074E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.9840E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.7071E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.2877E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 9.6915E-01 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.2830E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.3800E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 1.0200E+00 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.3784E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1309E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 1.0040E+00 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1230E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7409E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 1.0100E+00 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.6979E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3598E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 9.9573E-01 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3552E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3460E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 9.9722E-01 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3453E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.2904E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 9.9255E-01 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.2877E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.9233E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 1.0079E+00 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.9232E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.9233E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 1.0079E+00 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.9233E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.8109E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 1.0118E+00 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.8107E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.9411E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 1.0033E+00 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.9410E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9418E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9990E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9417E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 8.0152E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 1.0050E+00 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 8.0132E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.4688E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 1.0265E+00 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.4633E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9942E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 1.0013E+00 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9942E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.9545E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 1.0094E+00 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.9545E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.7735E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 1.0286E+00 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.7733E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.3086E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 1.0295E+00 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.3069E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.1743E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 9.9698E-01 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.7661E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.4602E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 3.3958E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.5266E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 9.9851E-01 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.6048E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.4701E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 1.0203E+00 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 1.0001E-02 + bore____________________________________________________________________ (itvar033)____________________ 2.0685E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 9.9439E-01 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 1.9884E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0782E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 9.9098E-01 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.0723E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.6022E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 1.0142E+00 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.5938E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.5568E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 1.0172E+00 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.1650E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.1506E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 1.0010E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 1.6371E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.4897E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 9.9084E-01 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 7.9311E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.8601E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 1.0122E+00 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.4405E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.4490E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 9.9542E-01 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 4.8979E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9647E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 9.9508E-01 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2210E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.6877E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 9.9115E-01 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.6876E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.7283E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 1.0168E+00 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 4.5520E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ -6.6475E-08 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ 3.2970E-08 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 6.9252E-10 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 2.3121E-07 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 3.6842E-07 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 5.0537E-07 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ 3.2727E-05 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -3.0285E-07 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ 9.9692E-08 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -3.9279E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ -2.8959E-09 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ -5.8385E-09 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 2.4036E-07 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 3.7379E-07 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ 1.0767E-06 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ -1.3562E-08 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -5.4139E-07 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -1.1524E-05 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 2.9374E-04 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 1.9112E-07 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ -1.9676E-10 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ 2.1794E-07 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -1.4200E-07 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 7.2421E-07 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -1.1512E-07 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -9.1006E-08 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1311E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.9130E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.8502E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4862E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9769E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8457E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7444E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 3.9800E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4112E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.1641E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.2826E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.1388E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4183E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3387E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.6833E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.7054E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8745E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.5661E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.9971E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.5294E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6753E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7231E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.2183E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8571E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.8544E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.5489E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 1.9610E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.4798E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8551E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.5422E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2699E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.5920E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9609E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7372E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5553E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6902E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1766E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0867E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7860E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7860E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6895E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0548E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0251E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7640E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8774E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5123E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3273E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7635E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.7675E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3300E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0797E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 4.9951E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.3939E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3115E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.7989E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4026E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.5953E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4182E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0014E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1311E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.9130E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1311E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5117E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6604E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.8760E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.1999E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3571E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.1000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6644E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.1731E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.4701E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.8760E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.5537E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2668E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.6562E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.5538E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4698E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.0983E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1044E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.1877E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.2226E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.7994E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.5378E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.9108E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9948E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8595E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.3436E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0717E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2200E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.4957E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2200E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.4957E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3470E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0534E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0593E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.9187E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.2331E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6270E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6208E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.9989E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6614E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.4323E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.4323E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.4490E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2308E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.4490E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.6877E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7066E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.4817E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.3174E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.7161E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2968E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0912E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3141E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0994E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.1746E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6499E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.4323E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6269E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6250E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9344E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2500E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3007E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2569E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8567E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.3428E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4695E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.2740E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.8995E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3412E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2311E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.7851E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7487E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.8230E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6250E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0194E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2511E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3329E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9181E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.6412E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2187E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7813E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4038E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5630E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6255E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0319E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9545E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2487E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7509E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.5923E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0742E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6615E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.5075E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2454E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.5607E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.6130E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.6891E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.4774E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0586E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2461E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1877E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7477E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4291E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.2830E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5906E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.5075E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2454E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.5607E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.5075E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.5075E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1743E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1491E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1491E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1491E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5361E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.0940E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9667E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.8995E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9645E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.2382E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7788E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.6562E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 2.0113E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7056E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.8754E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3316E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 5.0076E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.0431E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7060E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.1531E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.4765E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3114E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2692E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1579E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.1983E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.1531E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.9998E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0680E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9923E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4042E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7831E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.7992E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5329E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1502E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6564E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.1531E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9218E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0782E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 6.0691E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8323E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 3.0430E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6604E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.5979E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6604E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0240E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0685E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.5266E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.5989E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.5817E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.4003E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.5817E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4892E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1641E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0407E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1539E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.7978E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.5323E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.4483E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.3301E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.3343E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.6991E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.5323E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.4281E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.2315E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1543E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6399E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4117E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5145E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0516E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.3211E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2353E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -6.6599E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1962E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.5817E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.5817E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7798E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4555E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7234E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2244E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1042E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.2348E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7782E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.3358E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5568E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1735E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4356E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8645E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.7283E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1966E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.1026E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.7063E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2616E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8578E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2526E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4390E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8141E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6541E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0240E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.1506E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.5872E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4897E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.5103E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5089E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.7328E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2934E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.6364E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2718E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4530E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.6756E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0681E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1732E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0400E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0400E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2167E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6210E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1837E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1183E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.9378E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 1.9378E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.4791E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.6022E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.3904E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.9233E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.8471E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4948E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4897E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0026E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.7936E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1771E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5952E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6210E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5089E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2153E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.8601E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.2904E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.4026E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5139E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0542E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7157E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 1.9915E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4030E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5102E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0531E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7118E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1309E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0685E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.5266E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.7723E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.4171E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0920E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3251E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3552E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9647E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4957E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5487E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4957E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7279E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5092E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8772E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.5043E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5701E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.5014E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9371E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9371E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3025E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.3027E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.3027E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.6670E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8668E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.7021E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0536E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.4038E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.4038E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.4193E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1677E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.2112E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6702E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1287E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1287E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9110E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6438E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6247E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6702E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1287E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1287E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9110E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6438E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6247E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5176E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1138E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1138E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3167E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2667E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5777E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5176E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1138E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1138E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3167E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2667E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5777E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3448E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.5266E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6732E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8693E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4030E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.9622E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.1000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3460E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.9731E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4547E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8668E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8668E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 3.2324E+04 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.9032E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1677E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1677E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.7042E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0141E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0015E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0015E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6438E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0141E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0015E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0015E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6438E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 4.2377E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7238E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7238E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2667E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 4.2377E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7238E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7238E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2667E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7470E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.6882E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.6882E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8693E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6604E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6604E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6604E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2849E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.0523E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3390E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2396E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9348E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.5786E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3899E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2612E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6269E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0681E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6730E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6438E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6894E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0982E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.3582E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6383E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2955E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4196E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4968E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7766E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5286E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6097E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.8601E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.8471E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.8490E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.7987E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1114E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1812E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.7473E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.6022E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.9386E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.3031E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.7338E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.0376E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.2653E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.5532E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.0881E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1108E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1803E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.6556E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8374E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1024E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.7257E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0295E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 2.9917E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6706E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6706E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0613E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8437E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7174E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6671E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6671E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5947E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5274E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3493E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3493E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1410E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3493E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5947E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0666E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6582E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0799E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4795E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.8843E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9412E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3503E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1215E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2024E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4882E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5650E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6107E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9089E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.3603E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0295E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3165E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5254E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4358E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8555E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9280E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2722E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3215E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6107E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6438E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6894E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0982E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8894E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1589E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9419E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9089E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5589E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0140E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6107E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5254E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4816E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1826E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1784E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9667E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.8995E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8567E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0875E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2569E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.6412E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8567E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6269E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0964E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.6412E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6607E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1783E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8374E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4267E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.3958E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.3582E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1784E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1204E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9089E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6107E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0295E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2645E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5254E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7135E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7135E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7135E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6269E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0964E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9366E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1204E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3070E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1826E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9373E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1277E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5326E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2712E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5568E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8644E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8271E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 6 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 8.1440E-05 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.4141E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 9.6073E-01 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.3174E-02 + dene____________________________________________________________________ (itvar002)____________________ 8.0262E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 9.9662E-01 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.0972E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.0809E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 9.9684E-01 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.0760E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4059E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 9.9684E-01 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6663E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.6253E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 1.0157E+00 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.6250E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.6973E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 9.9271E-01 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 7.7475E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.7669E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 1.0061E+00 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.7667E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.1196E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 9.6821E-01 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.1147E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.5443E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 1.0196E+00 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.5428E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1525E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 1.0101E+00 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1446E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7692E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 1.0049E+00 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.7265E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3255E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 9.9360E-01 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3208E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3261E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 9.9787E-01 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3254E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.2344E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 9.9232E-01 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.2316E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.9933E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 1.0071E+00 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.9933E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.9933E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 1.0071E+00 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.9933E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.8725E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 1.0063E+00 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.8724E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.9709E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 1.0030E+00 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.9709E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9944E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 1.0053E+00 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9944E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 8.0811E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 1.0082E+00 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 8.0792E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.5781E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 1.0245E+00 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.5727E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9952E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 1.0001E+00 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9952E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.9859E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 1.0032E+00 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.9859E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.9793E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 1.0211E+00 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.9792E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.4938E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 1.0223E+00 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.4923E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.1735E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 9.9938E-01 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.7595E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.5817E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 3.6783E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.4639E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 9.8866E-01 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.5401E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.5501E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 1.0231E+00 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 1.1704E-02 + bore____________________________________________________________________ (itvar033)____________________ 2.0572E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 9.9451E-01 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 1.9769E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0864E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 1.0020E+00 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.0805E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.6223E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 1.0126E+00 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.6140E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.6314E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 1.0292E+00 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.2436E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.1797E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 1.0036E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 1.9537E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.4141E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 9.9110E-01 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 7.7594E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.9844E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 1.0140E+00 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.9377E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.3847E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 9.9138E-01 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 4.7695E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9529E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 9.9762E-01 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2085E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.6468E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 9.9282E-01 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.6468E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.8258E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 1.0206E+00 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 5.1613E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ -1.0910E-08 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ 2.1744E-08 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 2.0642E-09 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 5.3505E-08 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 7.7194E-08 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 1.1456E-07 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ 6.8931E-05 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -4.8620E-08 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ 2.9710E-13 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ 1.7884E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ -4.4321E-09 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ -3.0819E-08 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 8.0237E-08 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 6.9675E-08 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -2.5539E-07 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ 5.4570E-08 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -7.7137E-08 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -6.1117E-07 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 1.5638E-07 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 7.4437E-08 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ -1.9285E-08 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ 9.9959E-08 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -7.1825E-08 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 9.6940E-08 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -2.0159E-08 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -1.5151E-08 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1505E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.7932E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.9135E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4972E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9856E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8733E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7566E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0126E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4115E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.2240E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.3162E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.2244E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4505E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3752E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.8681E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6779E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8242E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.4449E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.9432E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.4842E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6893E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7387E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.2436E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8612E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9380E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.6190E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.0419E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5286E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 1.0063E+02 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.6297E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2696E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.5426E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9646E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7267E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5755E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6820E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1610E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0843E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7902E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7902E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6986E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0620E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0234E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7771E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8899E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5131E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3445E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7589E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.7951E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3448E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0840E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 4.9796E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4117E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3258E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8048E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4072E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6237E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4229E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0047E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1505E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.7932E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1505E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5342E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6548E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.9423E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2175E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3617E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.2000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6351E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.2712E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.5501E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.9423E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.4141E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2722E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.5083E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.3887E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4751E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.9752E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1087E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.0573E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.2407E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.8699E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4932E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8610E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9398E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8115E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.3161E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0690E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2200E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.4957E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2200E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.4957E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3470E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0262E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0557E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.8886E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.2154E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.6165E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.5724E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.9271E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6415E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.4072E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.4072E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.3847E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2457E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.3847E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.6468E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7048E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.4709E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2961E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.7036E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2892E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0960E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3474E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0909E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.2704E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6274E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.4072E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6218E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6199E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9283E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2397E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.2966E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2529E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8468E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.2726E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4496E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.3375E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.8676E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3238E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2106E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.7466E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7326E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7694E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6199E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0162E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2724E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3417E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9307E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.5587E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2187E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7813E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4013E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5588E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6362E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0452E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9859E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2699E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7954E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.6923E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.1025E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6862E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6401E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2632E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6480E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7105E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.8367E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5412E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0871E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2897E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2061E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7330E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4235E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.2472E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5949E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6401E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2632E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6480E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.6401E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.6401E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1735E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1469E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1469E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1469E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5258E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.0815E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9600E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.8676E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9471E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.1873E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7790E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.5083E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9729E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7718E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.8065E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3384E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9907E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.9691E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.6836E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.1452E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.4491E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.2936E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2193E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1237E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.0727E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.1452E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.9635E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0504E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.0053E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4131E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.8047E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.7809E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5194E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1436E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6722E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.1452E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9136E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0864E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.9993E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8374E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.9690E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6548E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.4808E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6548E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0122E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0572E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4639E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.6399E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.7538E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3918E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.7538E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4815E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1622E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0404E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1533E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 0.0000E+00 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8939E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.5906E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5832E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4844E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.4038E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7798E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.5906E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5488E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3703E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.2421E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6918E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4442E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5877E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.1360E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.4035E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2637E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.0068E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1876E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.7538E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.7538E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7840E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4547E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7533E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2448E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0998E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.3058E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7373E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.4242E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.6314E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.2805E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.5336E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9601E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.8258E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1947E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0987E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.7690E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2569E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8321E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2599E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4469E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8549E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6949E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0589E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.1797E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6152E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4141E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.5859E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5044E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.2408E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3770E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.7899E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3025E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4821E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.8120E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0899E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1962E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0800E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0800E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2408E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6209E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1864E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1645E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0154E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.0154E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.7753E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.6223E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.5467E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.9933E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9865E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4863E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4141E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0499E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.4433E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1804E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.6229E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6209E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5044E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2419E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9844E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.2344E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3979E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5564E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0669E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7694E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0074E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4019E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5201E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0560E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7309E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1525E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0572E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4639E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6728E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3772E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0641E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3132E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2955E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9529E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4964E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5903E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4964E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7019E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5008E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8583E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4666E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5465E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4889E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.8979E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.8979E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3197E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2942E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2942E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.6062E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8425E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.5872E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0554E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3932E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3932E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.3377E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1351E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.0866E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6710E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1288E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1288E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9112E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6450E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6249E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6710E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1288E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1288E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9112E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6450E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6249E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5185E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0957E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0957E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3108E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2432E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5729E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5185E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0957E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0957E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3108E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2432E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5729E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3304E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4639E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6670E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8668E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4019E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.8404E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.0000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3261E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.8444E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4403E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8425E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8425E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 1.3290E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8840E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1351E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1351E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.5771E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9998E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0100E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0100E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6450E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9998E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0100E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0100E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6450E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.9694E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7391E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7391E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2432E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.9694E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7391E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7391E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2432E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7410E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.4431E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.4431E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8668E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6548E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6548E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6548E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2695E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.1442E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3671E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2501E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9562E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.6503E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4183E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.3001E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6218E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0899E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6665E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6374E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6912E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0758E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.3988E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6332E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2914E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4152E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4920E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7775E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5302E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6082E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9844E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9865E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.8853E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.8459E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1115E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.2431E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.8195E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.6223E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.9882E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.4336E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8190E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1322E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.3953E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.6174E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1875E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1966E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1639E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.7830E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8754E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1252E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.7971E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0439E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0097E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6675E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6675E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0284E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8301E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7330E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6614E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6614E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.6324E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5139E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3742E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3742E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1589E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3742E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.6324E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0813E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6754E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0976E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4994E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9096E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9447E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3554E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1243E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2252E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4942E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5676E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6398E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9016E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.6101E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0439E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3393E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5330E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4479E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8717E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9550E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2905E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3806E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6398E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6374E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6912E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0758E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8821E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1331E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9439E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9016E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5654E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0079E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6398E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5330E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4721E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1868E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1716E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9600E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.8676E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8468E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0777E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2529E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.5587E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8468E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6218E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0866E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.5587E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6544E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1715E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8303E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4222E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.3994E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.3988E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1716E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.0955E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9016E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6398E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0439E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2660E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5330E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.6865E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.6865E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.6865E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6218E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0866E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9304E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.0955E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3030E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1868E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9312E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1215E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5253E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2852E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5395E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8586E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8215E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 7 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 4.5526E-06 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.4304E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.0048E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.3337E-02 + dene____________________________________________________________________ (itvar002)____________________ 7.9930E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 9.9587E-01 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.0637E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.0911E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 1.0020E+00 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.0862E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4169E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 1.0020E+00 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6718E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.5509E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.9227E-01 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.5505E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7086E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.0067E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 7.8737E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.7340E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.9663E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.7337E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.1488E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0057E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.1439E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.5443E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 1.0000E+00 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.5428E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1559E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 1.0016E+00 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1480E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7706E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 1.0002E+00 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.7279E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3207E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 9.9910E-01 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3161E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3271E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 1.0001E+00 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3264E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.2345E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.0000E+00 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.2318E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.9904E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.9971E-01 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.9904E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.9904E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.9971E-01 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.9904E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.8563E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.9836E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.8562E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.9694E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.9985E-01 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.9694E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9871E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9926E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9871E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 8.0859E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 1.0006E+00 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 8.0840E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.5702E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 9.9826E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.5647E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9856E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 9.9904E-01 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9856E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.9738E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 9.9879E-01 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.9738E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.9648E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.9855E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.9648E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.4821E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 9.9863E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.4806E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.1842E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 1.0091E+00 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.8564E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.7538E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 4.0786E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.4494E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 9.9734E-01 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.5251E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.5648E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 1.0041E+00 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 1.2017E-02 + bore____________________________________________________________________ (itvar033)____________________ 2.0569E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 9.9989E-01 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 1.9767E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0680E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 9.9549E-01 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.0621E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.6254E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 1.0019E+00 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.6170E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.6359E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 1.0017E+00 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.2483E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.1874E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 1.0009E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 2.0366E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.4183E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 1.0005E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 7.7689E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.9757E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 9.9903E-01 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.9028E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.4443E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 1.0081E+00 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 4.8887E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9576E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 1.0010E+00 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2135E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.7087E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 1.0110E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.7086E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.8380E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 1.0025E+00 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 5.2373E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ -3.8428E-12 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ 6.4147E-11 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ -2.0759E-12 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 1.5869E-10 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 1.6656E-10 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ -1.7565E-11 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ -1.4963E-05 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -3.8634E-11 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ -0.0000E+00 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -5.7407E-07 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ 1.1772E-11 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ -1.1826E-10 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 5.1934E-10 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 2.5195E-10 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -1.6887E-09 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ -3.0968E-10 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -2.5874E-10 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -7.0445E-09 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 4.0051E-07 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 1.4231E-10 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ -5.6338E-10 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ 3.8021E-10 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -2.1321E-10 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 2.6347E-10 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -1.6248E-10 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -1.3160E-10 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1381E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.7356E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.8875E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4983E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9853E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8700E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7576E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0131E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4115E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.2256E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.3218E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.2308E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4454E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3758E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.8715E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6749E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8193E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.4459E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.8777E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.4802E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6892E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7305E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.2239E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8584E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9375E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.6151E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.0425E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5252E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 1.0057E+02 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.6294E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2697E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.5379E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9642E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7325E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5753E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6872E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1707E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0858E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7898E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7898E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6976E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0623E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0245E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7784E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8912E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5145E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3446E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7617E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.7988E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3516E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0850E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 4.9892E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4122E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3258E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8050E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4074E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6246E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4231E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0048E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1381E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.7356E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1381E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5226E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6479E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.9545E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2207E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3684E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.2000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.5994E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.2706E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.5648E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.9545E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.4304E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2886E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.5242E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.4272E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4818E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.9877E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1223E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.0694E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.2955E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.8828E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.5140E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8865E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9655E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8028E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.3531E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0739E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2300E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5234E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2300E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5234E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3586E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.9930E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0514E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.8519E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1782E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5769E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6030E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.9503E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6542E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3766E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.3766E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.4443E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2304E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.4443E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.7087E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7069E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.4899E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2701E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6883E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2860E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0967E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3530E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0703E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.2766E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6001E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3766E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6251E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6231E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9401E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2462E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.2992E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2604E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8530E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.2912E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4457E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.3724E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.8858E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3234E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2120E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.7410E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7337E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.7731E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6231E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0182E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2820E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3456E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9364E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.4910E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2063E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7937E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4026E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5618E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6410E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0512E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9738E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2660E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7838E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.6805E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0944E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6807E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6041E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2585E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6231E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.6892E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.8042E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5275E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0783E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2764E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2004E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7151E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4166E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.2037E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5842E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6041E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2585E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6231E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.6041E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.6041E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1842E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1547E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1547E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1547E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5216E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.1016E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9644E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.8858E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9508E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.1836E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7872E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.5242E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9822E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7090E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.8016E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3314E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9701E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.9733E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7375E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.1915E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.4941E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3402E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2251E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1312E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.0874E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.1915E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.9388E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0293E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.0210E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4147E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7806E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.7927E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5322E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1481E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6916E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.1915E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9320E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0680E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.9926E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8284E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.9732E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6479E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.5384E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6479E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0178E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0569E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4494E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.6427E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.7704E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3910E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.7704E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4833E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1628E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0403E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1533E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8868E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.5868E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5737E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4736E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.4039E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7748E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.5868E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5412E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3616E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.2295E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6844E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4421E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5790E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.1265E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.3902E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2618E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.0076E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1868E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.7704E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.7704E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7844E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4546E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7561E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2467E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0990E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.3152E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7350E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.4300E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.6359E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.2885E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.5458E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9720E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.8380E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1944E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0982E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.7788E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2586E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8296E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2584E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4484E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8590E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6990E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0616E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.1874E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6173E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4183E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.5817E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5046E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.2351E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3931E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.8136E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3066E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4861E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.8240E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0918E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1962E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0800E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0800E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2408E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6147E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1844E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1649E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0155E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.0155E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.7753E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.6254E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.5353E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.9904E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9808E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4856E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4183E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0461E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.4453E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1776E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.6141E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6147E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5046E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2407E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9757E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.2345E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3965E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5690E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0707E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7792E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0108E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4010E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5281E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0584E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7359E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1559E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0569E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4494E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6497E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3615E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0530E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3084E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.2882E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9576E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4892E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5795E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4892E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6962E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5019E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8554E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4607E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5344E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4869E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9001E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9001E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3214E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2941E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2941E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.6053E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8421E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.6058E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0555E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3933E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3933E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.3389E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1356E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.1061E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6711E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1288E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1288E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9113E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6453E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6246E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6711E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1288E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1288E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9113E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6453E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6246E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5186E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0942E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0942E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3103E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2413E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5724E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5186E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0942E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0942E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3103E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2413E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5724E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3294E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4494E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6619E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8648E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4010E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.8266E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.0000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3271E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.8841E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4385E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8421E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8421E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 9.2693E+04 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8817E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1356E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1356E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.6196E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9964E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0087E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0087E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6453E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9964E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0087E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0087E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6453E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.9442E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7387E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7387E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2413E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.9442E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7387E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7387E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2413E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7393E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.5135E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.5135E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8648E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6479E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6479E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6479E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2508E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.1296E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3676E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2502E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9565E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.6512E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4208E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.3088E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6251E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0918E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6696E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6404E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6952E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0901E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.4079E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6364E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2940E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4180E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4951E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7776E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5304E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6084E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9757E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9808E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.8918E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.8482E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1120E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.2396E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.8201E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.6254E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.9906E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.4245E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8185E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1317E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.3861E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.6179E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1806E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1906E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1651E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.7840E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8739E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1244E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.7976E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0429E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0068E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6690E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6690E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0253E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8358E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7157E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6546E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6546E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5904E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5267E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3465E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3465E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1389E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3465E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5904E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0699E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6770E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0838E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4772E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9121E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9450E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3558E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1246E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2244E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4935E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5679E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6363E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9051E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.6094E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0429E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3424E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5337E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4481E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8400E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9531E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2883E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3735E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6363E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6404E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6952E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0901E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8856E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1495E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9485E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9051E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5660E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0118E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6363E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5337E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4767E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1867E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1758E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9644E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.8858E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8530E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0839E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2604E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.4910E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8530E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6251E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0929E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.4910E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6575E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1757E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8337E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4251E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4074E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.4079E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1758E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1093E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9051E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6363E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0429E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2523E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5337E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7033E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7033E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7033E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6251E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0929E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9343E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1093E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3055E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1867E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9351E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1244E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5287E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2784E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5502E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8622E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8250E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 8 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 9.6125E-05 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.5652E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.0393E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.4686E-02 + dene____________________________________________________________________ (itvar002)____________________ 8.0014E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 1.0010E+00 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.0722E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.0983E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 1.0014E+00 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.0934E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4244E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 1.0014E+00 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6756E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.4101E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.8526E-01 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.4095E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7219E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.0077E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 8.0207E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.7054E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.9706E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.7051E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.3120E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0317E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.3073E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.3800E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 9.8077E-01 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.3784E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1509E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 9.9770E-01 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1430E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7634E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 9.9875E-01 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.7206E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3216E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 1.0002E+00 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3170E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3278E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 1.0001E+00 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3271E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.2870E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.0073E+00 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.2843E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.9163E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.9258E-01 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.9162E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.9163E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.9258E-01 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.9163E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.7270E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.8688E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.7267E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.9240E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.9544E-01 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.9239E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9622E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9751E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9622E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 8.0889E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 1.0004E+00 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 8.0869E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.4718E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 9.7847E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.4662E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9931E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 1.0007E+00 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9931E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.9099E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 9.9359E-01 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.9098E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.7332E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.7676E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.7330E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.2790E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 9.7606E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.2773E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.1867E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 1.0021E+00 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.8790E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.7704E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 4.1172E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.4622E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 1.0023E+00 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.5383E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.4926E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 9.7974E-01 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 1.0481E-02 + bore____________________________________________________________________ (itvar033)____________________ 2.0708E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 1.0067E+00 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 1.9907E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0605E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 9.9815E-01 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.0545E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.5972E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 9.8269E-01 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.5888E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.5713E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 9.7551E-01 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.1803E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.1933E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 1.0007E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 2.1007E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.5001E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 1.0097E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 7.9547E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.9068E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 9.9233E-01 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.6273E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.4434E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 9.9987E-01 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 4.8868E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9709E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 1.0027E+00 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2275E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.7717E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 1.0110E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.7716E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.7550E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 9.8285E-01 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 4.7187E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ -8.2061E-08 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ 5.8218E-08 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 9.4548E-10 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 3.1735E-07 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 5.5035E-07 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 1.0439E-06 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ 5.3549E-05 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -3.7572E-07 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ 1.8132E-07 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -6.6647E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ -1.2788E-08 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ -9.3589E-09 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 1.8474E-07 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 5.6079E-07 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ 2.3591E-06 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ 4.2043E-08 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -8.8298E-07 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -2.6561E-05 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 3.7655E-07 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 3.7289E-07 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ 8.1912E-09 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ 3.4642E-07 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -8.6625E-08 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 9.4647E-07 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -1.3037E-07 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -9.2469E-08 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1295E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.8406E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.8398E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4888E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9780E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8508E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7472E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 3.9822E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4112E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.1697E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.2559E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.1570E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4113E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3412E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.6978E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6902E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8586E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.5296E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.8943E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.5080E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6746E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7257E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.2218E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8578E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.8610E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.5585E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 1.9625E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.4981E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8852E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.5485E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2701E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.5798E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9603E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7375E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5583E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6908E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1778E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0869E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7868E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7868E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6912E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0567E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0253E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7671E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8803E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5130E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3272E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7638E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.7715E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3330E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0804E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 4.9963E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.3941E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3109E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.7989E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4026E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.5957E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4183E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0014E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1295E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.8406E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1295E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5037E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6497E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.8947E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2048E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3564E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.1000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6085E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.1721E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.4926E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.8947E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.5652E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2870E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.6667E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.5983E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4808E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.1053E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1210E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.1938E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.2899E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.8194E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.5601E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.9392E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 3.0229E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8459E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.3614E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0748E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2300E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5234E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2300E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5234E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3586E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0014E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0525E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.8612E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1834E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5815E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6582E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.9558E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6557E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3843E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.3843E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.4434E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2275E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.4434E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.7717E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7078E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5045E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2767E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6922E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2859E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0908E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3164E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0702E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.1787E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6070E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3843E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6273E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6254E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9428E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2508E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3010E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2621E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8574E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.3416E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4639E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.3060E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.9000E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3386E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2286E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.7776E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7467E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.8165E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6254E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0197E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2575E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3356E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9219E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.5510E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2063E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7937E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4038E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5636E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6288E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0360E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9099E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2426E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7332E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.5742E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0617E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6529E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.4593E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2391E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.5273E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.5853E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.6463E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.4596E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0473E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2289E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1805E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7196E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4183E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.2147E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5739E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.4593E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2391E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.5273E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.4593E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.4593E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1867E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1544E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1544E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1544E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5240E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.1045E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9674E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.9000E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9498E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.1813E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7862E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.6667E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 2.0212E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.6394E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.8608E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3207E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9753E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.0426E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7705E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2074E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5274E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3660E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2733E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1649E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.2087E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2074E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.9711E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0529E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.0034E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4067E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7852E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8008E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5325E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1510E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6867E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2074E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9395E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0605E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 6.0503E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8182E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 3.0426E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6497E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.6518E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6497E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0292E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0708E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4622E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.6015E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.6229E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3983E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.6229E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4931E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1653E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0406E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1541E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.7773E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.5226E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.4217E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.2999E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.3363E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.6867E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.5226E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.4088E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.2093E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1193E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6193E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4063E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.4907E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0255E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2839E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2305E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -6.6700E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1942E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.6229E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.6229E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7808E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4553E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7306E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2293E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1031E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.2402E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7615E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.3537E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5713E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1963E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4625E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8907E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.7550E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1961E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.1015E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.7266E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2639E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8345E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2527E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4315E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8451E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6851E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0465E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.1933E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6050E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5001E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.4999E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5114E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.7437E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3382E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.6855E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2726E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4625E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.7080E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0733E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1732E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0400E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0400E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2168E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6070E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1788E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1191E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.9381E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 1.9381E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.4791E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.5972E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.3946E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.9163E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.8333E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4894E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5001E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 1.9928E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.7986E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1697E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5776E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6070E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5114E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2223E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9068E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.2870E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3964E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5698E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0709E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7701E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0063E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4004E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5337E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0601E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7320E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1509E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0708E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4622E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6700E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3602E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0522E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3081E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3098E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9709E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4948E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5760E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4948E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7147E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5057E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8597E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4693E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5265E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4898E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9224E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9224E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3066E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.3013E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.3013E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.6568E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8627E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.7117E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0541E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.4025E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.4025E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.4094E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1638E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.2208E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6704E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1281E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1281E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9089E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6357E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6226E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6704E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1281E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1281E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9089E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6357E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6226E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5178E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1059E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1059E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3141E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2565E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5749E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5178E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1059E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1059E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3141E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2565E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5749E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3439E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4622E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6621E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8648E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4004E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.9210E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.1000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3278E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -2.0105E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4491E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8627E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8627E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ -3.1523E+04 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8958E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1638E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1638E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.7733E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0005E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9919E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9919E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6357E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0005E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9919E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9919E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6357E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 4.1759E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7188E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7188E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2565E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 4.1759E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7188E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7188E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2565E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7395E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.7492E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.7492E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8648E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6497E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6497E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6497E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2555E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.0324E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3410E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2403E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9362E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.5833E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3966E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2727E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6273E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0733E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6731E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6439E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6911E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1000E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.3702E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6387E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2958E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4200E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4971E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7768E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5290E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6096E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9068E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.8333E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.8214E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.7908E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1040E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1896E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.7486E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.5972E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.9304E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.3522E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.7405E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.0450E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.3141E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.5543E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1255E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1431E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1741E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.6580E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8423E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1054E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.7270E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0349E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 2.9848E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6733E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6733E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0532E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8508E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7190E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6563E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6563E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5984E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5269E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3518E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3518E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1427E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3518E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5984E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0686E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6623E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0824E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4814E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.8902E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9420E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3514E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1222E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2054E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4893E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5656E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6160E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9091E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.3781E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0349E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3197E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5271E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4366E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8204E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9381E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2756E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3323E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6160E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6439E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6911E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1000E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8896E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1609E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9438E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9091E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5600E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0145E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6160E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5271E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4818E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1837E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1789E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9674E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.9000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8574E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0882E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2621E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.5510E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8574E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6273E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0972E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.5510E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6609E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1788E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8375E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4271E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.3991E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.3702E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1789E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1211E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9091E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6160E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0349E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2468E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5271E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7155E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7155E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7155E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6273E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0972E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9371E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1211E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3073E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1837E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9378E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1275E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5325E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2715E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5581E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8648E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8275E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 9 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 7.6750E-05 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.6985E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.0374E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.6021E-02 + dene____________________________________________________________________ (itvar002)____________________ 7.9874E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 9.9825E-01 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.0580E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.0792E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 9.9625E-01 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.0742E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4041E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 9.9625E-01 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6654E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.2805E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.8623E-01 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.2798E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7392E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.0101E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 8.2138E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.7557E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 1.0052E+00 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.7554E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.4755E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0308E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.4709E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.2157E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 9.8039E-01 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.2139E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1466E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 9.9802E-01 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1388E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7617E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 9.9970E-01 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.7189E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3112E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 9.9805E-01 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3066E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3240E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 9.9959E-01 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3233E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.3351E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.0066E+00 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.3324E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.8364E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.9195E-01 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.8363E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.8364E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.9195E-01 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.8364E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.5979E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.8673E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.5975E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.8709E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.9465E-01 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.8708E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9523E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9901E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9523E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 8.0845E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 9.9946E-01 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 8.0826E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.3692E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 9.7706E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.3635E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9867E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 9.9936E-01 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9867E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.8202E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 9.9094E-01 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.8200E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.4916E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.7518E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.4911E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.0678E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 9.7449E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.0659E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.1917E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 1.0042E+00 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.9247E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.6229E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 3.7742E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.4724E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 1.0019E+00 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.5489E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.4301E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 9.8211E-01 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 9.1513E-03 + bore____________________________________________________________________ (itvar033)____________________ 2.0841E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 1.0064E+00 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 2.0042E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0220E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 9.9053E-01 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.0160E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.5704E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 9.8322E-01 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.5620E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.5136E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 9.7754E-01 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.1195E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.1885E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 9.9942E-01 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 2.0487E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.5768E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 1.0090E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 8.1291E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.8260E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 9.9092E-01 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.3039E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.4369E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 9.9913E-01 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 4.8739E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9855E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 1.0029E+00 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2429E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.8195E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 1.0083E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.8194E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.6731E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 9.8277E-01 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 4.2067E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ 2.4028E-06 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ 2.4470E-09 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 6.5807E-11 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 3.7048E-07 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 3.3390E-07 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 3.3391E-07 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ 5.7851E-05 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -4.4247E-06 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ 2.2204E-16 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -1.7436E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ 7.1223E-07 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ 1.4847E-10 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 4.5951E-08 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ -6.6758E-11 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -2.1143E-05 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ 1.2153E-07 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -2.8347E-07 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -2.3019E-05 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 6.7123E-08 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 9.5743E-08 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ 2.0652E-08 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ -1.1469E-08 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -6.9271E-07 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 2.6186E-06 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -3.7367E-08 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -1.5660E-08 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1526E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.9127E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.8291E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4796E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9703E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8297E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7370E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 3.9509E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4109E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.1177E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.1965E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.0895E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.3741E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3062E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.5316E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6989E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8895E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.5987E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.8667E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.5264E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6598E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7152E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.2061E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8551E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.7816E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4961E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 1.8815E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.4664E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.7022E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.4619E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2707E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.6169E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9554E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7286E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5386E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6812E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1598E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0841E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7835E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7835E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6842E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0467E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0232E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7562E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8699E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5088E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3087E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7586E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.7301E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.2921E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0722E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 4.9784E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.3738E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.2958E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.7922E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.3974E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.5633E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4129E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 9.9763E+03 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1526E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.9127E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1526E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.4939E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6468E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.8429E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.1909E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3335E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.0000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.5934E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.0733E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.4301E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.8429E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.6985E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2891E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.8077E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.7692E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4804E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.2216E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1228E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.3167E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.2969E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.7637E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.6084E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.9945E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 3.0830E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8836E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.3442E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0728E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2300E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5234E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2300E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5234E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3586E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.9874E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0506E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.8457E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1695E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5692E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6882E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.9402E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6513E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3714E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.3714E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.4369E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2265E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.4369E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.8195E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7085E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5155E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2657E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6857E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2796E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0842E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.2790E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0719E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.0818E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.5954E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3714E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6212E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6193E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9355E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2386E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.2961E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2574E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8458E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.3472E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4703E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.2401E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.8564E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3434E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2290E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.7959E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7470E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.8174E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6193E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0158E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2337E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3258E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9079E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.5992E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.2063E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.7937E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4002E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5600E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6168E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0211E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.8202E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2167E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.6749E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.4601E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0236E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6215E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.2963E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2174E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.4187E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.4711E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.4727E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.3853E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0122E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.1749E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1581E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7120E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4154E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.1964E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5562E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.2963E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2174E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.4187E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.2963E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.2963E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1917E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1563E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1563E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1563E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5211E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.1009E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9602E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.8564E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9521E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.1847E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7894E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.8077E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 2.0617E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.5690E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.9150E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3051E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9666E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.1132E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.8133E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2337E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5672E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.4013E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.3209E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1989E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.3286E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2337E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 4.0073E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0706E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 2.9903E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.3998E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7734E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.7790E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5315E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1428E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6949E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2337E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9780E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0220E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 6.1023E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8018E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 3.1131E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6468E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.7587E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6468E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0398E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0841E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4724E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.5627E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.4832E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.4051E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.4832E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4993E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1672E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0408E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1549E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.6620E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.4567E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.2628E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.1187E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.2729E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.5942E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.4567E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.2710E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.0509E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 5.9994E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.5483E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.3696E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.3961E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 4.9179E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.1663E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.1984E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -6.3536E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.2012E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.4832E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.4832E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7775E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4560E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7063E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2127E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1075E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.1680E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7870E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.2844E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5136E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1119E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.3798E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8101E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.6731E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1977E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.1048E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.6723E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2663E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8421E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2495E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4163E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8278E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6678E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0301E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.1885E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.5918E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5768E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.4232E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5196E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.2927E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2820E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.5529E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2401E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4388E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.5997E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0560E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1502E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0000E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0000E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1928E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5987E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1721E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.0729E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.8621E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 1.8621E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.1887E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.5704E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2479E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.8364E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.6756E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4934E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5768E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 1.9393E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 8.1629E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1617E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5428E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5987E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5196E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2032E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.8260E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.3353E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3954E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5786E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0736E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7684E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0015E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3999E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5380E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0614E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7257E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1466E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0841E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4724E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6862E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3557E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0490E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3067E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3305E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9855E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4900E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5690E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4900E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7317E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5072E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8634E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4767E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5155E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4922E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9457E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9457E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.2927E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.3076E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.3076E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.7019E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8808E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.8179E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0527E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.4108E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.4108E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.4731E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1892E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.3356E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6696E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1265E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1265E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9035E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6140E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6179E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6696E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1265E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1265E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9035E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6140E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6179E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5170E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1109E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1109E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3157E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2629E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5747E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5170E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1109E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1109E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3157E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2629E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5747E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3578E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4724E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6615E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8646E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.3999E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 4.0077E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.1000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3240E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -2.1463E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4583E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8808E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8808E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ -1.9012E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.9081E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1892E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1892E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.9648E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0009E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9626E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9626E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6140E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0009E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9626E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9626E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6140E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 4.3974E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.6901E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.6901E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2629E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 4.3974E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.6901E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.6901E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2629E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7386E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 4.0020E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 4.0020E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8646E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6468E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6468E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6468E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2476E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 3.9259E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3140E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2303E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9156E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.5144E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3741E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2277E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6212E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0560E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6676E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6385E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6824E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0734E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.3232E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6326E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2909E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4147E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4915E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7760E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5277E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6103E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.8260E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.6756E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.7546E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.7340E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.0963E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1349E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.6764E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.5704E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.8707E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.2673E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.6604E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 2.9560E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.2296E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.4901E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.0608E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.0873E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1848E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.5287E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8082E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.0849E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.6557E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0255E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 2.9620E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6798E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6798E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0779E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8691E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7105E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6534E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6534E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5778E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5260E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3382E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3382E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1329E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3382E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5778E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0595E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6483E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0714E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4706E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.8691E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9391E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3472E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1199E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.1849E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4847E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5635E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5938E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9028E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.1307E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0255E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.2848E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5208E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4250E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8008E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9205E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2615E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2872E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5938E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6385E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6824E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0734E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8834E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1304E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9337E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9028E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5575E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0073E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5938E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5208E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4736E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1790E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1711E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9602E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.8564E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8458E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0767E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2574E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.5992E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8458E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6212E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0856E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.5992E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6554E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1710E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8315E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4218E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.3815E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.3232E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1711E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1001E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9028E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5938E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0255E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2408E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5208E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.6843E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.6843E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.6843E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6212E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0856E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9298E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1001E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3026E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1790E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9306E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1246E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5290E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2787E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5381E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8582E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8210E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 10 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 1.3614E-05 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.7250E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.0072E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.6287E-02 + dene____________________________________________________________________ (itvar002)____________________ 7.9771E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 9.9871E-01 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.0476E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.1121E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 1.0065E+00 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.1072E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4392E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 1.0065E+00 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6830E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.2335E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.9493E-01 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.2327E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7501E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.0063E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 8.3346E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.6562E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.8980E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.6559E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.5148E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0072E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.5103E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.2157E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 1.0000E+00 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.2139E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1461E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 9.9976E-01 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1383E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7608E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 9.9985E-01 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.7180E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3087E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 9.9951E-01 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3040E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3251E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 1.0001E+00 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3244E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.3353E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.0000E+00 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.3327E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.8357E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.9993E-01 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.8356E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.8357E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.9993E-01 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.8357E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.5873E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.9889E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.5869E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.8704E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.9995E-01 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.8703E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9494E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9970E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9493E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 8.0769E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 9.9906E-01 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 8.0750E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.3673E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 9.9958E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.3617E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9781E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 9.9914E-01 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9781E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.8507E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 1.0031E+00 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.8505E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.4844E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.9923E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.4838E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.0621E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 9.9929E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.0602E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.2000E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 1.0069E+00 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.9996E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.4832E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 3.4494E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.4720E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 9.9994E-01 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.5485E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.4346E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 1.0013E+00 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 9.2459E-03 + bore____________________________________________________________________ (itvar033)____________________ 2.0834E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 9.9963E-01 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 2.0034E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0090E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 9.9675E-01 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.0030E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.5708E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 1.0002E+00 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.5624E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.5159E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 1.0009E+00 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.1220E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.1944E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 1.0007E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 2.1132E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.5786E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 1.0002E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 8.1332E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.8265E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 1.0001E+00 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.3059E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.5160E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 1.0106E+00 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 5.0320E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9868E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 1.0003E+00 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2443E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.8813E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 1.0106E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.8812E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.6786E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 1.0012E+00 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 4.2412E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ 7.4661E-09 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ -3.5124E-09 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 1.6232E-11 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 1.1483E-08 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 1.5179E-08 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 1.5182E-08 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ -1.2068E-05 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -9.4071E-08 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ 2.2204E-16 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -1.3211E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ 7.7359E-09 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ 3.6623E-11 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 4.1069E-09 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ -1.3277E-09 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -3.3847E-08 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ -4.3139E-10 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -2.7863E-08 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -7.7700E-08 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 6.4469E-09 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 3.7281E-09 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ -3.0400E-09 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ -5.2765E-09 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -1.5415E-08 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 1.3600E-07 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -8.6302E-09 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -6.6149E-09 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1129E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.8644E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.7776E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4802E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9703E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8290E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7376E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 3.9523E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4109E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.1186E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.1964E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.0927E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.3727E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3079E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.5344E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.7037E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8935E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.6160E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.8463E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.5331E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6608E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7093E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.1922E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8532E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.7819E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4959E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 1.8818E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.4666E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.7025E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.4731E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2708E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.6193E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9568E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7464E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5406E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6979E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1911E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0889E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7835E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7835E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6840E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0512E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0267E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7569E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8707E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5125E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3107E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7677E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.7479E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3197E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0768E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0095E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.3771E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.2967E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.7933E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.3982E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.5686E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4138E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 9.9824E+03 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1129E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.8644E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1129E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.4788E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6447E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.8466E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.1919E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3508E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.0000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.5823E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.0731E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.4346E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.8466E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.7250E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3016E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.8348E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.8179E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4855E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.2432E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1332E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.3388E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.3386E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.7677E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.6293E+00 + Normalised_total_beta___________________________________________________ ______________________________ 3.0199E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 3.1089E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8809E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.4064E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0804E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2400E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5511E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2400E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5511E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3702E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.9771E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0493E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.8342E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1513E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5453E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.7315E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 5.9956E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6731E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3618E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.3618E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.5160E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2073E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.5160E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.8813E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7109E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5350E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2576E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6809E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2866E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0864E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.2893E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0573E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.0908E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.5869E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3618E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6318E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6298E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9561E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2596E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3045E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2705E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8659E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.4023E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4743E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.2737E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 8.9158E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3503E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2419E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.7992E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7571E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.8512E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6298E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0224E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2479E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3317E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9163E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.5632E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1939E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8061E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4060E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5683E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6240E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0300E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.8507E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2155E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.6714E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.4566E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0212E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6198E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.2792E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2152E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.4069E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.4604E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.4566E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.3782E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0075E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.1680E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1549E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7065E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4133E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.1829E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5528E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.2792E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2152E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.4069E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.2792E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.2792E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.2000E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1622E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1622E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1622E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5225E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.1279E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9743E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 8.9158E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9576E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.1905E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7946E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.8348E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 2.0713E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.5115E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.9148E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3029E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9602E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.1158E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.8590E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2713E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.6076E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.4400E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.3304E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.2082E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.3525E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2713E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.9907E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0501E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.0054E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4003E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7567E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8167E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5484E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1568E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.7010E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2713E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9910E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0090E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 6.1014E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.7989E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 3.1157E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6447E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.7976E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6447E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0437E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0834E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4720E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.5650E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.4911E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.4047E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.4911E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.5005E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1675E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0408E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1549E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ -4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.6584E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.4549E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.2580E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.1133E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.2730E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.5917E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.4549E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.2673E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.0466E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 5.9930E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.5446E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.3685E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.3918E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 4.9131E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.1596E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.1975E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -6.3540E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.2008E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.4911E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.4911E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7777E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4559E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7077E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2137E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1073E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.1713E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7851E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.2875E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5159E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1159E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.3854E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8155E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.6786E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1976E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.1045E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.6770E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2673E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8397E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2487E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4162E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8312E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6712E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0324E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.1944E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.5936E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5786E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.4214E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5197E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.2917E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2896E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.5641E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2414E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4407E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.6056E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0569E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1502E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0000E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0000E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1928E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5958E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1712E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.0730E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.8622E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 1.8622E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.1887E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.5708E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2453E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.8357E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.6742E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4929E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5786E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 1.9374E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 8.1638E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1604E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5387E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5958E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5197E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2033E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.8265E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.3353E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3952E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5809E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0743E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7698E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0013E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3998E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5386E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0616E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7254E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1461E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0834E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4720E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6857E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3543E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0480E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3063E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3314E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9868E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4836E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5601E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4836E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7296E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5076E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8638E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4776E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5148E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4925E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9479E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9479E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.2934E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.3081E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.3081E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.7053E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8821E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.8302E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0527E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.4114E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.4114E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.4783E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1913E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.3487E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6697E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1274E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1274E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9066E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6263E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6202E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6697E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1274E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1274E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9066E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6263E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6202E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5171E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1164E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1164E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3175E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2700E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5770E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5171E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1164E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1164E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3175E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2700E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5770E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3570E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4720E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6601E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8640E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.3998E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 4.0009E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.1000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3251E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -2.1684E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4575E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8821E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8821E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ -1.9765E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.9070E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1913E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1913E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.9718E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9998E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -6.9739E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -6.9739E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6263E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9998E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -6.9739E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -6.9739E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6263E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 4.3837E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.6980E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.6980E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2700E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 4.3837E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.6980E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.6980E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2700E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7382E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 4.0419E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 4.0419E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8640E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6447E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6447E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6447E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2418E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 3.9220E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3153E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2308E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9165E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.5175E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3753E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2441E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6318E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0569E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6783E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6490E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6915E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1193E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.3404E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6432E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2993E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4239E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.5012E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7761E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5278E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6108E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.8265E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.6742E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.7547E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.7342E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.0960E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1347E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.6766E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.5708E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.8709E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.2678E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.6607E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 2.9563E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.2301E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.4903E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.0612E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.0876E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1848E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.5292E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8082E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.0849E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.6559E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0256E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 2.9611E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6800E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6800E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0795E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8725E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.6985E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6513E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6513E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5487E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5427E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3190E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3190E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1191E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3190E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5487E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0514E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6491E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0617E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4552E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.8706E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9393E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3475E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1201E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.1849E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4846E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5636E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.5931E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9149E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.1627E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0256E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3002E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5212E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4256E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.7847E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9206E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2611E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2858E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.5931E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6490E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6915E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1193E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8954E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1831E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9443E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9149E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5563E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0198E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5931E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5212E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4894E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1805E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1847E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9743E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 8.9158E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8659E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0966E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2705E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.5632E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8659E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6318E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1056E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.5632E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6660E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1846E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8432E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4310E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.3999E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.3404E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1847E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1424E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9149E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.5931E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0256E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2326E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5212E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7386E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7386E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7386E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6318E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1056E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9423E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1424E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3108E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1805E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9431E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1327E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5386E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2597E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.5728E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8698E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8324E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 11 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 1.0000E-04 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.5948E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 9.6504E-01 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.4983E-02 + dene____________________________________________________________________ (itvar002)____________________ 8.0021E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 1.0031E+00 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.0729E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.1423E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 1.0059E+00 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.1375E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4714E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 1.0059E+00 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6992E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.3818E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 1.0161E+00 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.3812E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7249E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 9.8559E-01 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 8.0544E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.5759E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.9168E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.5754E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.3540E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 9.7084E-01 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.3494E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.3800E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 1.0200E+00 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.3784E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1474E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 1.0006E+00 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1395E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7545E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 9.9891E-01 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.7116E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3425E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 1.0064E+00 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3378E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3398E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 1.0016E+00 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3392E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.2788E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 9.9229E-01 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.2760E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.9158E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 1.0081E+00 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.9158E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.9158E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 1.0081E+00 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.9158E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.7103E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 1.0128E+00 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.7100E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.8938E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 1.0024E+00 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.8937E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9389E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9895E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9389E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 8.0840E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 1.0009E+00 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 8.0821E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.4722E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 1.0240E+00 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.4667E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9924E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 1.0014E+00 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9924E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.9181E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 1.0068E+00 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.9180E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.7284E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 1.0257E+00 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.7281E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.2755E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 1.0265E+00 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.2738E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.1940E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 9.9499E-01 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.9450E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.4911E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 3.4677E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.4697E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 9.9957E-01 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.5461E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.4923E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 1.0168E+00 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 1.0474E-02 + bore____________________________________________________________________ (itvar033)____________________ 2.0691E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 9.9317E-01 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 1.9890E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0601E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 1.0127E+00 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.0541E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.5966E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 1.0165E+00 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.5882E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.5705E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 1.0217E+00 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.1795E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.2099E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 1.0019E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 2.2813E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.5009E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 9.9095E-01 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 7.9567E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.9124E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 1.0097E+00 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.6496E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.5300E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 1.0019E+00 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 5.0601E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9733E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 9.9729E-01 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2300E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.8551E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 9.9554E-01 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.8550E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.7647E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 1.0184E+00 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 4.7791E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ -9.4202E-08 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ 5.9201E-08 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 6.7881E-10 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 3.9672E-07 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 6.9387E-07 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 1.1465E-06 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ 5.0895E-05 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -3.9297E-07 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ -2.2204E-16 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -7.4446E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ -1.0797E-08 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ -1.3509E-08 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ -2.4406E-06 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 1.8443E-06 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ 2.4648E-06 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ 5.2956E-08 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -7.2277E-07 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -2.5913E-05 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 3.3506E-06 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 5.5515E-07 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ 9.6315E-09 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ 8.0210E-07 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -1.3476E-07 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 9.6439E-07 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -9.7090E-08 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -6.7390E-08 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.0770E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.8640E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.7771E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4896E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9782E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8516E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7480E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 3.9846E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4113E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.1715E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.2529E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.1583E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4119E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3439E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.7014E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6985E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8654E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.5573E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.8957E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.5197E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6762E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7213E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.2113E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8563E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.8619E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.5598E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 1.9628E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5003E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.8891E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.5615E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2700E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.5813E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9617E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7610E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5612E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.7132E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.2198E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0933E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7869E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7869E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6915E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0634E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0299E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7680E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8812E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5179E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3302E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7760E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.7958E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3711E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0867E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0381E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.3989E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3124E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8005E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4039E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6033E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4195E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0023E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.0770E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.8640E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.0770E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.4875E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6498E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.8944E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2048E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3786E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.1000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6092E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.1722E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.4923E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.8944E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.5948E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2974E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.6972E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.6479E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4850E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.1300E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1297E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.2192E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.3248E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.8191E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.5802E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.9633E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 3.0478E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8461E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.4358E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0837E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2400E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5511E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2400E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5511E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3702E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0021E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0526E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.8619E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1736E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5647E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.7253E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 6.0256E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6815E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3850E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.3850E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.5300E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2058E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.5300E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.8551E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7108E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5291E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2772E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6925E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2877E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0912E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3183E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0466E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.1803E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6076E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3850E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6414E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6394E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9677E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2789E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3122E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2780E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8842E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.4277E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4773E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.3421E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 9.0058E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3537E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2543E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.8036E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7668E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.8834E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6394E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0285E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2599E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3366E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9234E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.5331E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1939E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8061E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4104E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5733E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6300E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0375E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9181E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2427E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7334E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.5744E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0619E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6530E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.4497E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2379E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.5206E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.5784E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.6363E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.4550E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0442E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2245E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1782E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7200E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4185E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.2156E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5741E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.4497E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2379E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.5206E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.4497E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.4497E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1940E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1621E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1621E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1621E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5304E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.1377E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9837E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 9.0058E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9558E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.1851E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7900E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.6972E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 2.0306E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.5818E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.8616E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3208E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9757E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.0432E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.8106E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2391E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5644E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.4000E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2839E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1746E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.2353E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2391E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.9599E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0408E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.0124E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4067E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7723E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8510E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5510E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1696E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6863E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2391E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9399E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0601E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 6.0509E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8184E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 3.0431E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6498E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.6748E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6498E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0315E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0691E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4697E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.6052E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.6318E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3978E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.6318E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4975E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1660E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0405E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1540E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 9.7697E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.7755E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.5208E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.4186E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.2963E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.3348E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.6859E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.5208E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.4066E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.2066E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1148E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6166E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4053E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.4874E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0219E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2795E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2296E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -6.6624E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1937E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.6318E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.6318E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7810E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4552E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7321E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2302E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1023E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.2448E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7599E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.3536E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5705E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1979E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4722E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9002E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.7647E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1959E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.1011E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.7364E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2674E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8292E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2496E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4306E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8526E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6926E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0506E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.2099E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6082E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5009E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.4991E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5161E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.7517E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3474E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.7086E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2742E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4659E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.7129E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0741E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1732E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0400E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0400E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2168E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6019E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1777E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1193E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.9382E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 1.9382E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.4791E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.5966E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.3953E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.9158E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.8324E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4884E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5009E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 1.9903E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.7998E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1692E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5747E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6019E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5161E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2244E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9124E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.2788E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3979E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5563E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0669E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7541E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0056E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.4002E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5351E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0605E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7316E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1474E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0691E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4697E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6819E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3642E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0549E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3092E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3178E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9733E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4943E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5548E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4943E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7126E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5092E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8627E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4754E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5297E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4918E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9294E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9294E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3075E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.3023E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.3023E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.6640E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8656E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.7247E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0541E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.4037E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.4037E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.4184E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1674E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.2346E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6704E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1294E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1294E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9134E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6535E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6262E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6704E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1294E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1294E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9134E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6535E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6262E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5179E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1140E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1140E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3167E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2670E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5783E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5179E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1140E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1140E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3167E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2670E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5783E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3426E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4697E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6609E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8643E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4002E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.9208E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.1000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3398E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -2.0290E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4495E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8656E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8656E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ -1.2380E+04 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8963E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1674E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1674E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.7492E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0043E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0090E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0090E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6535E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0043E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0090E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0090E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6535E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 4.1632E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7308E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7308E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2670E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 4.1632E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7308E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7308E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2670E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7413E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.7827E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.7827E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8643E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6498E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6498E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6498E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2559E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.0340E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3431E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2411E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9378E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.5885E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3976E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2941E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6414E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0741E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6882E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6587E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6997E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1614E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.3925E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6529E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.3070E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4323E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.5101E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7769E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5292E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6104E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9124E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.8324E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.8183E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.7900E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1032E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1907E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.7489E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.5966E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.9295E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.3580E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.7415E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.0461E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.3199E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.5546E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1299E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1469E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1733E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.6585E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8430E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1058E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.7273E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0355E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 2.9846E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6722E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6722E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0542E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8512E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7097E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6564E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6564E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5760E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5454E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3370E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3370E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1321E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3370E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5760E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0625E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6632E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0750E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4696E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.8920E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9422E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3518E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1224E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2058E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4895E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5658E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6168E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9262E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.4154E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0355E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3407E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5277E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4375E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8106E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9393E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2761E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3340E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6168E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6587E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6997E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1614E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.9065E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.2315E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9536E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9262E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5549E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0313E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6168E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5277E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.5040E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1861E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1971E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9837E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 9.0058E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8842E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.1149E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2780E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.5331E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8842E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6414E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1240E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.5331E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6758E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1970E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8540E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4394E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4163E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.3925E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1971E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1769E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9262E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6168E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0355E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2418E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5277E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7884E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7884E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7884E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6414E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1240E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9538E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1769E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3183E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1861E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9546E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1378E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5447E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2473E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.6046E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8805E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8428E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 12 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 6.7424E-05 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.4601E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 9.6254E-01 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.3635E-02 + dene____________________________________________________________________ (itvar002)____________________ 7.9957E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 9.9920E-01 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.0664E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.1404E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 9.9962E-01 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.1355E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4693E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 9.9962E-01 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.6981E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.5366E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 1.0165E+00 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.5361E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7102E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 9.9149E-01 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 7.8912E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.5894E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 1.0014E+00 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.5890E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.1904E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 9.6945E-01 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.1856E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.5443E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 1.0196E+00 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.5428E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1499E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 1.0012E+00 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1421E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7291E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 9.9559E-01 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.6860E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3867E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 1.0083E+00 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3821E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3669E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 1.0029E+00 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3662E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.2215E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 9.9214E-01 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.2188E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.9998E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 1.0085E+00 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.9998E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.9998E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 1.0085E+00 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.9998E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.8048E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 1.0097E+00 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.8046E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.9242E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 1.0031E+00 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.9241E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9237E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9847E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9236E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 8.0994E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 1.0019E+00 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 8.0975E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.5842E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 1.0250E+00 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.5787E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9954E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 1.0003E+00 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9954E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.9783E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 1.0061E+00 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.9783E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.9690E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 1.0247E+00 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.9690E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.4877E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 1.0256E+00 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.4862E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.1912E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 9.9771E-01 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.9201E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.6318E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 3.7948E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.4537E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 9.9708E-01 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.5296E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.5636E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 1.0204E+00 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 1.1992E-02 + bore____________________________________________________________________ (itvar033)____________________ 2.0559E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 9.9360E-01 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 1.9756E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0647E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 1.0011E+00 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.0588E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.6183E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 1.0136E+00 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.6099E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.6317E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 1.0238E+00 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.2439E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.2008E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 9.9889E-01 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 2.1826E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.4203E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 9.9051E-01 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 7.7734E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.9989E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 1.0097E+00 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.9955E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.5178E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 9.9838E-01 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 5.0357E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9706E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 9.9947E-01 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2272E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.8022E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 9.9096E-01 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.8021E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.8480E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 1.0175E+00 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 5.2998E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ -9.1253E-08 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ 1.9470E-08 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 9.1754E-10 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 3.1018E-07 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 4.2328E-07 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 4.7977E-07 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ 2.6742E-05 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -4.0920E-07 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ 8.1232E-08 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -5.2354E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ 7.7882E-09 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ -6.6497E-09 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 3.9326E-07 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ -1.2051E-07 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ 1.0393E-06 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ -3.1003E-08 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -6.1107E-07 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -1.1757E-05 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ -1.5934E-05 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 3.1734E-07 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ -9.9875E-10 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ 3.6338E-07 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -2.3810E-07 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 8.6134E-07 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -9.4191E-08 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -5.3374E-08 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.0793E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.7702E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.8195E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4989E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9863E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8731E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7584E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0151E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4116E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.2293E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.3083E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.2292E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4462E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3782E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.8733E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6829E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8239E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.4852E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.8830E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.4926E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6906E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7298E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.2220E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8582E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9404E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.6264E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.0427E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5343E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 1.0077E+02 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.6340E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2695E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.5298E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9638E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7585E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5800E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.7122E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.2177E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0930E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7902E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7902E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6986E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0706E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0297E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7792E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8919E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5198E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3478E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7754E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8233E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3917E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0915E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0360E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4175E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3272E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8067E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4087E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6329E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4244E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0057E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.0793E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.7702E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.0793E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5063E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6485E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.9535E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2204E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.3919E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.2000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6023E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.2707E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.5636E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.9535E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.4601E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2989E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.5548E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.4786E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4868E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.0123E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1308E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.0947E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.3298E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.8817E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.5338E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.9106E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9902E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8035E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.4301E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0832E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2400E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5511E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2400E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5511E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3702E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.9957E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0517E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.8548E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1709E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5634E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6792E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 6.0110E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6774E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3790E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.3790E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.5178E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.2108E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.5178E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.8022E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7097E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5166E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2722E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6895E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2870E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0969E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3534E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0438E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.2769E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6023E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3790E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6408E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6388E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9669E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2776E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3117E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2775E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8830E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.3854E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4622E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4105E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 9.0074E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3411E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2418E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.7734E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7570E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.8509E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6388E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0281E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2824E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3458E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9366E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.4852E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1939E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8061E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4100E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5722E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6412E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0515E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9783E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2663E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7848E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.6815E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0951E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6811E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.5964E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2575E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6178E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.6835E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.7959E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5235E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0756E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2727E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1984E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7165E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4172E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.2072E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5850E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.5964E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2575E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6178E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.5964E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.5964E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1912E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1617E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1617E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1617E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5280E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.1347E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9823E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 9.0074E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9518E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.1733E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7896E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.5548E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9915E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.6496E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.8033E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3319E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9717E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.9742E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7771E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2221E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5307E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3736E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2358E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1408E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.1141E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2221E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.9340E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0207E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.0274E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4146E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7780E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8488E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5481E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1690E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6900E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2221E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9353E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0647E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.9941E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8291E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.9741E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6485E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.5501E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6485E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0190E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0559E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4537E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.6450E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.7762E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3908E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.7762E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4823E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1629E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0403E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1534E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 0.0000E+00 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8897E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.5870E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5767E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4768E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.4040E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7788E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.5870E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5450E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3658E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.2318E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6857E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4422E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5804E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.1280E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.3928E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2620E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.0079E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1865E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.7762E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.7762E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7845E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4545E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7571E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2466E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0947E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.3158E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7326E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.4262E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.6317E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.2865E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.5559E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9817E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.8480E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1942E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0978E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.7844E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2573E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8196E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2608E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4446E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8724E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.7124E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0722E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.2008E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6258E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4203E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.5797E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5114E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.2545E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.4117E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.8270E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3061E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4895E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.8254E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0921E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1962E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0800E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0800E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2409E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6095E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1837E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1650E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0157E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.0157E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.7753E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.6183E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.5554E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.9998E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9997E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4831E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4203E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0460E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.4451E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1761E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.6136E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6095E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5114E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2461E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9989E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.2215E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3997E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5397E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0619E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7385E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0138E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3982E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5531E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0659E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7526E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1499E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0559E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4537E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6566E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3537E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0476E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3061E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3029E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9706E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4965E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5160E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4965E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6888E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5115E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8605E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4710E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5285E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4903E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9232E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9232E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3220E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2960E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2960E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.6187E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8475E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.6307E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0556E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3956E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3956E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.3561E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1424E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.1325E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6712E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1302E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1302E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9159E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6635E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6284E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6712E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1302E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1302E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9159E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6635E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6284E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5187E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1029E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1029E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3131E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2525E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5762E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5187E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1029E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1029E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3131E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2525E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5762E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3286E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4537E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6527E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8611E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.3997E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.8389E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.0000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3669E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.9196E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4411E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8475E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8475E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 1.3680E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8850E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1424E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1424E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.5633E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0070E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0264E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0264E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6635E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0070E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0264E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0264E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6635E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.9426E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7508E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7508E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2525E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.9426E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7508E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7508E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2525E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7433E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.5726E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.5726E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8611E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6485E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6485E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6485E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2523E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.1319E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3694E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2509E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9578E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.6558E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4211E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.3316E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6408E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0921E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6865E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6570E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7043E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1587E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.4316E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6523E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.3065E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4317E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.5095E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7777E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5305E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6096E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9989E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9997E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.8772E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.8438E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1112E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.2496E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.8203E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.6183E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.9860E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.4488E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8214E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1349E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.4104E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.6180E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1991E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.2065E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1621E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.7844E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8783E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1270E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.7978E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0456E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0035E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6667E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6667E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0198E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8319E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7138E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6551E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6551E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5859E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5425E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3436E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3436E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1368E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3436E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5859E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0687E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6776E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0825E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4748E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9136E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9452E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3561E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1247E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2270E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4942E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5680E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6396E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9243E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.6225E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0456E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3635E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5342E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4488E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8275E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9582E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2904E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3801E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6396E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6570E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7043E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1587E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.9046E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.2283E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9589E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9243E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5598E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0305E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6396E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5342E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.5016E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1898E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1962E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9823E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 9.0074E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8830E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.1137E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2775E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.4852E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8830E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6408E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1228E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.4852E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6742E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1961E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8522E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4389E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4255E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.4316E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1962E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.1711E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9243E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6396E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0456E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2484E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5342E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.7848E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.7848E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.7848E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6408E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1228E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9531E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.1711E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3177E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1898E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9538E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1357E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5421E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2520E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.6022E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8797E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8421E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 13 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 1.5954E-05 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.4830E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.0066E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.3864E-02 + dene____________________________________________________________________ (itvar002)____________________ 7.9810E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 9.9817E-01 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.0516E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.1680E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 1.0054E+00 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.1632E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4987E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 1.0054E+00 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.7129E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.4827E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.9435E-01 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.4822E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7207E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.0061E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 8.0074E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.5087E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.9158E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.5082E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.2259E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0068E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.2211E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.5443E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 1.0000E+00 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.5428E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1490E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 9.9959E-01 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1412E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7258E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 9.9942E-01 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.6826E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3871E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 1.0001E+00 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3825E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3704E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 1.0004E+00 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3697E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.2217E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.0000E+00 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.2189E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.9996E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.9998E-01 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.9996E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.9996E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.9998E-01 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.9996E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.7920E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.9869E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.7918E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.9236E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.9993E-01 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.9235E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9186E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9949E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9186E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 8.0954E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 9.9950E-01 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 8.0935E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.5818E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 9.9948E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.5764E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9866E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 9.9913E-01 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9866E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.9990E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 1.0021E+00 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.9990E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.9598E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.9908E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.9598E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.4804E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 9.9914E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.4789E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.2000E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 1.0073E+00 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 9.9996E-01 + tfcth___________________________________________________________________ (itvar030)____________________ 8.7762E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 4.1308E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.4535E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 9.9996E-01 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.5294E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.5702E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 1.0018E+00 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 1.2131E-02 + bore____________________________________________________________________ (itvar033)____________________ 2.0549E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 9.9951E-01 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 1.9746E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0495E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 9.9627E-01 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.0436E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.6188E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 1.0003E+00 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.6104E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.6346E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 1.0011E+00 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.2469E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.2077E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 1.0008E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 2.2575E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.4227E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 1.0003E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 7.7789E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.9982E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 9.9993E-01 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.9929E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.5926E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 1.0099E+00 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 5.1852E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9725E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 1.0004E+00 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2292E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.8614E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 1.0102E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.8613E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.8550E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 1.0014E+00 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 5.3436E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ 5.9151E-09 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ -3.5944E-09 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 2.2604E-11 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 1.3475E-08 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 1.8120E-08 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 1.8123E-08 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ -1.2634E-05 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -6.9380E-08 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ -0.0000E+00 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -1.5595E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ 7.7748E-09 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ 5.0998E-11 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ -1.4021E-09 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 1.5649E-09 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -4.3568E-08 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ -8.3896E-10 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -3.5323E-08 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -1.0064E-07 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ -1.7649E-07 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 4.2442E-09 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ -3.9280E-09 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ -5.1050E-09 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -1.8063E-08 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 1.1315E-07 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -1.1133E-08 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -8.5876E-09 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.0468E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.7245E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.7748E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4997E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9862E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8720E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7591E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0165E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4116E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.2302E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.3089E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.2332E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4441E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3797E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.8763E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6865E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8261E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.5007E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.8541E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.4978E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6915E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7234E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.2068E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8560E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9406E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.6261E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.0431E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5340E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 1.0077E+02 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.6420E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2696E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.5301E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9646E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7735E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5815E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.7261E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.2439E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0970E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7902E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7902E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6982E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0742E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0327E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7801E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8928E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5229E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3495E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7831E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8376E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.4143E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0952E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0621E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4203E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3280E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8077E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4094E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6374E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4252E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0063E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.0468E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.7245E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.0468E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.4921E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6455E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.9590E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2219E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.4071E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.2000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.5865E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.2704E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.5702E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.9590E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.4830E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3122E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.5780E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.5223E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4921E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.0308E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1419E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.1135E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.3741E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.8874E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.5541E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.9352E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 3.0153E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7996E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.4873E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0903E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2500E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5789E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2500E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5789E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3818E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 7.9810E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0498E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.8386E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1493E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5369E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.7179E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 6.0597E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.6975E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3655E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.3655E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.5926E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.1926E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.5926E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.8614E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7121E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5348E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2607E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6827E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2916E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0987E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3624E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0293E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.2853E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.5902E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3655E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6496E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6476E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9857E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2952E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3188E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2895E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8998E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.4318E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4642E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4480E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 9.0607E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3461E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2522E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.7752E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7652E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.8780E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6476E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0336E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2952E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3510E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9442E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.4429E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1815E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8185E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4146E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5792E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6476E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0595E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9990E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2646E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7796E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.6763E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0915E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6786E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.5754E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2548E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6033E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.6706E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.7763E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5151E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0701E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2646E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1947E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7086E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4141E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.1880E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5803E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.5754E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2548E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6033E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.5754E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.5754E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.2000E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1687E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1687E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1687E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5289E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.1612E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9938E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 9.0607E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9571E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.1764E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7957E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.5780E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 2.0007E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.5910E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.8020E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3288E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9626E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.9769E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.8238E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2611E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5714E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.4135E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2439E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1493E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.1347E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2611E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.9155E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 3.9990E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.0439E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4153E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7598E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.8804E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5640E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1807E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6986E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2611E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9505E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0495E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.9920E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8251E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.9768E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6455E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.5927E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6455E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0232E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0549E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4535E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.6479E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.7862E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3903E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.7862E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4838E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1632E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0402E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1534E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8852E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.5847E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5706E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4699E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.4041E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7756E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.5847E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5403E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3603E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.2238E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6810E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4409E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5749E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.1219E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.3844E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2608E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.0082E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1860E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.7862E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.7862E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7847E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4545E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7588E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2478E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0945E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.3202E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7305E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.4299E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.6346E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.2915E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.5629E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9886E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.8550E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1941E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0975E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.7903E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2585E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8170E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2598E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4447E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8762E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.7162E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0746E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.2077E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6277E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4227E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.5773E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5116E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.2524E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.4211E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.8412E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3079E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4918E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.8328E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0933E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1962E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0800E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0800E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2409E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6060E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1826E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1652E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0158E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.0158E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.7753E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.6188E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.5520E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.9996E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9992E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4825E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4227E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0435E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.4464E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1745E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.6085E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6060E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5116E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2460E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9982E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.2217E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3996E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5406E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0622E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7380E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0137E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3980E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5550E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0665E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7533E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1490E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0549E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4535E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6562E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3519E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0463E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3056E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3043E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9725E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4900E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5029E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4900E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6861E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5123E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8613E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4725E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5277E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4908E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9265E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9265E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3230E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2964E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2964E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.6216E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8486E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.6451E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0557E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3962E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3962E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.3608E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1443E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.1478E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6712E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1309E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1309E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9184E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6735E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6303E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6712E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1309E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1309E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9184E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6735E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6303E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5187E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1069E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1069E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3145E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2578E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5780E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5187E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1069E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1069E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3145E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2578E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5780E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3276E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4535E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6506E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8602E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.3996E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.8318E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.0000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3704E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.9463E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4402E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8486E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8486E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 1.2518E+05 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8839E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1443E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1443E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.5743E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0062E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0353E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0353E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6735E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0062E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0353E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0353E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6735E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.9266E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7572E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7572E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2578E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.9266E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7572E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7572E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2578E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7431E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.6206E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.6206E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8602E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6455E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6455E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6455E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2440E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.1259E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3706E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2514E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9587E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.6587E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4226E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.3467E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6496E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0933E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6954E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6658E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7121E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1972E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.4474E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6612E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.3135E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4394E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.5176E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7778E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5307E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6101E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9982E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9992E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.8782E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.8442E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1112E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.2494E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.8206E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.6188E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.9865E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.4481E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8216E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1352E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.4097E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.6184E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1986E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.2061E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1621E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.7850E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8783E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1270E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.7982E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0455E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0024E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6670E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6670E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0201E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8354E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7007E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6521E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6521E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5541E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5583E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3226E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3226E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1216E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3226E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5541E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0599E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6786E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0719E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4581E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9153E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9454E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3564E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1249E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2270E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4939E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5682E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6384E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9345E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.6452E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0455E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3759E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5346E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4494E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8075E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9580E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2897E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3778E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6384E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6658E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7121E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.1972E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.9147E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.2726E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9680E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9345E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5589E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0411E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6384E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5346E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.5148E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1910E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.2076E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9938E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 9.0607E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8998E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.1305E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2895E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.4429E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8998E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6496E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1396E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.4429E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6830E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.2075E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8620E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4466E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4414E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.4474E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.2076E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.2066E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9345E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6384E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0455E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2391E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5346E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.8304E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.8304E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.8304E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6496E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1396E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9636E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.2066E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3246E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1910E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9643E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1423E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5501E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2362E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.6313E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8894E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8516E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 14 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 3.3866E-04 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.6278E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.0416E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.5313E-02 + dene____________________________________________________________________ (itvar002)____________________ 8.0109E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 1.0037E+00 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.0818E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.1952E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 1.0053E+00 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.1904E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.5276E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 1.0053E+00 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.7274E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.3954E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.9079E-01 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.3948E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7361E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.0090E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 8.1791E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.4253E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.9123E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.4247E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.3993E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0332E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.3947E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.3800E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 9.8077E-01 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.3784E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1459E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 9.9853E-01 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1380E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7372E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 1.0020E+00 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.6941E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3761E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 9.9794E-01 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3714E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3585E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 9.9874E-01 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3579E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.2710E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.0068E+00 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.2682E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.9218E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.9222E-01 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.9218E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.9218E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.9222E-01 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.9218E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.6718E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.8773E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.6715E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.8675E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.9435E-01 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.8674E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9050E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9862E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9049E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 8.0658E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 9.9634E-01 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 8.0638E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.4799E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 9.7776E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.4744E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9932E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 1.0007E+00 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9932E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.9915E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 9.9925E-01 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.9915E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.7245E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.7637E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.7242E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.2742E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 9.7569E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.2725E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.2000E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 1.0000E+00 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 1.0000E+00 + tfcth___________________________________________________________________ (itvar030)____________________ 8.7862E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 4.1539E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.4673E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 1.0025E+00 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.5436E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.4884E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 9.7711E-01 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 1.0392E-02 + bore____________________________________________________________________ (itvar033)____________________ 2.0688E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 1.0068E+00 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 1.9887E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0246E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 9.9384E-01 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 4.0186E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.5921E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 9.8352E-01 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.5837E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.5747E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 9.7727E-01 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.1839E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.2007E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 9.9915E-01 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 2.1817E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.5030E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 1.0095E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 7.9614E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.9278E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 9.9218E-01 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.7114E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.6262E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 1.0044E+00 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 5.2523E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9826E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 1.0020E+00 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2398E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.9111E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 1.0085E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.9110E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.7662E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 9.8171E-01 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 4.7885E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ 3.3967E-06 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ -4.7191E-08 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 7.8795E-11 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 5.2189E-07 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 2.9810E-07 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 2.9812E-07 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ -1.0333E-05 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -5.1451E-06 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ -0.0000E+00 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -1.7435E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ 1.4738E-06 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ 1.7778E-10 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 1.5907E-07 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ -4.2553E-06 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -2.0713E-05 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ 3.7807E-07 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -2.6215E-07 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -2.1735E-05 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 3.3676E-04 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 3.5009E-07 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ 1.4775E-09 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ 4.1478E-07 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -7.9048E-07 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 2.8262E-06 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ 2.8223E-08 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ 3.4209E-08 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.0152E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.8183E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.7106E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4902E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9789E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8550E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7487E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 3.9876E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4113E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.1742E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.2440E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.1623E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4138E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3474E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.7093E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.7070E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.8734E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.5908E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.9131E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.5326E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6782E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7177E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.2027E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8550E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.8638E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.5671E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 1.9630E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5064E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.9029E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.5770E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2699E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.5808E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9632E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.7892E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5655E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.7398E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.2699E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.1010E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7874E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7874E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6926E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0723E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0355E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7688E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8820E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5236E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3342E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7907E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8244E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.4152E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0940E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.0881E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4050E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3145E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8026E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4055E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6130E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4211E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0034E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.0152E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.8183E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.0152E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.4739E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6516E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.8912E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2039E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.4046E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.1000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6187E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.1723E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.4884E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.8912E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.6278E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3066E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.7314E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.7011E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4888E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.1577E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1373E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.2479E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.3552E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.8157E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.6001E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.9872E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 3.0726E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8484E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.5199E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0937E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2500E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5789E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2500E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5789E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3818E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0109E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0537E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.8717E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1714E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5540E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.7754E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 6.1093E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.7114E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.3931E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.3931E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.6262E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.1835E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.6262E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9111E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7135E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5471E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.2841E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.6965E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.3046E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0951E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3342E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0398E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.1934E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6148E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.3931E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6583E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6563E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9961E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.3126E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3257E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2963E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.9165E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.5116E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4871E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.3795E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 9.1011E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3661E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2762E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.8120E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7840E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.9407E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6563E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0390E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2804E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3450E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9355E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.5500E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1815E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8185E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4201E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5863E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6402E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0503E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9915E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2437E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.7364E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.5775E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0640E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6545E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.4477E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2376E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.5192E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.5761E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.6333E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.4532E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0428E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2229E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1771E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7247E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4203E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.2272E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5769E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.4477E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2376E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.5192E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.4477E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.4477E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.2000E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1663E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1663E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1663E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5365E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.1706E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 3.0064E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 9.1011E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9628E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.1990E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7926E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.7314E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 2.0398E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.5257E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.8639E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3227E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 4.9812E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.0431E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.8476E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2685E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5999E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.4312E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2956E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1848E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.2650E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2685E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.9658E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0183E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.0292E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4063E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7620E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.9113E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5713E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1919E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6811E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2685E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9754E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0246E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 6.0529E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8208E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 3.0430E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6516E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.6632E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6516E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0304E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0688E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4673E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.6065E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.6375E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3975E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.6375E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4888E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1651E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0405E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1543E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 4.8849E-08 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.7730E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.5204E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.4159E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.2934E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.3388E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.6853E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.5204E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.4057E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.2057E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1109E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6142E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4051E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.4850E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0193E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2747E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2295E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -6.6825E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1935E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.6375E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.6375E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7812E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4552E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7331E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2304E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0994E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.2421E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7556E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.3582E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5747E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.2028E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4737E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9017E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.7662E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1959E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.1011E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.7308E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2599E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8245E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2576E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4281E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8585E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6985E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0584E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.2007E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6146E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5030E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.4970E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5201E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.7633E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3629E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.6959E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2727E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4662E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.7183E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0749E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1732E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0400E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0400E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2168E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6012E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1771E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1194E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.9382E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 1.9382E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.4791E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.5921E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.4062E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.9218E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.8443E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4864E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5030E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 1.9912E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.7993E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1675E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5774E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.6012E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5201E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2279E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9278E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.2711E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3991E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5452E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0636E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7355E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0082E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3986E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5498E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0649E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7403E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1459E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0688E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4673E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6782E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3542E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0480E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3063E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3239E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9826E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4949E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5214E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4949E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7081E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5149E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8640E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4780E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5206E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4927E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9428E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9428E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3081E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.3038E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.3038E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.6745E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8698E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.7386E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0542E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.4053E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.4053E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.4312E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.1725E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.2496E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6704E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1310E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1310E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9188E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6753E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6307E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6704E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1310E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1310E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9188E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6753E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6307E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5179E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1247E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1247E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3202E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2808E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5828E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5179E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1247E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1247E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3202E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2808E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5828E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3422E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4673E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6556E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8622E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.3991E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.9246E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.1000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3585E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -2.0470E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4505E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8698E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8698E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 2.6439E+04 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8976E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.1725E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.1725E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.7019E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0088E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0305E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0305E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6753E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0088E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0305E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0305E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6753E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 4.1585E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7455E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7455E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2808E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 4.1585E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7455E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7455E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2808E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7428E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.8121E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.8121E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8622E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6516E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6516E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6516E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2609E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.0393E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3457E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2421E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9398E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.5953E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3988E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.3195E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6583E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0749E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.7054E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6756E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7138E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2350E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.4190E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6699E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.3204E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4470E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.5256E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7770E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5293E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6115E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9278E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.8443E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.8089E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.7872E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1026E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1972E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.7491E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.5921E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.9266E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.3742E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.7434E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.0482E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.3361E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.5548E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1423E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1575E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1713E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.6588E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8458E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.1075E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.7275E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0373E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 2.9825E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6702E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6702E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0539E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8490E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7023E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6583E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6583E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5579E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5656E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3251E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3251E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1235E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3251E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5579E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0575E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6637E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0690E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4601E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.8935E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9424E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3521E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1226E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.2075E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4902E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5660E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6204E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9458E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.4595E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0373E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3653E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5281E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4387E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8156E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9427E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2783E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3412E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6204E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6756E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7138E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2350E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.9260E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.3161E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9699E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9458E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5524E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0514E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6204E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5281E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.5295E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1892E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.2189E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 3.0064E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 9.1011E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.9165E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.1469E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2963E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.5500E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.9165E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6583E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1561E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.5500E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6928E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.2188E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8730E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4542E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4447E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.4190E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.2189E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.2438E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9458E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6204E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0373E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2421E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5281E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.8757E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.8757E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.8757E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6583E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1561E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9739E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.2438E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3313E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1892E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9747E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1500E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5592E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2186E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.6602E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8991E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8611E+06 OP + + Scan_point_number_______________________________________________________ (iscan)_______________________ 15 + # Numerics # + VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 + # PROCESS found a feasible solution # + Number_of_iteration_variables___________________________________________ (nvar)________________________ 43 + Number_of_constraints_(total)___________________________________________ (neqns+nineqns)_______________ 26 + Optimisation_switch_____________________________________________________ (ioptimz)_____________________ 1 + Figure_of_merit_switch__________________________________________________ (minmax)______________________ 1 + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 1.4132E-04 OP + VMCON_convergence_parameter_____________________________________________ (convergence_parameter)_______ 0.0000E+00 OP + Normalised_objective_function___________________________________________ (norm_objf)___________________ 1.6000E+00 OP + Number_of_VMCON_iterations______________________________________________ (nviter)______________________ 0 OP + beta____________________________________________________________________ (itvar001)____________________ 3.7817E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.0424E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.6854E-02 + dene____________________________________________________________________ (itvar002)____________________ 8.0423E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 1.0039E+00 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.1134E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.2239E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 1.0055E+00 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.2191E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.5581E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 1.0055E+00 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 2.7428E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.3121E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.9113E-01 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.3114E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.7518E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.0090E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 8.3532E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 3.7500E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 1.0000E+00 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7437E-01 + fpnetel_________________________________________________________________ (itvar008)____________________ 9.3392E-01 + fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 9.9087E-01 + fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 9.3385E-01 + fbetatry________________________________________________________________ (itvar009)____________________ 5.5828E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0340E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.5784E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.2157E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 9.8039E-01 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.2139E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.1426E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 9.9849E-01 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.1348E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.7431E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 1.0010E+00 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.7001E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.3692E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 9.9872E-01 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.3645E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.3499E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 9.9908E-01 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.3493E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.3193E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.0066E+00 + fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.3166E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.8388E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.9163E-01 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.8387E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.8388E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.9163E-01 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.8388E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.5527E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.8768E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.5523E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.8150E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.9468E-01 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.8148E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.8917E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9866E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.8916E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 8.0359E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 9.9630E-01 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 8.0339E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.3795E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 9.7758E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.3738E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.9996E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 1.0006E+00 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.9996E-01 + fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 + fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 1.0000E+00 + fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.9841E-01 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 9.9926E-01 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.9841E-01 + fstrcase________________________________________________________________ (itvar026)____________________ 9.4908E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.7596E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.4903E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.0695E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 9.7526E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.0676E-01 + rmajor__________________________________________________________________ (itvar028)____________________ 8.0000E+00 + rmajor_(final_value/initial_value)______________________________________ (xcm028)______________________ 1.0000E+00 + rmajor_(range_normalised)_______________________________________________ (nitvar028)___________________ 0.0000E+00 + hfact___________________________________________________________________ (itvar029)____________________ 1.2000E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm029)______________________ 1.0000E+00 + hfact_(range_normalised)________________________________________________ (nitvar029)___________________ 1.0000E+00 + tfcth___________________________________________________________________ (itvar030)____________________ 8.6375E-01 + tfcth_(final_value/initial_value)_______________________________________ (xcm030)______________________ 1.0000E+00 + tfcth_(range_normalised)________________________________________________ (nitvar030)___________________ 3.8081E-02 + ohcth___________________________________________________________________ (itvar031)____________________ 5.4798E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm031)______________________ 1.0023E+00 + ohcth_(range_normalised)________________________________________________ (nitvar031)___________________ 2.5565E-02 + q_______________________________________________________________________ (itvar032)____________________ 3.4067E+00 + q_(final_value/initial_value)___________________________________________ (xcm032)______________________ 9.7657E-01 + q_(range_normalised)____________________________________________________ (nitvar032)___________________ 8.6536E-03 + bore____________________________________________________________________ (itvar033)____________________ 2.0828E+00 + bore_(final_value/initial_value)________________________________________ (xcm033)______________________ 1.0068E+00 + bore_(range_normalised)_________________________________________________ (nitvar033)___________________ 2.0028E-01 + fvsbrnni________________________________________________________________ (itvar034)____________________ 4.0010E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm034)______________________ 9.9414E-01 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar034)___________________ 3.9950E-01 + tdmptf__________________________________________________________________ (itvar035)____________________ 1.5648E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm035)______________________ 9.8283E-01 + tdmptf_(range_normalised)_______________________________________________ (nitvar035)___________________ 1.5563E-01 + thkcas__________________________________________________________________ (itvar036)____________________ 2.5148E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm036)______________________ 9.7671E-01 + thkcas_(range_normalised)_______________________________________________ (nitvar036)___________________ 2.1208E-01 + thwcndut________________________________________________________________ (itvar037)____________________ 8.1912E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm037)______________________ 9.9884E-01 + thwcndut_(range_normalised)_____________________________________________ (nitvar037)___________________ 2.0785E-03 + fcutfsu_________________________________________________________________ (itvar038)____________________ 8.5779E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm038)______________________ 1.0088E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar038)___________________ 8.1316E-01 + cpttf___________________________________________________________________ (itvar039)____________________ 8.8545E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm039)______________________ 9.9179E-01 + cpttf_(range_normalised)________________________________________________ (nitvar039)___________________ 9.4182E-01 + ralpne__________________________________________________________________ (itvar040)____________________ 7.6613E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm040)______________________ 1.0046E+00 + ralpne_(range_normalised)_______________________________________________ (nitvar040)___________________ 5.3226E-01 + oh_steel_frac___________________________________________________________ (itvar041)____________________ 4.9942E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm041)______________________ 1.0023E+00 + oh_steel_frac_(range_normalised)________________________________________ (nitvar041)___________________ 5.2521E-01 + fimp(13)________________________________________________________________ (itvar042)____________________ 5.9603E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm042)______________________ 1.0083E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar042)___________________ 5.9602E-02 + dr_tf_wp________________________________________________________________ (itvar043)____________________ 4.6775E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm043)______________________ 9.8139E-01 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar043)___________________ 4.2341E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ 3.6618E-06 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ -5.1617E-08 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 1.3328E-11 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 5.7214E-07 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 3.3125E-07 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 3.3127E-07 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ -7.6571E-06 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -5.5135E-06 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ -0.0000E+00 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ -9.7464E-06 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ 1.5763E-06 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ 3.0070E-11 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ 2.5566E-08 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 1.4483E-09 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -2.1379E-05 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ 1.0764E-07 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -1.5498E-07 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -2.3625E-05 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ -1.3710E-04 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 3.7519E-07 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ 2.9548E-08 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ 8.1857E-10 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -8.6256E-07 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 3.0938E-06 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ 1.6213E-09 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ 6.6471E-09 + # Final Feasible Point # + # Power Reactor Costs (1990 US$) # + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 5.9822E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.9249E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 4.6464E+02 + # Detailed Costings (1990 US$) # + Acc.22_multiplier_for_Nth_of_a_kind_____________________________________ (fkind)_______________________ 1.0000E+00 + Level_of_Safety_Assurance_______________________________________________ (lsa)_________________________ 4 + # Structures and Site Facilities # + Site_improvements,_facilities,_land_(M$)________________________________ (c211)________________________ 3.5200E+01 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.4807E+02 + Turbine_building_cost_(M$)______________________________________________ (c213)________________________ 3.8000E+01 + Reactor_maintenance_building_cost_(M$)__________________________________ (c2141)_______________________ 1.0307E+02 + Warm_shop_cost_(M$)_____________________________________________________ (c2142)_______________________ 5.7641E+01 + Tritium_building_cost_(M$)______________________________________________ (c215)________________________ 1.4800E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9712E+01 + Additional_buildings_cost_(M$)__________________________________________ (c2171)_______________________ 1.8000E+01 + Control_room_buildings_cost_(M$)________________________________________ (c2172)_______________________ 2.1000E+01 + Shop_and_warehouses_cost_(M$)___________________________________________ (c2173)_______________________ 1.1500E+01 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8375E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7383E+02 + # Reactor Systems # + First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 + Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 + Blanket_breeder_material_cost_(M$)______________________________________ (c22122)______________________ 6.3985E+02 + Blanket_stainless_steel_cost_(M$)_______________________________________ (c22123)______________________ 8.0726E+01 + Blanket_vanadium_cost_(M$)______________________________________________ (c22124)______________________ 0.0000E+00 + Blanket_total_cost_(M$)_________________________________________________ (c2212)_______________________ 9.8166E+02 + Bulk_shield_cost_(M$)___________________________________________________ (c22131)______________________ 7.8394E+01 + Penetration_shielding_cost_(M$)_________________________________________ (c22132)______________________ 7.8394E+01 + Total_shield_cost_(M$)__________________________________________________ (c2213)_______________________ 1.5679E+02 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 3.9589E+01 + Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4110E+03 + # Magnets # + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.1214E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.1798E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.0915E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.3838E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.3152E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 7.5462E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.7275E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.9203E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.6826E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 7.9751E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.5675E+02 + Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.6654E+03 + # Power Injection # + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2500E+02 + Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 + Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2500E+02 + # Vacuum Systems # + High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.3650E+01 + Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.7121E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 6.1987E+00 + Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 + Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.8541E+01 + # Power Conditioning # + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.7850E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.5052E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 1.8817E+01 + TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.4776E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.7230E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.5141E+00 + PF_coil_instrumentation_and_control_(M$)________________________________ (c22522)______________________ 3.6000E+00 + PF_coil_bussing_cost_(M$)_______________________________________________ (c22523)______________________ 1.1995E+01 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2701E+00 + PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.6302E+00 + PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9619E+01 + Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.8057E+01 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5491E+02 + # Heat Transport System # + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.7543E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.2972E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.1051E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7845E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7845E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6868E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0704E+02 + # Fuel Handling System # + Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0385E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7575E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.8712E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5244E+02 + # Instrumentation and Control # + Instrumentation_and_control_cost_(M$)___________________________________ (c228)________________________ 1.5000E+02 + # Maintenance Equipment # + Maintenance_equipment_cost_(M$)_________________________________________ (c229)________________________ 1.2500E+02 + # Total Account 22 Cost # + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3193E+03 + # Turbine Plant Equipment # + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7986E+02 + # Electric Plant Equipment # + Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8124E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.4179E+00 + Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 + Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0930E+01 + # Miscellaneous Plant Equipment # + Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 + # Heat Rejection System # + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 5.1154E+01 + # Plant Direct Cost # + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.3901E+03 + # Reactor Core Cost # + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3014E+03 + # Indirect Cost # + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.7976E+03 + # Total Contingency # + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4016E+03 + # Constructed Cost # + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.5893E+03 + # Interest during Construction # + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4172E+03 + # Total Capital Investment # + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0007E+04 + # Plant Availability # + Allowable_blanket_neutron_fluence_(MW-yr/m2)____________________________ (abktflnc)____________________ 5.0000E+00 + Allowable_divertor_heat_fluence_(MW-yr/m2)______________________________ (adivflnc)____________________ 7.0000E+00 + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 5.9822E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.9249E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 5.9822E+00 OP + Total_plant_lifetime_(years)____________________________________________ (tlife)_______________________ 3.0000E+01 + Total_plant_availability_fraction_______________________________________ (cfactr)______________________ 8.0000E-01 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.4560E+04 + # Plasma # + Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 + Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV + Minor_radius_(m)________________________________________________________ (rminor)______________________ 2.6667E+00 + Aspect_ratio____________________________________________________________ (aspect)______________________ 3.0000E+00 + Elongation,_X-point_(input_value_used)__________________________________ (kappa)_______________________ 1.8500E+00 + Elongation,_95%_surface_(calculated_from_kappa)_________________________ (kappa95)_____________________ 1.6518E+00 + Elongation,_area_ratio_calc.____________________________________________ (kappaa)______________________ 1.7188E+00 + Triangularity,_X-point_(input_value_used)_______________________________ (triang)______________________ 5.0000E-01 + Triangularity,_95%_surface_(calculated_from_triang)_____________________ (triang95)____________________ 3.3333E-01 + Plasma_poloidal_perimeter_(m)___________________________________________ (pperim)______________________ 2.4081E+01 + Plasma_cross-sectional_area_(m2)________________________________________ (xarea)_______________________ 3.8398E+01 + Plasma_surface_area_(m2)________________________________________________ (sarea)_______________________ 1.1738E+03 OP + Plasma_volume_(m3)______________________________________________________ (vol)_________________________ 1.8882E+03 OP + Plasma_current_scaling_law_used_________________________________________ (icurr)_______________________ 4 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6581E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.8235E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.1857E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.4025E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.0000E+00 + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6524E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.0743E+00 + Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.4067E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.8235E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.7817E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.3007E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.8950E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.8907E-03 OP + Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP + (Fast_alpha_+_beam_beta)/(thermal_beta)_________________________________ (gammaft)_____________________ 1.4853E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 3.2927E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1325E+00 OP + Thermal_toroidal_beta_(=_beta-exp)______________________________________ ______________________________ 3.3913E-02 OP + 2nd_stability_beta_:_beta_p_/_(R/a)_____________________________________ (eps*betap)___________________ 4.3356E-01 + 2nd_stability_beta_upper_limit__________________________________________ (epbetmax)____________________ 1.3800E+00 + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.7427E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.6478E+00 + Normalised_total_beta___________________________________________________ ______________________________ 3.0410E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 3.1321E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8979E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.5542E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0973E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2500E+01 + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5789E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2500E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5789E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3818E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0423E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0578E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.9064E+19 OP + Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1948E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.5721E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.8337E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 6.1614E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.7260E+16 OP + Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.4220E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.4220E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 7.6613E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.1741E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 7.6613E-02 + Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 + C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 + N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 + O__concentration________________________________________________________ (fimp(06))____________________ 0.0000E+00 + Ne_concentration________________________________________________________ (fimp(07))____________________ 0.0000E+00 + Si_concentration________________________________________________________ (fimp(08))____________________ 0.0000E+00 + Ar_concentration________________________________________________________ (fimp(09))____________________ 0.0000E+00 + Fe_concentration________________________________________________________ (fimp(10))____________________ 0.0000E+00 + Ni_concentration________________________________________________________ (fimp(11))____________________ 0.0000E+00 + Kr_concentration________________________________________________________ (fimp(12))____________________ 0.0000E+00 + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.9603E-04 + W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7149E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5593E+00 + Density_profile_factor__________________________________________________ (alphan)______________________ 1.0000E+00 + Plasma_profile_model____________________________________________________ (ipedestal)___________________ 1 + Density_pedestal_r/a_location___________________________________________ (rhopedn)_____________________ 9.4000E-01 + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.3087E+19 OP + Electron_density_at_pedestal_/_nGW______________________________________ (fgwped_out)__________________ 8.5000E-01 + Temperature_pedestal_r/a_location_______________________________________ (rhopedt)_____________________ 9.4000E-01 + Pedestal_scaling_switch_________________________________________________ (ieped)_______________________ 0 + Electron_temp._pedestal_height_(keV)____________________________________ (teped)_______________________ 5.5000E+00 + Electron_temp._at_separatrix_(keV)______________________________________ (tesep)_______________________ 1.0000E-01 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.7110E+19 + Electron_density_at_separatrix_/_nGW____________________________________ (fgwsep_out)__________________ 5.0000E-01 + Temperature_profile_index_______________________________________________ (alphat)______________________ 1.4500E+00 + Temperature_profile_index_beta__________________________________________ (tbeta)_______________________ 2.0000E+00 + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.3181E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0914E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3054E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0524E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.1016E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6407E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.4220E+19 OP + Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 + Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6674E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6654E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 2.0071E+00 OP + __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.3308E+02 OP + Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.3330E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.3034E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.9340E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.5941E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.5107E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.3131E+01 OP + Synchrotron_wall_reflectivity_factor____________________________________ (ssync)_______________________ 6.0000E-01 + Normalised_minor_radius_defining_'core'_________________________________ (coreradius)__________________ 7.5000E-01 + Fraction_of_core_radiation_subtracted_from_P_L__________________________ (coreradiationfraction)_______ 6.0000E-01 + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 9.1467E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3867E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.3014E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.8500E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.8037E-01 OP + Peaking_factor_for_radiation_wall_load__________________________________ (peakfactrad)_________________ 3.3300E+00 IP + Maximum_permitted_radiation_wall_load_(MW/m^2)__________________________ (maxradwallload)______________ 1.0000E+00 IP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 6.0063E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6654E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0448E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2652E+01 OP + Fraction_of_power_to_the_lower_divertor_________________________________ (ftar)________________________ 1.0000E+00 IP + Outboard_side_heat_flux_decay_length_(m)________________________________ (lambdaio)____________________ 1.5700E-03 OP + Fraction_of_power_on_the_inner_targets__________________________________ (fio)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_inner_target____________________ (fLI)_________________________ 4.1000E-01 OP + Fraction_of_power_incident_on_the_lower_outer_target____________________ (fLO)_________________________ 5.9000E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3387E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9265E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.6591E-01 OP + Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1815E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8185E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4257E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5936E+02 OP + Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5000E+01 OP + Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6326E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0408E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.9840E+00 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2229E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.6932E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.4788E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.0365E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.6304E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.3198E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2205E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.4350E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.4814E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.4900E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.3912E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0153E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.1809E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1594E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7417E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4268E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.2683E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.5737E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.3198E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2205E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.4350E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.3198E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.3198E+01 OP + Confinement_scaling_law_________________________________________________ (tauelaw)_____________________ "IPB98(y,2)" + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.2000E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.1640E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.1640E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.1640E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5446E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.1807E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 3.0193E+02 OP + Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 9.1467E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 1.9687E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.2221E+00 + Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.7894E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.8950E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 2.0806E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.4604E-03 OP + Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.9259E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3165E+02 OP + Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 5.0007E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 3.1093E+02 OP + bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.8714E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.2763E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.6295E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.4499E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.3506E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.2222E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.4036E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.2763E-01 + Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 + Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 4.0161E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 4.0375E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.0148E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.3971E-05 OP + Coefficient_for_sawtooth_effects_on_burn_V-s_requirement________________ (csawth)______________________ 1.0000E+00 + Ratio_of_He_and_pellet_particle_confinement_times_______________________ (tauratio)____________________ 1.0000E+00 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.7644E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.9439E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.5790E-01 + # Energy confinement times, and required H-factors : # + # Current Drive System # + Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 + Ratio_of_power_for_flat-top_to_start-up_(MW)____________________________ (startupratio)________________ 1.0000E+00 + Auxiliary_power_used_for_plasma_heating_only_(MW)_______________________ (pheat)_______________________ 7.5000E+01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 0.0000E+00 + Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.2037E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 0.0000E+00 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6629E-02 OP + Normalised_current_drive_efficiency,_gamma_(10^20_A/W-m2)_______________ (gamcd)_______________________ 3.0000E-01 OP + Wall_plug_to_injector_efficiency________________________________________ (etacd)_______________________ 5.0000E-01 + ECRH_plasma_heating_efficiency__________________________________________ (gamma_ecrh)__________________ 3.0000E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.2763E-01 + Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 + Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 0.0000E+00 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.9990E-01 + Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.0010E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5000E+01 OP + Maximum_allowable_ECRH_power_(MW)_______________________________________ (pinjalw)_____________________ 2.0000E+02 + ECH_wall_plug_efficiency________________________________________________ (etaech)______________________ 5.0000E-01 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.5000E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 6.1139E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8166E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 3.1092E+02 + # Times # + Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6581E+02 + Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.7318E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6581E+02 + Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 1.0374E+04 OP + # Radial Build # + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + TF_coil_radial_placement_switch_________________________________________ (tf_in_cs)____________________ 0 + Machine_bore_(m)________________________________________________________ (bore)________________________ 2.0828E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.4798E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.5654E-02 + CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.4888E-01 ITV + TF_coil_inboard_leg_insulation_gap_(m)__________________________________ (tftsgap)_____________________ 5.0000E-02 + Thermal_shield,_inboard_(m)_____________________________________________ (thshield_ib)_________________ 5.0000E-02 + thermal_shield_to_vessel_radial_gap_(m)_________________________________ (gapds)_______________________ 2.0000E-02 + Inboard_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_in)_____________________ 3.0000E-01 + Inner_radiation_shield_radial_thickness_(m)_____________________________ (shldith)_____________________ 3.0000E-01 + Gap_(m)_________________________________________________________________ (vvblgap)_____________________ 2.0000E-02 + Inboard_blanket_radial_thickness_(m)____________________________________ (blnkith)_____________________ 7.0000E-01 + Inboard_first_wall_radial_thickness_(m)_________________________________ (fwith)_______________________ 1.8000E-02 + Inboard_scrape-off_radial_thickness_(m)_________________________________ (scrapli)_____________________ 2.5000E-01 + Outboard_scrape-off_radial_thickness_(m)________________________________ (scraplo)_____________________ 2.5000E-01 + Outboard_first_wall_radial_thickness_(m)________________________________ (fwoth)_______________________ 1.8000E-02 + Outboard_blanket_radial_thickness_(m)___________________________________ (blnkoth)_____________________ 1.0000E+00 + Outer_radiation_shield_radial_thickness_(m)_____________________________ (shldoth)_____________________ 8.0000E-01 + Outboard_vacuum_vessel_radial_thickness_(m)_____________________________ (d_vv_out)____________________ 3.0000E-01 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.4048E+00 + Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 + Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.4888E-01 + # Vertical Build # + Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 + Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 + Topside_vacuum_vessel_radial_thickness_(m)______________________________ (d_vv_top)____________________ 3.0000E-01 + Top_radiation_shield_thickness_(m)______________________________________ (shldtth)_____________________ 6.0000E-01 + Top_blanket_vertical_thickness_(m)______________________________________ (blnktth)_____________________ 8.5000E-01 + Top_first_wall_vertical_thickness_(m)___________________________________ (fwtth)_______________________ 1.8000E-02 + Top_scrape-off_vertical_thickness_(m)___________________________________ (vgaptop)_____________________ 6.0000E-01 + Plasma_half-height_(m)__________________________________________________ (rminor*kappa)________________ 4.9333E+00 + Bottom_scrape-off_vertical_thickness_(m)________________________________ (vgap)________________________ 2.0019E+00 + Divertor_structure_vertical_thickness_(m)_______________________________ (divfix)______________________ 6.2000E-01 + Bottom_radiation_shield_thickness_(m)___________________________________ (shldlth)_____________________ 7.0000E-01 + Underside_vacuum_vessel_radial_thickness_(m)____________________________ (d_vv_bot)____________________ 3.0000E-01 + External_cryostat_thickness_(m)_________________________________________ (ddwex)_______________________ 1.5000E-01 + Ratio_of_Central_solenoid_height_to_TF_coil_internal_height_____________ (ohhghf)______________________ 9.0000E-01 + Width_of_neutral_beam_duct_where_it_passes_between_the_TF_coils_(m)_____ (beamwd)______________________ 5.8000E-01 + # Divertor build and plasma position # + Plasma_top_position,_radial_(m)_________________________________________ (ptop_radial)_________________ 6.6667E+00 + Plasma_top_position,_vertical_(m)_______________________________________ (ptop_vertical)_______________ 4.9333E+00 + Plasma_geometric_centre,_radial_(m)_____________________________________ (physics_variables.rmajor.)___ 8.0000E+00 + Plasma_geometric_centre,_vertical_(m)___________________________________ (0.0)_________________________ 0.0000E+00 + Plasma_lower_physics_variables.triangularity____________________________ (tril)________________________ 5.0000E-01 + Plasma_elongation_______________________________________________________ (physics_variables.kappa.)____ 1.8500E+00 + TF_coil_vertical_offset_(m)_____________________________________________ (tfoffset)____________________ -6.1694E-01 + Plasma_outer_arc_radius_of_curvature_(m)________________________________ (rco)_________________________ 5.0422E+00 + Plasma_inner_arc_radius_of_curvature_(m)________________________________ (rci)_________________________ 9.7933E+00 + Plasma_lower_X-pt,_radial_(m)___________________________________________ (rxpt)________________________ 6.6667E+00 + Plasma_lower_X-pt,_vertical_(m)_________________________________________ (zxpt)________________________ -4.9333E+00 + Poloidal_plane_angle_between_vertical_and_inner_leg_(rad)_______________ (thetai)______________________ 2.0820E-01 + Poloidal_plane_angle_between_vertical_and_outer_leg_(rad)_______________ (thetao)______________________ 1.0429E+00 + Poloidal_plane_angle_between_inner_leg_and_plate_(rad)__________________ (betai)_______________________ 1.0000E+00 + Poloidal_plane_angle_between_outer_leg_and_plate_(rad)__________________ (betao)_______________________ 1.0000E+00 + Inner_divertor_leg_poloidal_length_(m)__________________________________ (plsepi)______________________ 1.0000E+00 + Outer_divertor_leg_poloidal_length_(m)__________________________________ (plsepo)______________________ 1.5000E+00 + Inner_divertor_plate_length_(m)_________________________________________ (plleni)______________________ 1.0000E+00 + Outer_divertor_plate_length_(m)_________________________________________ (plleno)______________________ 1.0000E+00 + Inner_strike_point,_radial_(m)__________________________________________ (rspi)________________________ 5.6883E+00 + Inner_strike_point,_vertical_(m)________________________________________ (zspi)________________________ -5.1400E+00 + Inner_plate_top,_radial_(m)_____________________________________________ (rplti)_______________________ 5.8656E+00 + Inner_plate_top,_vertical_(m)___________________________________________ (zplti)_______________________ -4.6725E+00 + Inner_plate_bottom,_radial_(m)__________________________________________ (rplbi)_______________________ 5.5109E+00 + Inner_plate_bottom,_vertical_(m)________________________________________ (zplbi)_______________________ -5.6075E+00 + Outer_strike_point,_radial_(m)__________________________________________ (rspo)________________________ 7.4223E+00 + Outer_strike_point,_vertical_(m)________________________________________ (zspo)________________________ -6.2291E+00 + Outer_plate_top,_radial_(m)_____________________________________________ (rplto)_______________________ 7.6496E+00 + Outer_plate_top,_vertical_(m)___________________________________________ (zplto)_______________________ -5.7838E+00 + Outer_plate_bottom,_radial_(m)__________________________________________ (rplbo)_______________________ 7.1949E+00 + Outer_plate_bottom,_vertical_(m)________________________________________ (zplbo)_______________________ -6.6744E+00 + Calculated_maximum_divertor_height_(m)__________________________________ (divht)_______________________ 2.0019E+00 + # TF coils # + Allowable_maximum_shear_stress_in_TF_coil_case_(Tresca_criterion)_(Pa)__ (sig_tf_case_max)_____________ 7.5000E+08 + Allowable_maximum_shear_stress_in_TF_coil_conduit_(Tresca_criterion)_(Pa (sig_tf_wp_max)_______________ 7.5000E+08 + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.4932E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1666E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0407E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1551E-01 OP + Radial____stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_r_max(1))_____________ 0.0000E+00 + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.6614E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.4566E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.2622E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.1181E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.2756E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.5955E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.4566E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.2722E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.0522E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 5.9977E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.5473E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.3695E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.3951E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 4.9168E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.1642E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.1984E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -6.3669E-03 OP + Conductor_technology____________________________________________________ (i_tf_sup)____________________ 1 + Superconductor_material_________________________________________________ (i_tf_sc_mat)_________________ 1 + Presence_of_TF_demountable_joints_______________________________________ (itart)_______________________ 0 + TF_inboard_leg_support_strategy_________________________________________ (i_tf_bucking)________________ 1 + Number_of_TF_coils______________________________________________________ (n_tf)________________________ 16 + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.2009E+00 OP + Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.4888E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.4888E-01 + Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP + Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7776E+01 OP + Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1 + TF_coil_arc_point_0_R_(m)_______________________________________________ (xarc(1))_____________________ 3.6253E+00 + TF_coil_arc_point_0_Z_(m)_______________________________________________ (yarc(1))_____________________ 4.5506E+00 + TF_coil_arc_point_1_R_(m)_______________________________________________ (xarc(2))_____________________ 7.4667E+00 + TF_coil_arc_point_1_Z_(m)_______________________________________________ (yarc(2))_____________________ 7.5843E+00 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4559E+01 + TF_coil_arc_point_2_Z_(m)_______________________________________________ (yarc(3))_____________________ 0.0000E+00 + TF_coil_arc_point_3_R_(m)_______________________________________________ (xarc(4))_____________________ 7.4667E+00 + TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00 + TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00 + TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7073E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2128E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1039E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.1641E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7820E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.2861E-01 + Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5148E-01 ITV + Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1143E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.3842E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8144E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.6775E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1976E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.1046E+00 OP + Ground_wall_insulation_thickness_(m)____________________________________ (tinstf)______________________ 8.0000E-03 + Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.6704E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2606E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8326E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2561E-01 + Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4117E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8398E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6798E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0416E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.1912E-03 ITV + Inter-turn_insulation_thickness_(m)_____________________________________ (thicndut)____________________ 8.0000E-04 + Diameter_of_central_helium_channel_in_cable_____________________________ (dhecoil)_____________________ 1.0000E-02 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6010E-03 + Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5779E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.4221E-01 + Check_total_area_fractions_in_winding_pack_=_1__________________________ ______________________________ 1.0000E+00 + minimum_TF_conductor_temperature_margin__(K)____________________________ (tmargmin_tf)_________________ 1.5000E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5282E+00 + Elastic_properties_behavior_____________________________________________ (i_tf_cond_eyoung_axial)______ 0 + Conductor_axial_Youngs_modulus__________________________________________ (eyoung_cond_axial)___________ 0.0000E+00 + Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00 + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.3149E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2992E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.5488E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2376E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4403E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.6037E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0566E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1502E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0000E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0000E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1928E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5964E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1715E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.0730E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.8621E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 1.8621E+08 OP + inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.1887E+07 OP + Max_allowed_tfcoil_variables.ripple_amplitude_at_plasma_outboard_midplan (ripmax)______________________ 6.0000E-01 + Ripple_amplitude_at_plasma_outboard_midplane_(%)________________________ (ripple)______________________ 6.0000E-01 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.5648E+01 ITV + Vacuum_Vassel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2626E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.8388E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.6802E+00 OP + Maximum_allowed_temp_rise_during_a_quench_(K)___________________________ (tmaxpro)_____________________ 1.5000E+02 + # Superconducting TF Coils # + Superconductor_switch___________________________________________________ (isumat)______________________ 1 + Critical_field_at_zero_temperature_and_strain_(T)_______________________ (bc20m)_______________________ 3.2970E+01 + Critical_temperature_at_zero_field_and_strain_(K)_______________________ (tc0m)________________________ 1.6060E+01 + Helium_temperature_at_peak_field_(=_superconductor_temperature)_(K)_____ (thelium)_____________________ 4.7500E+00 + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4906E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.5779E-01 ITV + Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 1.9399E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 8.1624E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1608E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5472E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5964E+07 OP + Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5282E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2097E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.8545E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.3194E-01 OP + # Central Solenoid and PF Coils # + Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.3986E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5494E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0648E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.7312E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 2.0034E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3987E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.5491E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0647E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.7308E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.1426E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0828E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.4798E-01 ITV + Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.6980E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3540E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0478E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3062E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.3439E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 4.9942E-01 ITV + Switch_for_CS_stress_calculation________________________________________ (i_cs_stress)_________________ 0 + Allowable_stress_in_CS_steel_(Pa)_______________________________________ (alstroh)_____________________ 7.5000E+08 + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 7.4997E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -8.5338E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 7.4997E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.7292E+09 OP + Residual_manufacturing_strain_in_CS_superconductor_material_____________ (tfcoil_variables.str_cs_con_r -5.0000E-03 + Copper_fraction_in_strand_______________________________________________ (fcuohsu)_____________________ 7.0000E-01 + Void_(coolant)_fraction_in_conductor____________________________________ (vfohc)_______________________ 3.0000E-01 + Helium_coolant_temperature_(K)__________________________________________ (tftmp)_______________________ 4.7500E+00 + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5162E+00 OP + Minimum_permitted_temperature_margin_(K)________________________________ (tmargmin_cs)_________________ 1.5000E+00 + Residual_hoop_stress_in_CS_Steel_(Pa)___________________________________ (residual_sig_hoop)___________ 2.4000E+08 + Minimum_burn_time_(s)___________________________________________________ (tbrnmn)______________________ 7.2000E+03 + Initial_vertical_crack_size_(m)_________________________________________ (t_crack_vertical)____________ 8.9000E-04 + Initial_radial_crack_size_(m)___________________________________________ (t_crack_radial)______________ 2.6700E-03 + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.8669E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.4837E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.5116E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.4946E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 4.9612E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 4.9612E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 0.0000E+00 OP + Minimum_number_of_cycles_required_till_CS_fracture______________________ (n_cycle_min)_________________ 2.0000E+04 OP + PF_coil_superconductor_material_________________________________________ (isumatpf)____________________ 3 + Copper_fraction_in_conductor____________________________________________ (fcupfsu)_____________________ 6.9000E-01 + Maximum_permissible_tensile_stress_(MPa)________________________________ (sigpfcalw)___________________ 5.0000E+02 + JxB_hoop_force_fraction_supported_by_case_______________________________ (sigpfcf)_____________________ 6.6600E-01 + PF_coil_0_radius_(m)____________________________________________________ (rpf[0]_______________________ 5.5667E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.2932E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.3112E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.3112E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.7279E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8912E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.8313E+00 + PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0527E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.4145E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.4145E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.5024E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.2010E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 7.3506E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6697E+01 + PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1312E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1312E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9193E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6773E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6312E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6697E+01 + PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1312E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1312E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9193E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6773E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6312E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5170E+01 + PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.1430E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.1430E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3262E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.3046E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5879E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5170E+01 + PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.1430E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.1430E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3262E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.3046E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5879E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3568E+00 + Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.4798E-01 + Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6592E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8637E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.3987E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 4.0197E-04 OP + Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 + # Volt Second Consumption # + Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -6.1000E+02 OP + # Waveforms # + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.3499E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -2.1467E-01 OP + # PF Circuit Waveform Data # + Number_of_PF_circuits_including_CS_and_plasma___________________________ (ncirt)_______________________ 8 + PF_Circuit_0_Time_point_0_(A)___________________________________________ (pfc0t0)______________________ 0.0000E+00 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.4608E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8912E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8912E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ -6.5685E+04 + PF_Circuit_0_Time_point_5_(A)___________________________________________ (pfc0t5)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_0_(A)___________________________________________ (pfc1t0)______________________ 0.0000E+00 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.9113E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.2010E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.2010E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -2.8211E+06 + PF_Circuit_1_Time_point_5_(A)___________________________________________ (pfc1t5)______________________ 0.0000E+00 + PF_Circuit_2_Time_point_0_(A)___________________________________________ (pfc2t0)______________________ -0.0000E+00 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 5.0110E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0263E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0263E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6773E+06 + PF_Circuit_2_Time_point_5_(A)___________________________________________ (pfc2t5)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_0_(A)___________________________________________ (pfc3t0)______________________ -0.0000E+00 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 5.0110E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0263E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0263E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6773E+06 + PF_Circuit_3_Time_point_5_(A)___________________________________________ (pfc3t5)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_0_(A)___________________________________________ (pfc4t0)______________________ -0.0000E+00 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 4.3955E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7336E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7336E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.3046E+06 + PF_Circuit_4_Time_point_5_(A)___________________________________________ (pfc4t5)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_0_(A)___________________________________________ (pfc5t0)______________________ -0.0000E+00 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 4.3955E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7336E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7336E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.3046E+06 + PF_Circuit_5_Time_point_5_(A)___________________________________________ (pfc5t5)______________________ -0.0000E+00 + CS_Circuit_Time_point_0_(A)_____________________________________________ (cs_t0)_______________________ -0.0000E+00 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7425E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 4.0008E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 4.0008E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8637E+08 + CS_Circuit_Time_point_5_(A)_____________________________________________ (cs_t5)_______________________ -0.0000E+00 + Plasma_Time_point_0_(A)_________________________________________________ (plasmat0)____________________ 0.0000E+00 + Plasma_Time_point_1_(A)_________________________________________________ (plasmat1)____________________ 0.0000E+00 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6581E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6581E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6581E+07 + Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 + # Support Structure # + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2786E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 3.9537E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3210E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2329E+06 OP + Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9209E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.5321E+05 OP + # PF Coil Inductances # + # Nuclear Heating Magnets Before Renormalisation # + Shield_line_density_(tonne/m2)__________________________________________ (x_shield)____________________ 4.0560E+00 + Blanket_line_density_(tonne/m2)_________________________________________ (x_blanket)___________________ 2.2911E+00 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3749E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2925E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6674E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0566E+07 + # Pumping for primary coolant (helium) # + Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05 + Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.7159E+03 OP + Inlet_temperature_of_FW_&_blanket_coolant_pump_(K)______________________ (t_in_compressor)_____________ 5.5703E+02 OP + Coolant_pump_outlet/Inlet_temperature_of_FW_&_blanket_(K)_______________ (t_in_bb)_____________________ 5.7313E+02 + Outlet_temperature_of_FW_&_blanket_(K)__________________________________ (t_out_bb)____________________ 7.7313E+02 + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6860E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7157E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2749E-03 OP + # First wall and blanket : CCFE HCPB model # + Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 + Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 + Steel_fraction__________________________________________________________ (fblss_ccfe)__________________ 9.7050E-02 + Coolant_fraction________________________________________________________ (vfcblkt)_____________________ 5.2950E-02 + Purge_gas_fraction______________________________________________________ (vfpblkt)_____________________ 1.0000E-01 + First_Wall_Armour_Volume_(m3)___________________________________________ (fw_armour_vol)_______________ 5.8692E+00 + First_Wall_Volume_(m3)__________________________________________________ (volfw)_______________________ 1.9807E+01 + Blanket_Volume_(m3)_____________________________________________________ (volblkt)_____________________ 1.1849E+03 + Shield_Volume_(m3)______________________________________________________ (volshld)_____________________ 7.8520E+02 + Vacuum_vessel_volume_(m3)_______________________________________________ (vdewin)______________________ 1.0178E+03 + First_Wall_Armour_Mass_(kg)_____________________________________________ (fw_armour_mass)______________ 1.1298E+05 OP + First_Wall_Mass,_excluding_armour_(kg)__________________________________ (fwmass)______________________ 1.5449E+05 OP + Blanket_Mass_-_Total(kg)________________________________________________ (whtblkt)_____________________ 2.9676E+06 OP + ____Blanket_Mass_-_TiBe12_(kg)__________________________________________ (whtbltibe12)_________________ 1.0042E+06 OP + ____Blanket_Mass_-_Li4SiO4_(kg)_________________________________________ (whtblli4sio4)________________ 1.0664E+06 OP + ____Blanket_Mass_-_Steel_(kg)___________________________________________ (whtblss)_____________________ 8.9696E+05 OP + Total_mass_of_armour,_first_wall_and_blanket_(kg)_______________________ (armour_fw_bl_mass)___________ 3.2350E+06 OP + Shield_Mass_(kg)________________________________________________________ (whtshld)_____________________ 2.4498E+06 OP + Vacuum_vessel_mass_(kg)_________________________________________________ (vvmass)______________________ 7.9388E+06 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.3908E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6791E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.3277E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4550E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.5340E+02 OP + Blanket_exponential_factor______________________________________________ (exp_blanket)_________________ 9.9936E-01 OP + Shield:_first_exponential_______________________________________________ (exp_shield1)_________________ 1.9523E-03 OP + Shield:_second_exponential______________________________________________ (exp_shield2)_________________ 2.5427E-01 OP + Solid_angle_fraction_taken_by_on_divertor_______________________________ (fdiv)________________________ 1.1500E-01 + Switch_for_plant_secondary_cycle________________________________________ (secondary_cycle)_____________ 2 + First_wall_coolant_pressure_(Pa)________________________________________ (fwpressure)__________________ 1.5500E+07 + Blanket_coolant_pressure_(Pa)___________________________________________ (blpressure)__________________ 1.5500E+07 + Allowable_nominal_neutron_fluence_at_first_wall_(MW.year/m2)____________ (abktflnc)____________________ 5.0000E+00 + No_of_inboard_blanket_modules_poloidally________________________________ (nblktmodpi)__________________ 7 + No_of_inboard_blanket_modules_toroidally________________________________ (nblktmodti)__________________ 32 + No_of_outboard_blanket_modules_poloidally_______________________________ (nblktmodpo)__________________ 8 + No_of_outboard_blanket_modules_toroidally_______________________________ (nblktmodto)__________________ 48 + Isentropic_efficiency_of_first_wall_/_blanket_coolant_pumps_____________ (etaiso)______________________ 9.0000E-01 + First_wall_area_(m2)____________________________________________________ (fwarea)______________________ 1.6044E+03 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7762E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5280E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6129E+00 OP + Divertor_area_(m2)______________________________________________________ (divsur)______________________ 1.4879E+02 OP + Divertor_mass_(kg)______________________________________________________ (divmas)______________________ 3.6453E+04 OP + # Superconducting TF Coil Power Conversion # + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.8545E+01 OP + Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.6802E+00 OP + TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 2.7371E+01 OP + Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.7288E+02 + Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 + Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.0932E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1428E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.6765E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.5648E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 2.8652E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.2973E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.6639E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 2.9598E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.2594E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.4903E+01 OP + Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.0836E+02 OP + Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1070E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1810E-03 OP + TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.5290E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8121E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.0873E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.6558E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0288E+01 OP + # PF Coils and Central Solenoid: Power and Energy # + Number_of_PF_coil_circuits______________________________________________ (pfckts)______________________ 1.2000E+01 + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 2.9616E+02 OP + Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6734E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6734E+02 OP + Maximum_PF_coil_voltage_(kV)____________________________________________ (vpfskv)______________________ 2.0000E+01 + Efficiency_of_transfer_of_PF_stored_energy_into_or_out_of_storage_______ (etapsu)______________________ 9.0000E-01 + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 3.0868E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.8617E+02 OP + # Vacuum System # + First_wall_outgassing_rate_(Pa_m/s)_____________________________________ (rat)_________________________ 1.3000E-08 + Total_outgassing_load_(Pa_m3/s)_________________________________________ (ogas)________________________ 1.6691E-04 OP + Base_pressure_required_(Pa)_____________________________________________ (pbase)_______________________ 5.0000E-04 + Required_N2_pump_speed_(m3/s)___________________________________________ (s(1))________________________ 3.3381E-01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.7041E+01 OP + Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6648E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6648E-03 + Allowable_pumping_time_switch___________________________________________ (dwell_pump)__________________ 0 + Dwell_time_between_burns_(s)____________________________________________ (tdwell.)_____________________ 1.8000E+03 + CS_ramp-up_time_burns_(s)_______________________________________________ (tramp.)______________________ 5.0000E+02 + Allowable_pumping_time_between_burns_(s)________________________________ (tpump)_______________________ 1.8000E+03 + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(2))________________________ 5.7790E+00 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 6.5622E+01 OP + Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.5732E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 4.3279E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 4.3279E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 3.1255E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 4.3279E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 6.5622E+01 OP + Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 5.0552E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6489E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 6.0663E-01 OP + Duct_length,_divertor_to_elbow_(m)______________________________________ (l2)__________________________ 4.8000E+00 OP + Duct_length,_elbow_to_pumps_(m)_________________________________________ (l3)__________________________ 2.0000E+00 + Number_of_pumps_________________________________________________________ (pumpn)_______________________ 3.4623E+01 OP + # Plant Buildings System # + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.8717E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9394E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3477E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1202E+06 + Reactor_maintenance_building_volume_(m3)________________________________ (rmbv)________________________ 3.9641E+05 + Warmshop_volume_(m3)____________________________________________________ (wsv)_________________________ 1.2531E+05 + Tritium_building_volume_(m3)____________________________________________ (triv)________________________ 4.0000E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.1873E+04 + Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4864E+04 + Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 + Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5638E+06 + # Electric Power Requirements # + Facility_base_load_(MW)_________________________________________________ (basemw)______________________ 5.0000E+00 + Divertor_coil_power_supplies_(MW)_______________________________________ (bdvmw)_______________________ 0.0000E+00 + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6020E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9577E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 7.2799E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0288E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5000E+02 OP + Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 + Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3559E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5216E+01 OP + # Cryogenics # + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4280E-02 OP + Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8234E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9267E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2667E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3038E-02 OP + Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00 + Temperature_of_cryogenic_aluminium_components_(K)_______________________ (tcoolin)_____________________ 3.1315E+02 + Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP + Efficiency_(figure_of_merit)_of_cryogenic_aluminium_plant_is_40%_of_idea ______________________________ -2.0203E+00 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6020E+01 OP + # Plant Power / Heat Transport Balance # + Neutron_power_multiplication_in_blanket_________________________________ (emult)_______________________ 1.2690E+00 + Divertor_area_fraction_of_whole_toroid_surface__________________________ (fdiv)________________________ 1.1500E-01 + H/CD_apparatus_+_diagnostics_area_fraction______________________________ (fhcd)________________________ 0.0000E+00 + First_wall_area_fraction________________________________________________ (1-fdiv-fhcd)_________________ 8.8500E-01 + Switch_for_pumping_of_primary_coolant___________________________________ (primary_pumping)_____________ 3 + Mechanical_pumping_power_for_FW_cooling_loop_including_heat_exchanger_(M (htpmw_fw)____________________ 0.0000E+00 OP + Mechanical_pumping_power_for_blanket_cooling_loop_including_heat_exchang (htpmw_blkt)__________________ 0.0000E+00 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6860E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.7157E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.2749E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.9379E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.3620E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9720E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9577E+02 OP + Coolant_pump_power_/_non-pumping_thermal_power_in_shield________________ (fpumpshld)___________________ 5.0000E-03 + Coolant_pump_power_/_non-pumping_thermal_power_in_divertor______________ (fpumpdiv)____________________ 5.0000E-03 + Electrical_efficiency_of_heat_transport_coolant_pumps___________________ (etahtp)______________________ 8.7000E-01 + Thermal_to_electric_conversion_efficiency_of_the_power_conversion_cycle_ (etath)_______________________ 4.0000E-01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5458E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0623E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6020E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5216E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.5450E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5000E+01 + Heat_removal_from_tritium_plant_(MW)____________________________________ (trithtmw)____________________ 1.5000E+01 + Heat_removal_from_vacuum_pumps_(MW)_____________________________________ (vachtmw)_____________________ 5.0000E-01 + TF_coil_resistive_power_(MW)____________________________________________ (tfcmw)_______________________ 0.0000E+00 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.1874E+02 + Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.2308E+03 + Number_of_primary_heat_exchangers_______________________________________ (nphx)________________________ 3 OP + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 3.0193E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 9.1467E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.9340E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.1643E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.3034E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.6591E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5000E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.9340E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6674E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1735E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5000E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.6591E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.7032E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.2308E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8845E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4623E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.4485E+02 + Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.3908E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.2309E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.2830E+02 + Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5000E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9577E+02 + Electric_power_for_vacuum_pumps_(MW)____________________________________ (vachtmw)_____________________ 5.0000E-01 + Electric_power_for_tritium_plant_(MW)___________________________________ (trithtmw)____________________ 1.5000E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6020E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0288E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2451E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5216E+01 + Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.9234E+02 + Total_(MW)______________________________________________________________ ______________________________ 8.9234E+02 + Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.9234E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6674E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.1735E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9848E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.2830E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3385E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1874E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9855E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1579E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5686E+01 + Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.2003E-01 + # Water usage during plant operation (secondary cooling) # + Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.6906E+04 OP + Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.9093E+04 OP + Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.8711E+06 OP + # Errors and Warnings # + # Errors and Warnings # + PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 + Final_error_identifier__________________________________________________ (error_id)____________________ 244 + # End of PROCESS Output # + # End of PROCESS Output # + # Copy of PROCESS Input Follows # +************************************************************************************************************************ +***** ***** +***** Generic large tokamak file ***** +***** James Morris, UKAEA ***** +***** 28/06/23 ***** +***** ***** +************************************************************************* + + +* Run Information * +******************* + +runtitle = Generic large tokamak + +* Figure of merit - minimise major radius +minmax = 1 + +* Error tolerance for VMCON +epsvmc = 1e-7 + +*------------------Scan Variables------------------* +scan_dim = 2 +nsweep = 9 +nsweep_2 = 28 +isweep = 5 +isweep_2 = 3 +sweep = 12.1,12.2,12.3,12.4,12.5 +sweep_2 = 5.2,5.1,5.0 + +* Constraint Equations - Consistency Equations * +************************************************ + +* Beta consistency * +*------------------* +icc = 1 +ixc = 5 * beta +beta = 0.03 + +* Global power balance * +*----------------------* +icc = 2 + +* Radial build consistency * +*--------------------------* +icc = 11 + +* Constraint Equations - Limit Equations * +****************************************** + +* Density upper limit * +*---------------------* +icc = 5 +ixc = 6 * dene [m-3] +fdene = 1.2 +dene = 7.5E19 + +* Neutron wall load upper limit * +*-------------------------------* +icc = 8 +ixc = 14 * fwalld +fwalld = 1.0 +* wall load limit [MW/m2] +walalw = 2.0 + +* Fusion power upper limit * +*--------------------------* + +icc = 9 +ixc = 26 * ffuspow +boundl(26) = 0.01 +boundu(26) = 2.0 +* Maximum allowable value fusion power [MW] +powfmax = 3000 + +* Burn time lower limit * +*-----------------------* +icc = 13 +ixc = 21 * ftburn +* minimum burn time [s] +tbrnmn = 7200.0 + +* L-H threshold scaling * +*-----------------------* +icc = 15 +ixc = 103 * flhthresh +boundu(103) = 10.0 + +* Injection power upper limit * +*-----------------------------* +icc = 30 +ixc = 46 * fpinj +* Maximum allowable value for injected power [MW] +pinjalw = 200.0 + +* Net electric power lower limit * +*--------------------------------* +icc = 16 +ixc = 25 * fpnetel +* Minimum allowable value for net eletric power [MW] +pnetelin = 400.0 + +* Beta upper limit * +*------------------* +icc = 24 +ixc = 36 * fbetatry +fbetatry = 0.5 + +* Max TF field * +*--------------* +icc = 25 +ixc = 35 * fpeakb +* Maximum allowable value for toroidal magnetic field [T] +bmxlim = 14.0 + +* Central solenoid EOF current density upper limit * +*--------------------------------------------------* +icc = 26 +ixc = 37 * coheof [A/m2] +ixc = 38 * fjohc +boundu(38) = 1.0 +coheof = 1.5E7 +fjohc = 0.6 + +* Central solenoid BOP current density upper limit * +*--------------------------------------------------* +icc = 27 +ixc = 39 * fjohc0 +ixc = 41 * fcohbop +boundu(39) = 1.0 +fjohc0 = 0.6 +fcohbop = 0.9 + +* I_op/I_Crit TF coil limit * +*---------------------------* +icc = 33 +ixc = 50 * fiooic +boundu(50) = 1.0 +fiooic = 0.65 + +* Dump voltage upper limit * +*--------------------------* +icc = 34 +ixc = 51 * fvdump +ixc = 52 * vdalw [kV] +boundu(52) = 10.0 +fvdump = 1.0 +vdalw = 10.0 + +* J_winding pack protection * +*---------------------------* +icc = 35 +ixc = 53 * fjprot +fjprot = 1.0 + +* TF temp marg lower limit * +*--------------------------* +icc = 36 +ixc = 54 * ftmargtf +* Minimum allowable temperature margin [K] +tmargmin = 1.5 + +* CS coil temp margin lower limit * +*---------------------------------* +icc = 60 +ixc = 106 * ftmargoh +tmargmin_cs = 1.5 + +* Lower limit on taup/taueff (ratio alpha particle/energy confinement times) * +*-------------------------------------------------------------------------------* +icc = 62 +ixc = 110 * ftaulimit +taulimit = 5.0 + +* dump time constraint for VV stresses * +*--------------------------------------* +icc = 65 +ixc = 113 * fmaxvvstress +fmaxvvstress = 1.0 + +* CS stress limit * +*-----------------* +icc = 72 +ixc = 123 * foh_stress +foh_stress = 1.0 +* allowable hoop stress in Central Solenoid structural material [Pa] +alstroh = 7.5D8 + +* neped