diff --git a/source/fortran/constraint_equations.f90 b/source/fortran/constraint_equations.f90 index 90a4d4ef02..c8d75d7724 100755 --- a/source/fortran/constraint_equations.f90 +++ b/source/fortran/constraint_equations.f90 @@ -1508,9 +1508,9 @@ subroutine constraint_eqn_030(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units) character(len=1), intent(out) :: tmp_symbol character(len=10), intent(out) :: tmp_units - tmp_cc = 1.0D0 - pinjmw / (fpinj * pinjalw) + tmp_cc = 1.0D0 - fpinj*pinjalw/pinjmw tmp_con = pinjalw - tmp_err = pinjalw - pinjmw * fpinj + tmp_err = pinjalw - pinjmw / fpinj tmp_symbol = '<' tmp_units = 'MW' @@ -2859,7 +2859,7 @@ subroutine constraint_eqn_075(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units) !! #=#=# f_coppera_m2, copperA_m2_max !! and hence also optional here. !! Logic change during pre-factoring: err, symbol, units will be assigned only if present. - !! copperA_m2 : input real : TF coil current / copper area (A/m2) + !! copperA_m2 : input real : TF coil current / copper area (A/m2) !! copperA_m2_max : input real : Maximum TF coil current / copper area (A/m2) !! f_coppera_m2 : input real : f-value for TF coil current / copper area < copperA_m2_max use rebco_variables, only: copperA_m2, copperA_m2_max, f_coppera_m2 diff --git a/tests/regression/scenarios/large-tokamak/ref.MFILE.DAT b/tests/regression/scenarios/large-tokamak/ref.MFILE.DAT index c7e9b746d6..26e80f720d 100644 --- a/tests/regression/scenarios/large-tokamak/ref.MFILE.DAT +++ b/tests/regression/scenarios/large-tokamak/ref.MFILE.DAT @@ -2,15 +2,15 @@ # Power Reactor Optimisation Code # # PROCESS # # Power Reactor Optimisation Code # - PROCESS_version_number__________________________________________________ (procver)_____________________ "3.0.1 R" - Date_of_run_____________________________________________________________ (date)________________________ "31/01/2024" - Time_of_run_____________________________________________________________ (time)________________________ "13:28" + PROCESS_version_number__________________________________________________ (procver)_____________________ "3.0.2 R" + Date_of_run_____________________________________________________________ (date)________________________ "08/02/2024" + Time_of_run_____________________________________________________________ (time)________________________ "10:56" User____________________________________________________________________ (username)____________________ "timothyn" PROCESS_run_title_______________________________________________________ (runtitle)____________________ "Generic large tokamak - PROCESS_tag_number______________________________________________________ (tagno)_______________________ "v3.0.1-41-gc698cd140" - PROCESS_git_branch_name_________________________________________________ (branch_name)_________________ "convert-physics-to-python" - PROCESS_last_commit_message_____________________________________________ (commsg)______________________ "Convert Physics.f90 to Python" - Input_filename__________________________________________________________ (fileprefix)__________________ "/private/var/folders/2c/5k4t0wm94jxdmnqwdvn_h59r0000gq/T/pytest-of-timothynunn/pytest-45/test_scenario_large_tokamak_0/IN.DAT " + PROCESS_tag_number______________________________________________________ (tagno)_______________________ "v3.0.2-7-gec9530fb1" + PROCESS_git_branch_name_________________________________________________ (branch_name)_________________ "3033-inequality-constraint-for-injected-power-coded-with-the-wrong-signbug" + PROCESS_last_commit_message_____________________________________________ (commsg)______________________ "Merge branch |main| into 3033-inequality-constraint-for-injected-power-coded-with-the-wrong-signbug + Input_filename__________________________________________________________ (fileprefix)__________________ "/private/var/folders/2c/5k4t0wm94jxdmnqwdvn_h59r0000gq/T/pytest-of-timothynunn/pytest-56/test_scenario_large_tokamak_0/IN.DAT " # Numerics # VMCON_error_flag________________________________________________________ (ifail)_______________________ 1 # PROCESS found a feasible solution # @@ -18,192 +18,192 @@ 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)_____________________ 5.3805E-05 OP + Square_root_of_the_sum_of_squares_of_the_constraint_residuals___________ (sqsumsq)_____________________ 1.8713E-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)____________________ 3.4120E-02 - beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.1373E+00 - beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.3154E-02 - dene____________________________________________________________________ (itvar002)____________________ 8.0594E+19 - dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 1.0746E+00 - dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.1307E-02 - fwalld__________________________________________________________________ (itvar003)____________________ 5.0034E-01 - fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 5.0034E-01 - fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 4.9984E-01 - ffuspow_________________________________________________________________ (itvar004)____________________ 5.3236E-01 - ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 5.3236E-01 - ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 5.3189E-01 - ftburn__________________________________________________________________ (itvar005)____________________ 9.9849E-01 - ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.9849E-01 - ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.9849E-01 - flhthresh_______________________________________________________________ (itvar006)____________________ 1.6284E+00 - flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.6284E+00 - flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 6.9821E-02 - fpinj___________________________________________________________________ (itvar007)____________________ 3.7699E-01 - fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 3.7699E-01 - fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 3.7637E-01 + beta____________________________________________________________________ (itvar001)____________________ 3.3648E-02 + beta_(final_value/initial_value)________________________________________ (xcm001)______________________ 1.1216E+00 + beta_(range_normalised)_________________________________________________ (nitvar001)___________________ 3.2681E-02 + dene____________________________________________________________________ (itvar002)____________________ 8.0667E+19 + dene_(final_value/initial_value)________________________________________ (xcm002)______________________ 1.0756E+00 + dene_(range_normalised)_________________________________________________ (nitvar002)___________________ 7.1381E-02 + fwalld__________________________________________________________________ (itvar003)____________________ 5.0758E-01 + fwalld_(final_value/initial_value)______________________________________ (xcm003)______________________ 5.0758E-01 + fwalld_(range_normalised)_______________________________________________ (nitvar003)___________________ 5.0709E-01 + ffuspow_________________________________________________________________ (itvar004)____________________ 5.4006E-01 + ffuspow_(final_value/initial_value)_____________________________________ (xcm004)______________________ 5.4006E-01 + ffuspow_(range_normalised)______________________________________________ (nitvar004)___________________ 5.3960E-01 + ftburn__________________________________________________________________ (itvar005)____________________ 9.9940E-01 + ftburn_(final_value/initial_value)______________________________________ (xcm005)______________________ 9.9940E-01 + ftburn_(range_normalised)_______________________________________________ (nitvar005)___________________ 9.9940E-01 + flhthresh_______________________________________________________________ (itvar006)____________________ 1.6735E+00 + flhthresh_(final_value/initial_value)___________________________________ (xcm006)______________________ 1.6735E+00 + flhthresh_(range_normalised)____________________________________________ (nitvar006)___________________ 7.4836E-02 + fpinj___________________________________________________________________ (itvar007)____________________ 4.0071E-01 + fpinj_(final_value/initial_value)_______________________________________ (xcm007)______________________ 4.0071E-01 + fpinj_(range_normalised)________________________________________________ (nitvar007)___________________ 4.0011E-01 fpnetel_________________________________________________________________ (itvar008)____________________ 1.0000E+00 fpnetel_(final_value/initial_value)_____________________________________ (xcm008)______________________ 1.0000E+00 fpnetel_(range_normalised)______________________________________________ (nitvar008)___________________ 1.0000E+00 - fbetatry________________________________________________________________ (itvar009)____________________ 5.1462E-01 - fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0292E+00 - fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.1414E-01 - fpeakb__________________________________________________________________ (itvar010)____________________ 8.6061E-01 - fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 8.6061E-01 - fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.6047E-01 - coheof__________________________________________________________________ (itvar011)____________________ 2.0403E+07 - coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 1.3602E+00 - coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.0323E-01 - fjohc___________________________________________________________________ (itvar012)____________________ 5.0665E-01 - fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 8.4442E-01 - fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.0167E-01 - fjohc0__________________________________________________________________ (itvar013)____________________ 5.5864E-01 - fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 9.3106E-01 - fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.5820E-01 - fcohbop_________________________________________________________________ (itvar014)____________________ 9.6866E-01 - fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 1.0763E+00 - fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.6863E-01 - fiooic__________________________________________________________________ (itvar015)____________________ 7.1738E-01 - fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.1037E+00 + fbetatry________________________________________________________________ (itvar009)____________________ 5.0870E-01 + fbetatry_(final_value/initial_value)____________________________________ (xcm009)______________________ 1.0174E+00 + fbetatry_(range_normalised)_____________________________________________ (nitvar009)___________________ 5.0821E-01 + fpeakb__________________________________________________________________ (itvar010)____________________ 8.6988E-01 + fpeakb_(final_value/initial_value)______________________________________ (xcm010)______________________ 8.6988E-01 + fpeakb_(range_normalised)_______________________________________________ (nitvar010)___________________ 8.6975E-01 + coheof__________________________________________________________________ (itvar011)____________________ 2.0264E+07 + coheof_(final_value/initial_value)______________________________________ (xcm011)______________________ 1.3510E+00 + coheof_(range_normalised)_______________________________________________ (nitvar011)___________________ 2.0185E-01 + fjohc___________________________________________________________________ (itvar012)____________________ 5.5541E-01 + fjohc_(final_value/initial_value)_______________________________________ (xcm012)______________________ 9.2569E-01 + fjohc_(range_normalised)________________________________________________ (nitvar012)___________________ 5.5092E-01 + fjohc0__________________________________________________________________ (itvar013)____________________ 5.4190E-01 + fjohc0_(final_value/initial_value)______________________________________ (xcm013)______________________ 9.0316E-01 + fjohc0_(range_normalised)_______________________________________________ (nitvar013)___________________ 5.4144E-01 + fcohbop_________________________________________________________________ (itvar014)____________________ 9.4380E-01 + fcohbop_(final_value/initial_value)_____________________________________ (xcm014)______________________ 1.0487E+00 + fcohbop_(range_normalised)______________________________________________ (nitvar014)___________________ 9.4374E-01 + fiooic__________________________________________________________________ (itvar015)____________________ 7.1737E-01 + fiooic_(final_value/initial_value)______________________________________ (xcm015)______________________ 1.1036E+00 fiooic_(range_normalised)_______________________________________________ (nitvar015)___________________ 7.1709E-01 - fvdump__________________________________________________________________ (itvar016)____________________ 9.9851E-01 - fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.9851E-01 - fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.9851E-01 - vdalw___________________________________________________________________ (itvar017)____________________ 9.9851E+00 - vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.9851E-01 - vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.9851E-01 - fjprot__________________________________________________________________ (itvar018)____________________ 9.9818E-01 - fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.9818E-01 - fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.9818E-01 - ftmargtf________________________________________________________________ (itvar019)____________________ 9.8389E-01 - ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.8389E-01 - ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.8388E-01 - ftmargoh________________________________________________________________ (itvar020)____________________ 9.9869E-01 - ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9869E-01 - ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9868E-01 - ftaulimit_______________________________________________________________ (itvar021)____________________ 7.1296E-01 - ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 7.1296E-01 - ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 7.1268E-01 - fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.3859E-01 - fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 4.3859E-01 - fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.3803E-01 - foh_stress______________________________________________________________ (itvar023)____________________ 9.2954E-01 - foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 9.2954E-01 - foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.2947E-01 + fvdump__________________________________________________________________ (itvar016)____________________ 9.5837E-01 + fvdump_(final_value/initial_value)______________________________________ (xcm016)______________________ 9.5837E-01 + fvdump_(range_normalised)_______________________________________________ (nitvar016)___________________ 9.5833E-01 + vdalw___________________________________________________________________ (itvar017)____________________ 9.5837E+00 + vdalw_(final_value/initial_value)_______________________________________ (xcm017)______________________ 9.5837E-01 + vdalw_(range_normalised)________________________________________________ (nitvar017)___________________ 9.5837E-01 + fjprot__________________________________________________________________ (itvar018)____________________ 9.9639E-01 + fjprot_(final_value/initial_value)______________________________________ (xcm018)______________________ 9.9639E-01 + fjprot_(range_normalised)_______________________________________________ (nitvar018)___________________ 9.9639E-01 + ftmargtf________________________________________________________________ (itvar019)____________________ 9.9673E-01 + ftmargtf_(final_value/initial_value)____________________________________ (xcm019)______________________ 9.9673E-01 + ftmargtf_(range_normalised)_____________________________________________ (nitvar019)___________________ 9.9672E-01 + ftmargoh________________________________________________________________ (itvar020)____________________ 9.9653E-01 + ftmargoh_(final_value/initial_value)____________________________________ (xcm020)______________________ 9.9653E-01 + ftmargoh_(range_normalised)_____________________________________________ (nitvar020)___________________ 9.9652E-01 + ftaulimit_______________________________________________________________ (itvar021)____________________ 7.1930E-01 + ftaulimit_(final_value/initial_value)___________________________________ (xcm021)______________________ 7.1930E-01 + ftaulimit_(range_normalised)____________________________________________ (nitvar021)___________________ 7.1902E-01 + fmaxvvstress____________________________________________________________ (itvar022)____________________ 4.2966E-01 + fmaxvvstress_(final_value/initial_value)________________________________ (xcm022)______________________ 4.2966E-01 + fmaxvvstress_(range_normalised)_________________________________________ (nitvar022)___________________ 4.2909E-01 + foh_stress______________________________________________________________ (itvar023)____________________ 9.0092E-01 + foh_stress_(final_value/initial_value)__________________________________ (xcm023)______________________ 9.0092E-01 + foh_stress_(range_normalised)___________________________________________ (nitvar023)___________________ 9.0082E-01 fne0____________________________________________________________________ (itvar024)____________________ 5.9638E-01 fne0_(final_value/initial_value)________________________________________ (xcm024)______________________ 5.9638E-01 fne0_(range_normalised)_________________________________________________ (nitvar024)___________________ 5.9598E-01 - fpsepbqar_______________________________________________________________ (itvar025)____________________ 9.6274E-01 - fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 9.6274E-01 - fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 9.6271E-01 - fstrcase________________________________________________________________ (itvar026)____________________ 9.9838E-01 - fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.9838E-01 - fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.9838E-01 - fstrcond________________________________________________________________ (itvar027)____________________ 8.4907E-01 - fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 8.4907E-01 - fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.4892E-01 - bt______________________________________________________________________ (itvar028)____________________ 5.2376E+00 - bt_(final_value/initial_value)__________________________________________ (xcm028)______________________ 9.1887E-01 - bt_(range_normalised)___________________________________________________ (nitvar028)___________________ 1.7431E-01 + fpsepbqar_______________________________________________________________ (itvar025)____________________ 1.0000E+00 + fpsepbqar_(final_value/initial_value)___________________________________ (xcm025)______________________ 1.0000E+00 + fpsepbqar_(range_normalised)____________________________________________ (nitvar025)___________________ 1.0000E+00 + fstrcase________________________________________________________________ (itvar026)____________________ 9.9670E-01 + fstrcase_(final_value/initial_value)____________________________________ (xcm026)______________________ 9.9670E-01 + fstrcase_(range_normalised)_____________________________________________ (nitvar026)___________________ 9.9670E-01 + fstrcond________________________________________________________________ (itvar027)____________________ 8.5185E-01 + fstrcond_(final_value/initial_value)____________________________________ (xcm027)______________________ 8.5185E-01 + fstrcond_(range_normalised)_____________________________________________ (nitvar027)___________________ 8.5171E-01 + bt______________________________________________________________________ (itvar028)____________________ 5.2940E+00 + bt_(final_value/initial_value)__________________________________________ (xcm028)______________________ 9.2877E-01 + bt_(range_normalised)___________________________________________________ (nitvar028)___________________ 1.7619E-01 rmajor__________________________________________________________________ (itvar029)____________________ 8.0000E+00 rmajor_(final_value/initial_value)______________________________________ (xcm029)______________________ 1.0000E+00 rmajor_(range_normalised)_______________________________________________ (nitvar029)___________________ 0.0000E+00 - te______________________________________________________________________ (itvar030)____________________ 1.2437E+01 - te_(final_value/initial_value)__________________________________________ (xcm030)______________________ 1.0364E+00 - te_(range_normalised)___________________________________________________ (nitvar030)___________________ 7.3355E-02 - hfact___________________________________________________________________ (itvar031)____________________ 1.1947E+00 - hfact_(final_value/initial_value)_______________________________________ (xcm031)______________________ 1.0861E+00 - hfact_(range_normalised)________________________________________________ (nitvar031)___________________ 9.9517E-01 + te______________________________________________________________________ (itvar030)____________________ 1.2489E+01 + te_(final_value/initial_value)__________________________________________ (xcm030)______________________ 1.0407E+00 + te_(range_normalised)___________________________________________________ (nitvar030)___________________ 7.3903E-02 + hfact___________________________________________________________________ (itvar031)____________________ 1.1886E+00 + hfact_(final_value/initial_value)_______________________________________ (xcm031)______________________ 1.0805E+00 + hfact_(range_normalised)________________________________________________ (nitvar031)___________________ 9.8961E-01 tfcth___________________________________________________________________ (itvar032)____________________ 1.2000E+00 tfcth_(final_value/initial_value)_______________________________________ (xcm032)______________________ 1.0000E+00 tfcth_(range_normalised)________________________________________________ (nitvar032)___________________ 1.1628E-01 - ohcth___________________________________________________________________ (itvar033)____________________ 5.5625E-01 - ohcth_(final_value/initial_value)_______________________________________ (xcm033)______________________ 1.1125E+00 - ohcth_(range_normalised)________________________________________________ (nitvar033)___________________ 2.6417E-02 - q_______________________________________________________________________ (itvar034)____________________ 3.5610E+00 - q_(final_value/initial_value)___________________________________________ (xcm034)______________________ 1.0174E+00 - q_(range_normalised)____________________________________________________ (nitvar034)___________________ 1.1936E-02 - bore____________________________________________________________________ (itvar035)____________________ 2.0251E+00 - bore_(final_value/initial_value)________________________________________ (xcm035)______________________ 1.0126E+00 - bore_(range_normalised)_________________________________________________ (nitvar035)___________________ 1.9446E-01 - fvsbrnni________________________________________________________________ (itvar036)____________________ 4.1997E-01 - fvsbrnni_(final_value/initial_value)____________________________________ (xcm036)______________________ 1.0499E+00 - fvsbrnni_(range_normalised)_____________________________________________ (nitvar036)___________________ 4.1938E-01 - tdmptf__________________________________________________________________ (itvar037)____________________ 1.7534E+01 - tdmptf_(final_value/initial_value)______________________________________ (xcm037)______________________ 7.0135E-01 - tdmptf_(range_normalised)_______________________________________________ (nitvar037)___________________ 1.7451E-01 - thkcas__________________________________________________________________ (itvar038)____________________ 2.6741E-01 - thkcas_(final_value/initial_value)______________________________________ (xcm038)______________________ 5.3481E-01 - thkcas_(range_normalised)_______________________________________________ (nitvar038)___________________ 2.2885E-01 - thwcndut________________________________________________________________ (itvar039)____________________ 8.0091E-03 - thwcndut_(final_value/initial_value)____________________________________ (xcm039)______________________ 1.0011E+00 - thwcndut_(range_normalised)_____________________________________________ (nitvar039)___________________ 9.9068E-05 - fcutfsu_________________________________________________________________ (itvar040)____________________ 8.4176E-01 - fcutfsu_(final_value/initial_value)_____________________________________ (xcm040)______________________ 1.0522E+00 - fcutfsu_(range_normalised)______________________________________________ (nitvar040)___________________ 7.7673E-01 - cpttf___________________________________________________________________ (itvar041)____________________ 8.4815E+04 - cpttf_(final_value/initial_value)_______________________________________ (xcm041)______________________ 1.3048E+00 - cpttf_(range_normalised)________________________________________________ (nitvar041)___________________ 7.9260E-01 - ralpne__________________________________________________________________ (itvar042)____________________ 8.5281E-02 - ralpne_(final_value/initial_value)______________________________________ (xcm042)______________________ 8.5281E-01 - ralpne_(range_normalised)_______________________________________________ (nitvar042)___________________ 7.0562E-01 - oh_steel_frac___________________________________________________________ (itvar043)____________________ 5.2166E-01 - oh_steel_frac_(final_value/initial_value)_______________________________ (xcm043)______________________ 6.5207E-01 - oh_steel_frac_(range_normalised)________________________________________ (nitvar043)___________________ 5.4864E-01 - fimp(13)________________________________________________________________ (itvar044)____________________ 5.6341E-04 - fimp(13)_(final_value/initial_value)____________________________________ (xcm044)______________________ 1.4826E+00 - fimp(13)_(range_normalised)_____________________________________________ (nitvar044)___________________ 5.6340E-02 - dr_tf_wp________________________________________________________________ (itvar045)____________________ 4.9973E-01 - dr_tf_wp_(final_value/initial_value)____________________________________ (xcm045)______________________ 9.9945E-01 - dr_tf_wp_(range_normalised)_____________________________________________ (nitvar045)___________________ 6.2329E-02 - Beta_consistency__________________normalised_residue____________________ (normres001)__________________ 1.5917E-08 - Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ 1.3192E-07 - Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ 4.1783E-10 - Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 3.3764E-08 - Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 3.0867E-07 - Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 3.2827E-07 - Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ -6.4872E-05 - L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -7.3515E-07 - Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ 8.9159E-08 - Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ 8.7522E-06 - Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ -2.5620E-08 - Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ -1.7419E-08 - CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ -3.4768E-08 - CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ -3.1882E-08 - I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -4.4579E-07 - Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ -5.2052E-08 - J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -6.3741E-08 - TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -1.3486E-06 - CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ -2.6193E-08 - taup/taueff_______________________normalised_residue____________________ (normres020)__________________ 1.5765E-07 - Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ -1.3625E-07 - CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ -4.4229E-08 - ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -4.3315E-08 - Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 7.3919E-07 - TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -1.2835E-07 - TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -1.1371E-07 + ohcth___________________________________________________________________ (itvar033)____________________ 5.7587E-01 + ohcth_(final_value/initial_value)_______________________________________ (xcm033)______________________ 1.1517E+00 + ohcth_(range_normalised)________________________________________________ (nitvar033)___________________ 2.8441E-02 + q_______________________________________________________________________ (itvar034)____________________ 3.5961E+00 + q_(final_value/initial_value)___________________________________________ (xcm034)______________________ 1.0275E+00 + q_(range_normalised)____________________________________________________ (nitvar034)___________________ 1.2684E-02 + bore____________________________________________________________________ (itvar035)____________________ 1.9854E+00 + bore_(final_value/initial_value)________________________________________ (xcm035)______________________ 9.9271E-01 + bore_(range_normalised)_________________________________________________ (nitvar035)___________________ 1.9045E-01 + fvsbrnni________________________________________________________________ (itvar036)____________________ 4.3358E-01 + fvsbrnni_(final_value/initial_value)____________________________________ (xcm036)______________________ 1.0839E+00 + fvsbrnni_(range_normalised)_____________________________________________ (nitvar036)___________________ 4.3301E-01 + tdmptf__________________________________________________________________ (itvar037)____________________ 1.8429E+01 + tdmptf_(final_value/initial_value)______________________________________ (xcm037)______________________ 7.3716E-01 + tdmptf_(range_normalised)_______________________________________________ (nitvar037)___________________ 1.8347E-01 + thkcas__________________________________________________________________ (itvar038)____________________ 2.8216E-01 + thkcas_(final_value/initial_value)______________________________________ (xcm038)______________________ 5.6431E-01 + thkcas_(range_normalised)_______________________________________________ (nitvar038)___________________ 2.4437E-01 + thwcndut________________________________________________________________ (itvar039)____________________ 8.0099E-03 + thwcndut_(final_value/initial_value)____________________________________ (xcm039)______________________ 1.0012E+00 + thwcndut_(range_normalised)_____________________________________________ (nitvar039)___________________ 1.0716E-04 + fcutfsu_________________________________________________________________ (itvar040)____________________ 8.4212E-01 + fcutfsu_(final_value/initial_value)_____________________________________ (xcm040)______________________ 1.0526E+00 + fcutfsu_(range_normalised)______________________________________________ (nitvar040)___________________ 7.7755E-01 + cpttf___________________________________________________________________ (itvar041)____________________ 8.9795E+04 + cpttf_(final_value/initial_value)_______________________________________ (xcm041)______________________ 1.3815E+00 + cpttf_(range_normalised)________________________________________________ (nitvar041)___________________ 9.9182E-01 + ralpne__________________________________________________________________ (itvar042)____________________ 8.3954E-02 + ralpne_(final_value/initial_value)______________________________________ (xcm042)______________________ 8.3954E-01 + ralpne_(range_normalised)_______________________________________________ (nitvar042)___________________ 6.7908E-01 + oh_steel_frac___________________________________________________________ (itvar043)____________________ 5.1868E-01 + oh_steel_frac_(final_value/initial_value)_______________________________ (xcm043)______________________ 6.4835E-01 + oh_steel_frac_(range_normalised)________________________________________ (nitvar043)___________________ 5.4550E-01 + fimp(13)________________________________________________________________ (itvar044)____________________ 5.7149E-04 + fimp(13)_(final_value/initial_value)____________________________________ (xcm044)______________________ 1.5039E+00 + fimp(13)_(range_normalised)_____________________________________________ (nitvar044)___________________ 5.7148E-02 + dr_tf_wp________________________________________________________________ (itvar045)____________________ 5.0416E-01 + dr_tf_wp_(final_value/initial_value)____________________________________ (xcm045)______________________ 1.0083E+00 + dr_tf_wp_(range_normalised)_____________________________________________ (nitvar045)___________________ 6.5100E-02 + Beta_consistency__________________normalised_residue____________________ (normres001)__________________ 6.5770E-07 + Global_power_balance_consistency__normalised_residue____________________ (normres002)__________________ 1.2292E-07 + Radial_build_consistency__________normalised_residue____________________ (normres003)__________________ -7.3085E-11 + Density_upper_limit_______________normalised_residue____________________ (normres004)__________________ 1.6272E-08 + Neutron_wall_load_upper_limit_____normalised_residue____________________ (normres005)__________________ 1.4241E-07 + Fusion_power_upper_limit__________normalised_residue____________________ (normres006)__________________ 2.6565E-07 + Burn_time_lower_limit_____________normalised_residue____________________ (normres007)__________________ -1.2011E-04 + L-H_power_threshold_limit_________normalised_residue____________________ (normres008)__________________ -3.0891E-07 + Injection_power_upper_limit_______normalised_residue____________________ (normres009)__________________ 2.4418E-07 + Net_electric_power_lower_limit____normalised_residue____________________ (normres010)__________________ 1.5045E-05 + Beta_upper_limit__________________normalised_residue____________________ (normres011)__________________ 2.4702E-07 + Peak_toroidal_field_upper_limit___normalised_residue____________________ (normres012)__________________ 2.5809E-09 + CS_coil_EOF_current_density_limit_normalised_residue____________________ (normres013)__________________ -8.4245E-08 + CS_coil_BOP_current_density_limit_normalised_residue____________________ (normres014)__________________ 1.9393E-09 + I_op_/_I_critical_(TF_coil)_______normalised_residue____________________ (normres015)__________________ -3.8375E-07 + Dump_voltage_upper_limit__________normalised_residue____________________ (normres016)__________________ -1.5214E-04 + J_winding_pack/J_protection_limit_normalised_residue____________________ (normres017)__________________ -2.9894E-07 + TF_coil_temp._margin_lower_limit__normalised_residue____________________ (normres018)__________________ -1.0631E-06 + CS_temperature_margin_lower_limit_normalised_residue____________________ (normres019)__________________ 8.0251E-08 + taup/taueff_______________________normalised_residue____________________ (normres020)__________________ -1.8772E-08 + Dump_time_set_by_VV_stress________normalised_residue____________________ (normres021)__________________ -1.0026E-07 + CS_Tresca_yield_criterion_________normalised_residue____________________ (normres022)__________________ -1.6044E-07 + ne0_>_neped_______________________normalised_residue____________________ (normres023)__________________ -1.9637E-08 + Upper_Lim._on_Psep_*_Bt_/_q_A_R___normalised_residue____________________ (normres024)__________________ 4.9789E-07 + TF_coil_case_stress_upper_limit___normalised_residue____________________ (normres025)__________________ -4.6757E-07 + TF_coil_conduit_stress_upper_lim__normalised_residue____________________ (normres026)__________________ -4.1375E-07 # Final Feasible Point # # Power Reactor Costs (1990 US$) # - First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.2457E+00 - Divertor_life_(years)___________________________________________________ (divlife.)____________________ 4.4952E+00 - Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 5.0802E+02 + First_wall_/_blanket_life_(years)_______________________________________ (fwbllife)____________________ 6.1566E+00 + Divertor_life_(years)___________________________________________________ (divlife.)____________________ 3.9769E+00 + Cost_of_electricity_(m$/kWh)____________________________________________ (coe)_________________________ 5.1257E+02 # Detailed Costings (1990 US$) # 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)________________________ 4.5113E+02 + Reactor_building_cost_(M$)______________________________________________ (c212)________________________ 4.5238E+02 Turbine_building_cost_(M$)______________________________________________ (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)________________________ 1.9722E+01 + Electrical_equipment_building_cost_(M$)_________________________________ (c216)________________________ 1.9736E+01 Additional_buildings_cost_(M$)__________________________________________ (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$)____________________________________________ (c2174)_______________________ 6.7990E+00 - Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7686E+02 + Cryogenic_building_cost_(M$)____________________________________________ (c2174)_______________________ 6.8891E+00 + Total_account_21_cost_(M$)______________________________________________ (c21)_________________________ 7.7822E+02 # Reactor Systems # First_wall_cost_(M$)____________________________________________________ (c2211)_______________________ 1.9130E+02 Blanket_beryllium_cost_(M$)_____________________________________________ (c22121)______________________ 2.6109E+02 @@ -214,109 +214,109 @@ 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)_______________________ 4.0485E+01 + Total_support_structure_cost_(M$)_______________________________________ (c2214)_______________________ 4.0933E+01 Divertor_cost_(M$)______________________________________________________ (c2215)_______________________ 4.1660E+01 - Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4119E+03 + Total_account_221_cost_(M$)_____________________________________________ (c221)________________________ 1.4123E+03 # Magnets # - TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.2631E+02 - TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.6782E+01 - TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.2976E+02 - TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.4787E+02 - TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4157E+01 - TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.0487E+02 - PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6310E+02 - PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6566E+01 - PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.5238E+01 - PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 8.0091E+00 - PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.4292E+02 + TF_coil_conductor_cost_(M$)_____________________________________________ (c22211)______________________ 1.3230E+02 + TF_coil_winding_cost_(M$)_______________________________________________ (c22212)______________________ 5.4263E+01 + TF_coil_case_cost_(M$)__________________________________________________ (c22213)______________________ 4.4365E+02 + TF_intercoil_structure_cost_(M$)________________________________________ (c22214)______________________ 1.5066E+02 + TF_coil_gravity_support_structure_(M$)__________________________________ (c22215)______________________ 4.4659E+01 + TF_magnet_assemblies_cost_(M$)__________________________________________ (c2221)_______________________ 8.2552E+02 + PF_coil_conductor_cost_(M$)_____________________________________________ (c22221)______________________ 4.6409E+02 + PF_coil_winding_cost_(M$)_______________________________________________ (c22222)______________________ 7.6765E+01 + PF_coil_case_cost_(M$)__________________________________________________ (c22223)______________________ 9.4861E+01 + PF_coil_support_structure_cost_(M$)_____________________________________ (c22224)______________________ 8.0235E+00 + PF_magnet_assemblies_cost_(M$)__________________________________________ (c2222)_______________________ 6.4374E+02 Vacuum_vessel_assembly_cost_(M$)________________________________________ (c2223)_______________________ 2.5404E+02 - Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7018E+03 + Total_account_222_cost_(M$)_____________________________________________ (c222)________________________ 1.7233E+03 # Power Injection # - ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.2619E+02 + ECH_system_cost_(M$)____________________________________________________ (c2231)_______________________ 2.4043E+02 Lower_hybrid_system_cost_(M$)___________________________________________ (c2232)_______________________ 0.0000E+00 Neutral_beam_system_cost_(M$)___________________________________________ (c2233)_______________________ 0.0000E+00 - Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.2619E+02 + Total_account_223_cost_(M$)_____________________________________________ (c223)________________________ 2.4043E+02 # Vacuum Systems # High_vacuum_pumps_cost_(M$)_____________________________________________ (c2241)_______________________ 1.2480E+01 Backing_pumps_cost_(M$)_________________________________________________ (c2242)_______________________ 4.6800E+00 - Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.4485E+00 - Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 5.5707E+00 + Vacuum_duct_cost_(M$)___________________________________________________ (c2243)_______________________ 2.5280E+00 + Valves_cost_(M$)________________________________________________________ (c2244)_______________________ 5.7410E+00 Duct_shielding_cost_(M$)________________________________________________ (c2245)_______________________ 0.0000E+00 Instrumentation_cost_(M$)_______________________________________________ (c2246)_______________________ 1.3000E+00 - Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.6479E+01 + Total_account_224_cost_(M$)_____________________________________________ (c224)________________________ 2.6729E+01 # Power Conditioning # - TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 3.9137E+00 - TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4719E+01 - TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.0798E+01 + TF_coil_power_supplies_cost_(M$)________________________________________ (c22511)______________________ 4.0144E+00 + TF_coil_breakers_cost_(M$)______________________________________________ (c22512)______________________ 3.4127E+01 + TF_coil_dump_resistors_cost_(M$)________________________________________ (c22513)______________________ 2.1322E+01 TF_coil_instrumentation_and_control_(M$)________________________________ (c22514)______________________ 4.8000E+00 - TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.3311E+01 - Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.7542E+01 - PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.7897E+00 + TF_coil_bussing_cost_(M$)_______________________________________________ (c22515)______________________ 3.5267E+01 + Total,_TF_coil_power_costs_(M$)_________________________________________ (c2251)_______________________ 9.9531E+01 + PF_coil_power_supplies_cost_(M$)________________________________________ (c22521)______________________ 2.9591E+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$)___________________________________ (c22524)______________________ 1.2676E+00 + PF_coil_burn_power_supplies_cost_(M$)___________________________________ (c22524)______________________ 1.2679E+00 PF_coil_breakers_cost_(M$)______________________________________________ (c22525)______________________ 1.4709E+01 - PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.2348E+00 + PF_coil_dump_resistors_cost_(M$)________________________________________ (c22526)______________________ 4.3206E+00 PF_coil_ac_breakers_cost_(M$)___________________________________________ (c22527)______________________ 9.0000E-01 - Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9497E+01 + Total,_PF_coil_power_costs_(M$)_________________________________________ (c2252)_______________________ 3.9752E+01 Total,_energy_storage_cost_(M$)_________________________________________ (c2253)_______________________ 1.6864E+01 - Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5390E+02 + Total_account_225_cost_(M$)_____________________________________________ (c225)________________________ 1.5615E+02 # Heat Transport System # - Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6427E+01 - Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.0891E+01 - Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0732E+02 - Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.7855E+01 - Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.7855E+01 - Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.6741E+02 - Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0258E+02 + Pumps_and_piping_system_cost_(M$)_______________________________________ (cpp)_________________________ 3.6795E+01 + Primary_heat_exchanger_cost_(M$)________________________________________ (chx)_________________________ 7.1692E+01 + Total,_reactor_cooling_system_cost_(M$)_________________________________ (c2261)_______________________ 1.0849E+02 + Pumps,_piping_cost_(M$)_________________________________________________ (cppa)________________________ 2.8417E+01 + Total,_auxiliary_cooling_system_cost_(M$)_______________________________ (c2262)_______________________ 2.8417E+01 + Total,_cryogenic_system_cost_(M$)_______________________________________ (c2263)_______________________ 1.7039E+02 + Total_account_226_cost_(M$)_____________________________________________ (c226)________________________ 3.0729E+02 # Fuel Handling System # Fuelling_system_cost_(M$)_______________________________________________ (c2271)_______________________ 2.2300E+01 - Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0152E+02 - Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.7939E+01 - Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9059E+01 - Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5082E+02 + Fuel_processing_and_purification_cost_(M$)______________________________ (c2272)_______________________ 1.0229E+02 + Atmospheric_recovery_systems_cost_(M$)__________________________________ (c2273)_______________________ 5.8088E+01 + Nuclear_building_ventilation_cost_(M$)__________________________________ (c2274)_______________________ 6.9201E+01 + Total_account_227_cost_(M$)_____________________________________________ (c227)________________________ 2.5188E+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$)______________________________________________ (c22)_________________________ 4.3487E+03 + Total_account_22_cost_(M$)______________________________________________ (c22)_________________________ 4.3931E+03 # Turbine Plant Equipment # - Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7380E+02 + Turbine_plant_equipment_cost_(M$)_______________________________________ (c23)_________________________ 1.7613E+02 # Electric Plant Equipment # Switchyard_equipment_cost_(M$)__________________________________________ (c241)________________________ 1.8400E+01 - Transformers_cost_(M$)__________________________________________________ (c242)________________________ 7.8162E+00 - Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.3369E+00 + Transformers_cost_(M$)__________________________________________________ (c242)________________________ 8.0330E+00 + Low_voltage_equipment_cost_(M$)_________________________________________ (c243)________________________ 6.4513E+00 Diesel_backup_equipment_cost_(M$)_______________________________________ (c244)________________________ 6.8000E+00 Auxiliary_facilities_cost_(M$)__________________________________________ (c245)________________________ 1.5000E+00 - Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.0853E+01 + Total_account_24_cost_(M$)______________________________________________ (c24)_________________________ 4.1184E+01 # Miscellaneous Plant Equipment # Miscellaneous_plant_equipment_cost_(M$)_________________________________ (c25)_________________________ 2.5000E+01 # Heat Rejection System # - Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 4.9083E+01 + Heat_rejection_system_cost_(M$)_________________________________________ (c26)_________________________ 4.9877E+01 # Plant Direct Cost # - Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4143E+03 + Plant_direct_cost_(M$)__________________________________________________ (cdirt)_______________________ 5.4635E+03 # Reactor Core Cost # - Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3399E+03 + Reactor_core_cost_(M$)__________________________________________________ (crctcore)____________________ 3.3761E+03 # Indirect Cost # - Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8057E+03 + Indirect_cost_(M$)______________________________________________________ (c9)__________________________ 1.8221E+03 # Total Contingency # - Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4079E+03 + Total_contingency_(M$)__________________________________________________ (ccont)_______________________ 1.4207E+03 # Constructed Cost # - Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.6279E+03 + Constructed_cost_(M$)___________________________________________________ (concost)_____________________ 8.7063E+03 # Interest during Construction # - Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4236E+03 + Interest_during_construction_(M$)_______________________________________ (moneyint)____________________ 1.4365E+03 # Total Capital Investment # - Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0051E+04 + Total_capital_investment_(M$)___________________________________________ (capcost)_____________________ 1.0143E+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)_____________________ 6.2457E+00 OP - Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 4.4952E+00 OP - Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.2457E+00 OP + First_wall_/_blanket_lifetime_(years)___________________________________ (bktlife)_____________________ 6.1566E+00 OP + Divertor_lifetime_(years)_______________________________________________ (divlife)_____________________ 3.9769E+00 OP + Heating/CD_system_lifetime_(years)______________________________________ (cdrlife)_____________________ 6.1566E+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)___________________ 1.6004E+04 + Number_of_fusion_cycles_to_reach_allowable_fw/blanket_DPA_______________ (bktcycles)___________________ 1.5787E+04 # Plasma # Tokamak_aspect_ratio_=_Conventional,_itart_=_0__________________________ (itart)_______________________ 0.0000E+00 Major_radius_(m)________________________________________________________ (rmajor)______________________ 8.0000E+00 ITV @@ -332,54 +332,54 @@ 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)_________________ 1.6616E+01 - Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.9514E+00 - Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2199E+00 - Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.4089E-01 - Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.2376E+00 ITV - Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6708E-01 - Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3089E+00 + Plasma_current_(MA)_____________________________________________________ (plascur/1D6)_________________ 1.6631E+01 + Current_density_profile_factor__________________________________________ (alphaj)______________________ 1.9805E+00 + Plasma_internal_inductance,_li__________________________________________ (rli)_________________________ 1.2275E+00 + Vertical_field_at_plasma_(T)____________________________________________ (bvert)_______________________ -7.4373E-01 + Vacuum_toroidal_field_at_R_(T)__________________________________________ (bt)__________________________ 5.2940E+00 ITV + Average_poloidal_field_(T)______________________________________________ (bp)__________________________ 8.6787E-01 + Total_field_(sqrt(bp^2_+_bt^2))_(T)_____________________________________ (btot)________________________ 5.3647E+00 Safety_factor_on_axis___________________________________________________ (q0)__________________________ 1.0000E+00 - Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.5610E+00 ITV - Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.9514E+00 - Total_plasma_beta_______________________________________________________ (beta)________________________ 3.4120E-02 ITV - Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2791E+00 OP - Total_toroidal_beta_____________________________________________________ ______________________________ 3.5056E-02 OP - Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.2465E-03 OP + Safety_factor_at_95%_flux_surface_______________________________________ (q95)_________________________ 3.5961E+00 ITV + Cylindrical_safety_factor_(qcyl)________________________________________ (qstar)_______________________ 2.9805E+00 + Total_plasma_beta_______________________________________________________ (beta)________________________ 3.3648E-02 ITV + Total_poloidal_beta_____________________________________________________ (betap)_______________________ 1.2857E+00 OP + Total_toroidal_beta_____________________________________________________ ______________________________ 3.4553E-02 OP + Fast_alpha_beta_________________________________________________________ (betaft)______________________ 4.2236E-03 OP Beam_ion_beta___________________________________________________________ (betanb)______________________ 0.0000E+00 OP - (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.4215E-01 OP - Thermal_beta____________________________________________________________ ______________________________ 2.9874E-02 OP - Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1199E+00 OP - Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 3.0693E-02 OP - 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.2636E-01 + (Fast_alpha_+_beam_physics_variables.beta)/(thermal_physics_variables.be (gammaft)_____________________ 1.4354E-01 OP + Thermal_beta____________________________________________________________ ______________________________ 2.9425E-02 OP + Thermal_poloidal_beta___________________________________________________ ______________________________ 1.1243E+00 OP + Thermal_toroidal_physics_variables.beta_(=_beta-exp)____________________ ______________________________ 3.0215E-02 OP + 2nd_stability_physics_variables.beta_:_beta_p_/_(R/a)___________________ (eps*betap)___________________ 4.2857E-01 2nd_stability_physics_variables.beta_upper_limit________________________ (epbetmax)____________________ 1.3800E+00 - Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.8794E+00 - Normalised_thermal_beta_________________________________________________ ______________________________ 2.5111E+00 - Normalised_total_beta___________________________________________________ ______________________________ 2.8680E+00 - Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9466E+00 - Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.8050E-02 - Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.4883E+08 OP - Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0837E+09 OP - Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2437E+01 ITV - Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5614E+01 - Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2437E+01 - Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5614E+01 - Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3745E+01 - Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0594E+19 ITV - Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0601E+20 OP - Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.9254E+19 OP + Beta_g_coefficient______________________________________________________ (dnbeta)______________________ 4.9099E+00 + Normalised_thermal_beta_________________________________________________ ______________________________ 2.4977E+00 + Normalised_total_beta___________________________________________________ ______________________________ 2.8562E+00 + Normalised_toroidal_beta________________________________________________ (normalised_toroidal_beta)____ 2.9330E+00 + Limit_on_thermal_beta___________________________________________________ (betalim)_____________________ 5.7842E-02 + Plasma_thermal_energy_(J)_______________________________________________ ______________________________ 9.5431E+08 OP + Total_plasma_internal_energy_(J)________________________________________ (total_plasma_internal_energy) 1.0913E+09 OP + Electron_temperature_(keV)______________________________________________ (te)__________________________ 1.2489E+01 ITV + Electron_temperature_on_axis_(keV)______________________________________ (te0)_________________________ 2.5758E+01 + Ion_temperature_(keV)___________________________________________________ (ti)__________________________ 1.2489E+01 + Ion_temperature_on_axis_(keV)___________________________________________ (ti0)_________________________ 2.5758E+01 + Electron_temp.,_density_weighted_(keV)__________________________________ (ten)_________________________ 1.3805E+01 + Electron_density_(/m3)__________________________________________________ (dene)________________________ 8.0667E+19 ITV + Electron_density_on_axis_(/m3)__________________________________________ (ne0)_________________________ 1.0610E+20 OP + Line-averaged_electron_density_(/m3)____________________________________ (dnla)________________________ 8.9334E+19 OP Line-averaged_electron_density_/_Greenwald_density______________________ (dnla_gw)_____________________ 1.2000E+00 OP - Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1530E+19 OP - Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.4591E+19 OP - Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.5810E+16 OP - Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 6.8731E+18 OP - Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.9207E+16 OP + Ion_density_(/m3)_______________________________________________________ (dnitot)______________________ 7.1669E+19 OP + Fuel_density_(/m3)______________________________________________________ (deni)________________________ 6.4831E+19 OP + Total_impurity_density_with_Z_>_2_(no_He)_(/m3)_________________________ (dnz)_________________________ 4.6503E+16 OP + Helium_ion_density_(thermalised_ions_only)_(/m3)________________________ (dnalp)_______________________ 6.7723E+18 OP + Proton_density_(/m3)____________________________________________________ (dnprot)______________________ 1.8963E+16 OP Hot_beam_density_(/m3)__________________________________________________ (dnbeam)______________________ 0.0000E+00 OP - Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.4378E+19 OP - Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.4378E+19 OP - Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 8.5281E-02 ITV - H__concentration________________________________________________________ (fimp(01))____________________ 8.0168E-01 OP - He_concentration________________________________________________________ (fimp(02))____________________ 8.5281E-02 + Density_limit_from_scaling_(/m3)________________________________________ (dnelimt)_____________________ 7.4445E+19 OP + Density_limit_(enforced)_(/m3)__________________________________________ (boundu(9)*dnelimt)___________ 7.4445E+19 OP + Helium_ion_density_(thermalised_ions_only)_/_electron_density___________ (ralpne)______________________ 8.3954E-02 ITV + H__concentration________________________________________________________ (fimp(01))____________________ 8.0392E-01 OP + He_concentration________________________________________________________ (fimp(02))____________________ 8.3954E-02 Be_concentration________________________________________________________ (fimp(03))____________________ 0.0000E+00 C__concentration________________________________________________________ (fimp(04))____________________ 0.0000E+00 N__concentration________________________________________________________ (fimp(05))____________________ 0.0000E+00 @@ -390,186 +390,186 @@ 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))____________________ 5.6341E-04 ITV + Xe_concentration________________________________________________________ (fimp(13))____________________ 5.7149E-04 ITV W__concentration________________________________________________________ (fimp(14))____________________ 5.0000E-06 - Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7265E+00 OP - Effective_charge________________________________________________________ (zeff)________________________ 2.4987E+00 + Average_mass_of_all_ions_(amu)__________________________________________ (aion)________________________ 2.7252E+00 OP + Effective_charge________________________________________________________ (zeff)________________________ 2.5164E+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)_______________________ 6.3221E+19 OP + Electron_density_pedestal_height_(/m3)__________________________________ (neped)_______________________ 6.3278E+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)_______________________ 3.7189E+19 + Electron_density_at_separatrix_(/m3)____________________________________ (nesep)_______________________ 3.7223E+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))___________________ 5.2019E+19 OP - Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0743E+20 OP - Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.2560E+19 OP - JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 2.9966E+21 OP - JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.2146E+20 OP - Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6549E+19 OP - Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.4378E+19 OP + Old_ASDEX_model_________________________________________________________ (dlimit(1))___________________ 5.2797E+19 OP + Borrass_ITER_model_I____________________________________________________ (dlimit(2))___________________ 1.0969E+20 OP + Borrass_ITER_model_II___________________________________________________ (dlimit(3))___________________ 4.3575E+19 OP + JET_edge_radiation_model________________________________________________ (dlimit(4))___________________ 3.0227E+21 OP + JET_simplified_model____________________________________________________ (dlimit(5))___________________ 4.3397E+20 OP + Hugill-Murakami_Mq_model________________________________________________ (dlimit(6))___________________ 6.6609E+19 OP + Greenwald_model_________________________________________________________ (dlimit(7))___________________ 7.4445E+19 OP Deuterium_fuel_fraction_________________________________________________ (fdeut)_______________________ 5.0000E-01 Tritium_fuel_fraction___________________________________________________ (ftrit)_______________________ 5.0000E-01 - Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.5971E+03 OP - _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.5952E+03 OP - __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9174E+00 OP + Total_fusion_power_(MW)_________________________________________________ (powfmw)______________________ 1.6202E+03 OP + _=____D-T_fusion_power_(MW)_____________________________________________ (pdt)_________________________ 1.6182E+03 OP + __+___D-D_fusion_power_(MW)_____________________________________________ (pdd)_________________________ 1.9494E+00 OP __+_D-He3_fusion_power_(MW)_____________________________________________ (pdhe3)_______________________ 0.0000E+00 OP - Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.1903E+02 OP + Alpha_power:_total_(MW)_________________________________________________ (palpmw)______________________ 3.2365E+02 OP Alpha_power:_beam-plasma_(MW)___________________________________________ (palpnb)______________________ 0.0000E+00 OP - Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.2768E+03 OP - Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2453E+00 OP - Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8036E+02 OP - Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.4495E+01 OP - Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4420E+02 OP - Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.4563E+01 OP + Neutron_power_(MW)______________________________________________________ (pneutmw)_____________________ 1.2953E+03 OP + Charged_particle_power_(excluding_alphas)_(MW)__________________________ (pchargemw)___________________ 1.2659E+00 OP + Total_power_deposited_in_plasma_(MW)____________________________________ (tot_power_plasma)____________ 3.8950E+02 OP + Bremsstrahlung_radiation_power_(MW)_____________________________________ (pbrempv*vol)_________________ 6.5195E+01 OP + Line_radiation_power_(MW)_______________________________________________ (plinepv*vol)_________________ 1.4609E+02 OP + Synchrotron_radiation_power_(MW)________________________________________ (psyncpv*vol)_________________ 1.5187E+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)_____________ 9.0174E+01 OP - Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3309E+02 OP - Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2326E+02 OP - LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.8698E-01 OP - Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7498E-01 OP + Radiation_power_from_inner_zone_(MW)____________________________________ (pinnerzoneradmw)_____________ 9.1650E+01 OP + Radiation_power_from_outer_zone_(MW)____________________________________ (pouterzoneradmw)_____________ 1.3482E+02 OP + Total_radiation_power_from_inside_LCFS_(MW)_____________________________ (pradmw)______________________ 2.2647E+02 OP + LCFS_radiation_fraction_=_total_radiation_in_LCFS_/_total_power_deposite (rad_fraction_LCFS)___________ 5.8144E-01 OP + Nominal_mean_radiation_load_on_inside_surface_of_reactor_(MW/m2)________ (photon_wall)_________________ 1.7749E-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)_____________ 5.8269E-01 OP - Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.5952E+01 OP - Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0007E+00 OP - Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.1419E+01 OP + Peak_radiation_wall_load_(MW/m^2)_______________________________________ (peakradwallload)_____________ 5.9106E-01 OP + Fast_alpha_particle_power_incident_on_the_first_wall_(MW)_______________ (palpfwmw)____________________ 1.6182E+01 OP + Nominal_mean_neutron_load_on_inside_surface_of_reactor_(MW/m2)__________ (wallmw)______________________ 1.0152E+00 OP + Power_incident_on_the_divertor_targets_(MW)_____________________________ (ptarmw)______________________ 3.2606E+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)_______________________ 1.2882E+01 OP - Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.8537E+01 OP - Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.3634E-01 OP + Power_incident_on_the_lower_inner_target_(MW)___________________________ (pLImw)_______________________ 1.3368E+01 OP + Power_incident_on_the_lower_outer_target_(MW)___________________________ (pLOmw)_______________________ 1.9237E+01 OP + Ohmic_heating_power_(MW)________________________________________________ (pohmmw)______________________ 6.2284E-01 OP Fraction_of_alpha_power_deposited_in_plasma_____________________________ (falpha)______________________ 9.5000E-01 - Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1893E-01 - Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8107E-01 - Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.3645E+02 OP - Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5374E+02 OP + Fraction_of_alpha_power_to_electrons____________________________________ (falpe)_______________________ 7.1828E-01 + Fraction_of_alpha_power_to_ions_________________________________________ (falpi)_______________________ 2.8172E-01 + Ion_transport_(MW)______________________________________________________ (ptrimw)______________________ 1.4013E+02 OP + Electron_transport_(MW)_________________________________________________ (ptremw)______________________ 1.5772E+02 OP Injection_power_to_ions_(MW)____________________________________________ (pinjimw)_____________________ 0.0000E+00 OP - Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 7.5398E+01 OP + Injection_power_to_electrons_(MW)_______________________________________ (pinjemw)_____________________ 8.0143E+01 OP Ignited_plasma_switch_(0=not_ignited,_1=ignited)________________________ (ignite)______________________ 0 - Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.5710E+02 OP - Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 1.9637E+01 OP - Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 9.6274E+00 OP - ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2831E+02 OP - ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.8272E+02 OP - ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.7453E+01 OP - ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.1237E+02 OP - ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.7028E+02 OP - Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.6473E+01 OP - Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2643E+02 OP - Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.6515E+01 OP - Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7125E+01 OP - Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.8433E+01 OP - Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5409E+01 OP - Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.0806E+01 OP - Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.2835E+01 OP - Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.1999E+01 OP - Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7510E+01 OP - Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4304E+01 OP - Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.2909E+01 OP - Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.6105E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.6473E+01 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2643E+02 OP - Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.6515E+01 OP - L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.6473E+01 OP - L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.6473E+01 OP - Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1947E+00 ITV - Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.2694E+00 - Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.2694E+00 - Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.2694E+00 - n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.6349E+20 OP - Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.2771E+21 OP - Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9018E+02 OP + Power_into_divertor_zone_via_charged_particles_(MW)_____________________ (pdivt)_______________________ 1.6303E+02 OP + Psep_/_R_ratio_(MW/m)___________________________________________________ (pdivt/rmajor)________________ 2.0378E+01 OP + Psep_Bt_/_qAR_ratio_(MWT/m)_____________________________________________ (pdivtbt/qar)_________________ 1.0000E+01 OP + ITER_1996_scaling:_nominal_(MW)_________________________________________ (pthrmw(1))___________________ 1.2978E+02 OP + ITER_1996_scaling:_upper_bound_(MW)_____________________________________ (pthrmw(2))___________________ 2.8603E+02 OP + ITER_1996_scaling:_lower_bound_(MW)_____________________________________ (pthrmw(3))___________________ 5.8098E+01 OP + ITER_1997_scaling_(1)_(MW)______________________________________________ (pthrmw(4))___________________ 2.1452E+02 OP + ITER_1997_scaling_(2)_(MW)______________________________________________ (pthrmw(5))___________________ 1.7206E+02 OP + Martin_2008_scaling:_nominal_(MW)_______________________________________ (pthrmw(6))___________________ 9.7416E+01 OP + Martin_2008_scaling:_95%_upper_bound_(MW)_______________________________ (pthrmw(7))___________________ 1.2769E+02 OP + Martin_2008_scaling:_95%_lower_bound_(MW)_______________________________ (pthrmw(8))___________________ 6.7143E+01 OP + Snipes_2000_scaling:_nominal_(MW)_______________________________________ (pthrmw(9))___________________ 6.7785E+01 OP + Snipes_2000_scaling:_upper_bound_(MW)___________________________________ (pthrmw(10))__________________ 9.9437E+01 OP + Snipes_2000_scaling:_lower_bound_(MW)___________________________________ (pthrmw(11))__________________ 4.5839E+01 OP + Snipes_2000_scaling_(closed_divertor):_nominal_(MW)_____________________ (pthrmw(12))__________________ 3.1010E+01 OP + Snipes_2000_scaling_(closed_divertor):_upper_bound_(MW)_________________ (pthrmw(13))__________________ 4.3148E+01 OP + Snipes_2000_scaling_(closed_divertor):_lower_bound_(MW)_________________ (pthrmw(14))__________________ 2.2130E+01 OP + Hubbard_2012_L-I_threshold_-_nominal_(MW)_______________________________ (pthrmw(15))__________________ 2.7549E+01 OP + Hubbard_2012_L-I_threshold_-_lower_bound_(MW)___________________________ (pthrmw(16))__________________ 1.4319E+01 OP + Hubbard_2012_L-I_threshold_-_upper_bound_(MW)___________________________ (pthrmw(17))__________________ 5.3005E+01 OP + Hubbard_2017_L-I_threshold______________________________________________ (pthrmw(18))__________________ 2.6202E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_nominal_(MW)________________ (pthrmw(19))__________________ 9.7416E+01 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_upper_bound_(MW)________ (pthrmw(20))__________________ 1.2769E+02 OP + Martin_2008_aspect_ratio_corrected_scaling:_95%_lower_bound_(MW)________ (pthrmw(21))__________________ 6.7143E+01 OP + L-H_threshold_power_(enforced)_(MW)_____________________________________ (boundl(103)*plhthresh)_______ 9.7416E+01 OP + L-H_threshold_power_(MW)________________________________________________ (plhthresh)___________________ 9.7416E+01 OP + Confinement_H_factor____________________________________________________ (hfact)_______________________ 1.1886E+00 ITV + Global_thermal_energy_confinement_time_(s)______________________________ (taueff)______________________ 3.2037E+00 + Ion_energy_confinement_time_(s)_________________________________________ (tauei)_______________________ 3.2037E+00 + Electron_energy_confinement_time_(s)____________________________________ (tauee)_______________________ 3.2037E+00 + n.tau_=_Volume-average_electron_density_x_Energy_confinement_time_(s/m3) (dntau)_______________________ 2.5843E+20 OP + Triple_product__(keV_s/m3)______________________________________________ (dntau*te)____________________ 3.2275E+21 OP + Transport_loss_power_assumed_in_scaling_law_(MW)________________________ (powerht)_____________________ 2.9785E+02 OP Switch_for_radiation_loss_term_usage_in_power_balance___________________ (iradloss)____________________ 1 - Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 9.0174E+01 OP - Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 2.2928E+01 - Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 7.0130E+00 + Radiation_power_subtracted_from_plasma_power_balance_(MW)_______________ ______________________________ 9.1650E+01 OP + Alpha_particle_confinement_time_(s)_____________________________________ (taup)________________________ 2.2270E+01 + Alpha_particle/energy_confinement_time_ratio____________________________ (taup/taueff)_________________ 6.9512E+00 Lower_limit_on_taup/taueff______________________________________________ (taulimit)____________________ 5.0000E+00 - Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.8492E+00 - Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.5056E-02 OP - Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9759E-03 OP - Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7312E-03 OP + Total_energy_confinement_time_including_radiation_loss_(s)______________ (total_energy_conf_time)______ 2.8018E+00 + Normalized_plasma_pressure_beta_as_defined_by_McDonald_et_al____________ (beta_mcdonald)_______________ 3.4553E-02 OP + Normalized_ion_Larmor_radius____________________________________________ (rho_star)____________________ 1.9603E-03 OP + Normalized_collisionality_______________________________________________ (nu_star)_____________________ 3.7266E-03 OP Volume_measure_of_elongation____________________________________________ (kappaa_IPB)__________________ 1.6815E+00 OP - Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.6164E+02 OP - Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3500E+02 OP + Total_volt-second_requirement_(Wb)______________________________________ (vsstt)_______________________ 5.5616E+02 OP + Inductive_volt-seconds_(Wb)_____________________________________________ (vsind)_______________________ 2.3585E+02 OP Ejima_coefficient_______________________________________________________ (gamma)_______________________ 3.0000E-01 - Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 5.0113E+01 OP - Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7652E+02 OP + Start-up_resistive_(Wb)_________________________________________________ (vsres)_______________________ 5.0159E+01 OP + Flat-top_resistive_(Wb)_________________________________________________ (vsbrn)_______________________ 2.7015E+02 OP bootstrap_current_fraction_multiplier___________________________________ (cboot)_______________________ 1.0000E+00 - Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7036E-01 - Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.1885E-01 - Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5014E-01 - Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3324E-01 - Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2186E-02 - Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1246E-02 - Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.0708E-03 - Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.1885E-01 + Bootstrap_fraction_(ITER_1989)__________________________________________ (bscf_iter89)_________________ 3.7098E-01 + Bootstrap_fraction_(Sauter_et_al)_______________________________________ (bscf_sauter)_________________ 4.1920E-01 + Bootstrap_fraction_(Nevins_et_al)_______________________________________ (bscf_nevins)_________________ 3.5042E-01 + Bootstrap_fraction_(Wilson)_____________________________________________ (bscf_wilson)_________________ 4.3349E-01 + Diamagnetic_fraction_(Hender)___________________________________________ (diacf_hender)________________ 1.2017E-02 + Diamagnetic_fraction_(SCENE)____________________________________________ (diacf_scene)_________________ 1.1139E-02 + Pfirsch-Schlueter_fraction_(SCENE)______________________________________ (pscf_scene)__________________ -3.0283E-03 + Bootstrap_fraction_(enforced)___________________________________________ (bootipf.)____________________ 4.1920E-01 Diamagnetic_fraction_(enforced)_________________________________________ (diaipf.)_____________________ 0.0000E+00 Pfirsch-Schlueter_fraction_(enforced)___________________________________ (psipf.)______________________ 0.0000E+00 - Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.8296E-02 OP - Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 3.9735E-09 OP - Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.0634E+03 OP - Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4143E-05 OP + Loop_voltage_during_burn_(V)____________________________________________ (vburn)_______________________ 3.7450E-02 OP + Plasma_resistance_(ohm)_________________________________________________ (rplas)_______________________ 3.9755E-09 OP + Resistive_diffusion_time_(s)____________________________________________ (res_time)____________________ 3.0619E+03 OP + Plasma_inductance_(H)___________________________________________________ (rlp)_________________________ 1.4181E-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)_______________________ 3.2444E+21 OP - Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.6930E+20 OP - Burn-up_fraction________________________________________________________ (burnup)______________________ 1.7547E-01 + Fuelling_rate_(nucleus-pairs/s)_________________________________________ (qfuel)_______________________ 3.3420E+21 OP + Fuel_burn-up_rate_(reactions/s)_________________________________________ (rndfuel)_____________________ 5.7755E+20 OP + Burn-up_fraction________________________________________________________ (burnup)______________________ 1.7282E-01 # Energy confinement times, and required H-factors : # # Current Drive System # Current_drive_efficiency_model__________________________________________ (iefrf)_______________________ 10 Secondary_current_drive_efficiency_model________________________________ (iefrffix)____________________ 0 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)_____________ 3.9779E-01 + Power_injected_for_current_drive_(MW)___________________________________ (pcurrentdrivemw)_____________ 5.1429E+00 Maximum_Allowed_Bootstrap_current_fraction______________________________ (bscfmax)_____________________ 9.5000E-01 - Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.1005E+01 OP - Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 1.8509E+04 OP - Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6530E-02 OP + Fusion_gain_factor_Q____________________________________________________ (bigq)________________________ 2.0060E+01 OP + Auxiliary_current_drive_(A)_____________________________________________ (auxiliary_cd)________________ 2.3908E+05 OP + Current_drive_efficiency_(A/W)__________________________________________ (effcd)_______________________ 4.6488E-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)_____________________ 4.1885E-01 + Bootstrap_fraction______________________________________________________ (bootipf)_____________________ 4.1920E-01 Diamagnetic_fraction____________________________________________________ (diaipf)______________________ 0.0000E+00 Pfirsch-Schlueter_fraction______________________________________________ (psipf)_______________________ 0.0000E+00 - Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.1139E-03 - Inductive_fraction______________________________________________________ (facoh)_______________________ 5.8003E-01 + Auxiliary_current_drive_fraction________________________________________ (faccd)_______________________ 1.4376E-02 + Inductive_fraction______________________________________________________ (facoh)_______________________ 5.6642E-01 Total___________________________________________________________________ (plasipf+faccd+facoh)_________ 1.0000E+00 - Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.1997E-01 ITV - Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 7.5398E+01 OP + Fraction_of_the_plasma_current_produced_by_non-inductive_means__________ (fvsbrnni)____________________ 4.3358E-01 ITV + Electron_cyclotron_injected_power_(MW)__________________________________ (echpwr)______________________ 8.0143E+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)_____________________ 1.5080E+02 OP - Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.8162E+02 - Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8512E+02 - Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7652E+02 + ECH_wall_plug_power_(MW)________________________________________________ (echwpow)_____________________ 1.6029E+02 OP + Total_V-s_capability_of_Central_Solenoid/PF_coils_(Wb)__________________ (abs(vstot))__________________ 5.7728E+02 + Required_volt-seconds_during_start-up_(Wb)______________________________ (vssoft)______________________ 2.8601E+02 + Available_volt-seconds_during_burn_(Wb)_________________________________ (vsmax)_______________________ 2.7014E+02 # Times # Initial_charge_time_for_CS_from_zero_current_(s)________________________ (tramp)_______________________ 5.0000E+02 - Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6616E+02 + Plasma_current_ramp-up_time_(s)_________________________________________ (tohs)________________________ 1.6631E+02 Heating_time_(s)________________________________________________________ (theat)_______________________ 1.0000E+01 - Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2104E+03 OP - Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6616E+02 + Burn_time_(s)___________________________________________________________ (tburn)_______________________ 7.2035E+03 OP + Reset_time_to_zero_current_for_CS_(s)___________________________________ (tqnch)_______________________ 1.6631E+02 Time_between_pulses_(s)_________________________________________________ (tdwell)______________________ 1.8000E+03 - Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.8529E+03 OP + Total_plant_cycle_time_(s)______________________________________________ (tcycle)______________________ 9.8463E+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)________________________ 2.0251E+00 ITV - CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.5625E-01 ITV - CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.7181E-02 + Machine_bore_(m)________________________________________________________ (bore)________________________ 1.9854E+00 ITV + CS_radial_thickness_(m)_________________________________________________ (ohcth)_______________________ 5.7587E-01 ITV + CS_precompression_(m)___________________________________________________ (precomp)_____________________ 6.8064E-02 CS_precompresion_to_TF_coil_radial_gap_(m)______________________________ (gapoh)_______________________ 8.0000E-02 - TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 8.9679E-01 ITV + TF_coil_inboard_leg_(m)_________________________________________________ (tfcth)_______________________ 9.1597E-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 @@ -584,10 +584,10 @@ 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)______________________ 1.3815E+00 + Vessel_to_TF_radial_gap_(m)_____________________________________________ (gapsto)______________________ 1.3720E+00 Thermal_shield,_outboard_(m)____________________________________________ (thshield_ob)_________________ 5.0000E-02 Gap_(m)_________________________________________________________________ (tftsgap)_____________________ 5.0000E-02 - TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 8.9679E-01 + TF_coil_outboard_leg_radial_thickness_(m)_______________________________ (tfthko)______________________ 9.1597E-01 # Vertical Build # Divertor_null_switch____________________________________________________ (i_single_null)_______________ 1 Vessel_-_TF_coil_vertical_gap_(m)_______________________________________ (vgap2)_______________________ 1.6300E-01 @@ -640,314 +640,314 @@ # 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)______ 4.4524E+01 OP - WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1613E+02 OP - WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0405E-01 OP - WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1537E-01 OP + WP_transverse_modulus_(GPa)_____________________________________________ (eyoung_wp_trans*1.0d-9)______ 4.3534E+01 OP + WP_vertical_modulus_(GPa)_______________________________________________ (eyoung_wp_axial*1.0d-9)______ 1.1510E+02 OP + WP_transverse_Poissons_ratio____________________________________________ (poisson_wp_trans)____________ 3.0390E-01 OP + WP_vertical-transverse_Pois._rat._______________________________________ (poisson_wp_axial)____________ 3.1568E-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))_____________ -4.8992E+08 - Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.5886E+08 - Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5868E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4879E+08 - Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.4373E+08 - toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7794E+08 - Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.5886E+08 - Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5469E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3680E+08 - Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.2042E+06 - toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6694E+08 - Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4431E+08 - Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5654E+08 - Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.1125E+08 - Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.3578E-03 OP - Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2627E-03 OP - Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.1743E-03 OP + toroidal__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_t_max(1))_____________ -4.8724E+08 + Vertical__stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_z_max(1))_____________ 2.6028E+08 + Von-Mises_stress_at_maximum_shear_of_layer_1_(Pa)_______________________ (sig_tf_vmises_max(1))________ 6.5725E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_1_(Pa)______________ (sig_tf_tresca_max(1))________ 7.4752E+08 + Radial____stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_r_max(2))_____________ -1.5411E+08 + toroidal__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_t_max(2))_____________ -3.7861E+08 + Vertical__stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_z_max(2))_____________ 2.6028E+08 + Von-Mises_stress_at_maximum_shear_of_layer_2_(Pa)_______________________ (sig_tf_vmises_max(2))________ 5.5645E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_2_(Pa)______________ (sig_tf_tresca_max(2))________ 6.3889E+08 + Radial____stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_r_max(3))_____________ 6.1398E+06 + toroidal__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_t_max(3))_____________ -3.6314E+08 + Vertical__stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_z_max(3))_____________ 1.4510E+08 + Von-Mises_stress_at_maximum_shear_of_layer_3_(Pa)_______________________ (sig_tf_vmises_max(3))________ 4.5345E+08 + Maximum_shear_stress_for_the_Tresca_yield_criterion_3_(Pa)______________ (sig_tf_tresca_max(3))________ 5.0824E+08 + Maximum_radial_deflection_at_midplane_(m)_______________________________ (deflect)_____________________ -6.2714E-03 OP + Vertical_strain_on_casing_______________________________________________ (casestr)_____________________ 1.2697E-03 OP + Radial_strain_on_insulator______________________________________________ (insstrain)___________________ -7.6923E-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)____________ 3.1769E+00 OP + Inboard_leg_centre_radius_(m)___________________________________________ (r_tf_inboard_mid)____________ 3.1673E+00 OP Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP - Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 8.9679E-01 ITV - Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 8.9679E-01 + Total_inboard_leg_radial_thickness_(m)__________________________________ (tfcth)_______________________ 9.1597E-01 ITV + Total_outboard_leg_radial_thickness_(m)_________________________________ (tfthko)______________________ 9.1597E-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)______________________ 4.7891E+01 OP + Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (tfleng)______________________ 4.7937E+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))_____________________ 1.4536E+01 + TF_coil_arc_point_2_R_(m)_______________________________________________ (xarc(3))_____________________ 1.4527E+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)____________________ 1.7901E+01 - Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2650E+01 - Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0666E-01 - Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.5501E-01 - Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7763E-02 - Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.4835E-01 + TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.8229E+01 + Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf)_____________ 1.2853E+01 + Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0508E-01 + Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf)_______________ 8.4752E-01 + Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.6493E-02 + Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.6444E-01 Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02 - Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.6741E-01 ITV + Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8216E-01 ITV Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02 - External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.3720E+05 OP - WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.7047E-01 - WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.1268E-01 - Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 4.9973E-01 ITV - Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1913E+00 OP - Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0919E+00 OP + External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.5456E+05 OP + WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.7486E-01 + WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.1696E-01 + Winding_pack_radial_thickness_(m)_______________________________________ (dr_tf_wp)____________________ 5.0416E-01 ITV + Winding_pack_toroidal_width_1_(m)_______________________________________ (wwp1)________________________ 1.1904E+00 OP + Winding_pack_toroidal_width_2_(m)_______________________________________ (wwp2)________________________ 1.0901E+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)___________________ 3.8763E+00 - Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2469E-01 - Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.9212E-02 - Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2610E-01 + Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf)___________________ 3.8217E+00 + Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.1550E-01 + Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.7934E-02 + Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.3656E-01 Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0 - Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5438E+02 OP - Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.7627E-02 OP - Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.6027E-02 OP - Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.0008E-02 OP - Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0091E-03 ITV + Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4739E+02 OP + Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.9223E-02 OP + Width_of_conductor_(square)_(m)_________________________________________ (t_conductor)_________________ 5.7623E-02 OP + Width_of_space_inside_conductor_(m)_____________________________________ (t_cable)_____________________ 4.1604E-02 OP + Steel_conduit_thickness_(m)_____________________________________________ (thwcndut)____________________ 8.0099E-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)_______________________ 1.5697E-03 + internal_area_of_the_cable_space________________________________________ (acstf)_______________________ 1.6999E-03 Coolant_fraction_in_conductor_excluding_central_channel_________________ (vftf)________________________ 3.0000E-01 - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4176E-01 ITV - Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.5824E-01 + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4212E-01 ITV + Superconductor_fraction_of_conductor____________________________________ (1-fcutfsu)___________________ 1.5788E-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)_____________________ 1.5246E+00 + TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5049E+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)____________________ 4.2854E+03 OP - Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.5694E+04 OP - Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.0500E+04 OP - Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4201E+03 OP - Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5290E+05 OP - Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 6.9508E+05 OP - Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1121E+07 OP - Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2048E+01 OP - Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.0950E+02 OP - TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.0950E+08 - Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2501E+01 OP - Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5540E+07 OP - Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1703E+07 - Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1862E+02 OP - Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0466E+08 OP - Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.0466E+08 OP + Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.6964E+03 OP + Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.8073E+04 OP + Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.9310E+04 OP + Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3777E+03 OP + Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5446E+05 OP + Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf)__________________ 7.1402E+05 OP + Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1424E+07 OP + Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2178E+01 OP + Total_current_in_all_TF_coils_(MA)______________________________________ (ritfc/1.D6)__________________ 2.1176E+02 OP + TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (ritfc)_______________________ 2.1176E+08 + Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2636E+01 OP + Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5602E+07 OP + Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1617E+07 + Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2161E+02 OP + Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0908E+08 OP + Outboard_vertical_tension_per_coil_(N)__________________________________ (vforce_outboard)_____________ 2.0908E+08 OP inboard_vertical_tension_fraction_(-)___________________________________ (f_vforce_inboard)____________ 5.0000E-01 OP - Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 7.8881E+07 OP + Centring_force_per_coil_(N/m)___________________________________________ (cforce)______________________ 8.0590E+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)______________________ 1.7534E+01 ITV - Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.2719E+07 OP - Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.9851E+00 ITV - Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.9703E+00 OP + Actual_quench_time_(or_time_constant)_(s)_______________________________ (tdmptf)______________________ 1.8429E+01 ITV + Vacuum_Vessel_stress_on_quench_(Pa)_____________________________________ (vv_stress_quench)____________ 6.1442E+07 OP + Maximum_allowed_voltage_during_quench_due_to_insulation_(kV)____________ (vdalw)_______________________ 9.5837E+00 ITV + Actual_quench_voltage_(kV)______________________________________________ (vtfskv)______________________ 9.1862E+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)______________________ 3.5003E-01 OP - Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4176E-01 ITV + Total_helium_fraction_inside_cable_space________________________________ (fhetot)______________________ 3.4620E-01 OP + Copper_fraction_of_conductor____________________________________________ (fcutfsu)_____________________ 8.4212E-01 ITV Residual_manufacturing_strain_on_superconductor_________________________ (str_tf_con_res)______________ -5.0000E-03 - Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0475E-03 - Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.3233E+08 OP - Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1588E+08 OP - Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5602E+07 OP - Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5540E+07 OP + Self-consistent_strain_on_superconductor________________________________ (str_wp)______________________ 2.0730E-03 + Critical_current_density_in_superconductor_(A/m2)_______________________ (jcritsc)_____________________ 7.1337E+08 OP + Critical_current_density_in_strand_(A/m2)_______________________________ (jcritstr)____________________ 1.1263E+08 OP + Critical_current_density_in_winding_pack_(A/m2)_________________________ (jwdgcrt)_____________________ 3.5688E+07 OP + Actual_current_density_in_winding_pack_(A/m2)___________________________ (jwdgop)______________________ 2.5602E+07 OP Minimum_allowed_temperature_margin_in_superconductor_(K)________________ (tmargmin_tf)_________________ 1.5000E+00 - Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5246E+00 OP - Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.1823E+05 OP - Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.4815E+04 ITV - Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.1738E-01 OP + Actual_temperature_margin_in_superconductor_(K)_________________________ (tmarg)_______________________ 1.5049E+00 OP + Critical_current_(A)____________________________________________________ (icrit)_______________________ 1.2517E+05 OP + Actual_current_(A)______________________________________________________ (cpttf)_______________________ 8.9795E+04 ITV + Actual_current_/_critical_current_______________________________________ (iooic)_______________________ 7.1737E-01 OP # Central Solenoid and PF Coils # Central_solenoid_superconductor_material________________________________ (isumatoh)____________________ 1 - Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.4017E+01 OP - Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.5219E+08 OP - Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0566E+08 OP - Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.5378E+07 OP - Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 1.9764E+07 OP - Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3500E+01 OP - Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 4.0090E+08 OP - Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.2027E+08 OP - Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 4.0271E+07 OP - Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.0403E+07 ITV - CS_inside_radius_(m)____________________________________________________ (bore)________________________ 2.0251E+00 ITV - CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.5625E-01 ITV + Maximum_field_at_Beginning_Of_Pulse_(T)_________________________________ (bmaxoh0)_____________________ 1.4050E+01 OP + Critical_superconductor_current_density_at_BOP_(A/m2)___________________ (jscoh_bop)___________________ 3.4918E+08 OP + Critical_strand_current_density_at_BOP_(A/m2)___________________________ (jstrandoh_bop)_______________ 1.0475E+08 OP + Allowable_overall_current_density_at_BOP_(A/m2)_________________________ (rjohc0)______________________ 3.5294E+07 OP + Actual_overall_current_density_at_BOP_(A/m2)____________________________ (cohbop)______________________ 1.9126E+07 OP + Maximum_field_at_End_Of_Flattop_(T)_____________________________________ (bmaxoh)______________________ 1.3920E+01 OP + Critical_superconductor_current_density_at_EOF_(A/m2)___________________ (jscoh_eof)___________________ 3.6097E+08 OP + Critical_strand_current_density_at_EOF_(A/m2)___________________________ (jstrandoh_eof)_______________ 1.0829E+08 OP + Allowable_overall_current_density_at_EOF_(A/m2)_________________________ (rjohc)_______________________ 3.6485E+07 OP + Actual_overall_current_density_at_EOF_(A/m2)____________________________ (coheof)______________________ 2.0264E+07 ITV + CS_inside_radius_(m)____________________________________________________ (bore)________________________ 1.9854E+00 ITV + CS_thickness_(m)________________________________________________________ (ohcth)_______________________ 5.7587E-01 ITV Gap_between_central_solenoid_and_TF_coil_(m)____________________________ (gapoh)_______________________ 8.0000E-02 - CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 8.8292E+00 OP - CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.2234E+00 OP - ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 2.9563E+00 OP - ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.2670E+00 OP - CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.6058E+00 OP - CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 5.2166E-01 ITV + CS_overall_cross-sectional_area_(m2)____________________________________ (areaoh)______________________ 9.1407E+00 OP + CS_conductor+void_cross-sectional_area_(m2)_____________________________ (awpoh)_______________________ 4.3996E+00 OP + ___CS_conductor_cross-sectional_area_(m2)_______________________________ (awpoh*(1-vfohc))_____________ 3.0797E+00 OP + ___CS_void_cross-sectional_area_(m2)____________________________________ (awpoh*vfohc)_________________ 1.3199E+00 OP + CS_steel_cross-sectional_area_(m2)______________________________________ (areaoh-awpoh)________________ 4.7411E+00 OP + CS_steel_area_fraction__________________________________________________ (oh_steel_frac)_______________ 5.1868E-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)____________________ 6.9716E+08 OP - Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -7.4296E+08 OP - Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 6.9716E+08 OP - Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.5599E+09 OP + Hoop_stress_in_CS_steel_(Pa)____________________________________________ (sig_hoop)____________________ 6.7569E+08 OP + Axial_stress_in_CS_steel_(Pa)___________________________________________ (sig_axial)___________________ -7.6205E+08 OP + Maximum_shear_stress_in_CS_steel_for_the_Tresca_criterion_(Pa)__________ (s_tresca_oh)_________________ 6.7569E+08 OP + Axial_force_in_CS_(N)___________________________________________________ (axial_force)_________________ -1.6256E+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)_____________________ 1.5020E+00 OP + CS_temperature_margin_(K)_______________________________________________ (tmargoh)_____________________ 1.5052E+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)___________________ 1.9605E-03 - CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.6691E-02 - CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.4090E-03 - CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.5564E-02 - CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 5.3728E-03 - CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 5.3728E-03 - Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 1.2206E+02 OP + CS_turn_area_(m)________________________________________________________ (a_oh_turn)___________________ 1.9739E-03 + CS_turn_length_(m)______________________________________________________ (l_cond_cst)__________________ 7.6953E-02 + CS_turn_internal_cable_space_radius_(m)_________________________________ (r_in_cst)____________________ 7.4740E-03 + CS_turn_width_(m)_______________________________________________________ (d_cond_cst)__________________ 2.5651E-02 + CS_structural_vertical_thickness_(m)____________________________________ (t_structural_vertical)_______ 5.3514E-03 + CS_structural_radial_thickness_(m)______________________________________ (t_structural_radial)_________ 5.3514E-03 + Allowable_number_of_cycles_till_CS_fracture_____________________________ (n_cycle)_____________________ 1.3378E+02 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])______________________ 9.3411E+00 - PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2855E+00 - PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2855E+00 - PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.5442E+02 - PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.8177E+01 - PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.4291E+00 + PF_coil_0_vertical_position_(m)_________________________________________ (zpf[0])______________________ 9.3603E+00 + PF_coil_0_radial_thickness_(m)__________________________________________ (pfdr(0))_____________________ 1.2727E+00 + PF_coil_0_vertical_thickness_(m)________________________________________ (pfdz(0))_____________________ 1.2727E+00 + PF_coil_0_turns_________________________________________________________ (turns[0])____________________ 4.4541E+02 + PF_coil_0_current_(MA)__________________________________________________ (ric[0])______________________ 1.7816E+01 + PF_coil_0_field_(T)_____________________________________________________ (bpf[0])______________________ 6.2280E+00 PF_coil_1_radius_(m)____________________________________________________ (rpf[1]_______________________ 5.5667E+00 - PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0575E+01 - PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3815E+00 - PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3815E+00 - PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.2482E+02 - PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0993E+01 - PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.9155E+00 - PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6722E+01 + PF_coil_1_vertical_position_(m)_________________________________________ (zpf[1])______________________ -1.0594E+01 + PF_coil_1_radial_thickness_(m)__________________________________________ (pfdr(1))_____________________ 1.3651E+00 + PF_coil_1_vertical_thickness_(m)________________________________________ (pfdz(1))_____________________ -1.3651E+00 + PF_coil_1_turns_________________________________________________________ (turns[1])____________________ 5.1248E+02 + PF_coil_1_current_(MA)__________________________________________________ (ric[1])______________________ 2.0499E+01 + PF_coil_1_field_(T)_____________________________________________________ (bpf[1])______________________ 6.6990E+00 + PF_coil_2_radius_(m)____________________________________________________ (rpf[2]_______________________ 1.6731E+01 PF_coil_2_vertical_position_(m)_________________________________________ (zpf[2])______________________ 2.6667E+00 - PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1305E+00 - PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1305E+00 - PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9172E+02 - PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.6688E+00 - PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6325E+00 - PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6722E+01 + PF_coil_2_radial_thickness_(m)__________________________________________ (pfdr(2))_____________________ 1.1332E+00 + PF_coil_2_vertical_thickness_(m)________________________________________ (pfdz(2))_____________________ 1.1332E+00 + PF_coil_2_turns_________________________________________________________ (turns[2])____________________ 1.9262E+02 + PF_coil_2_current_(MA)__________________________________________________ (ric[2])______________________ -7.7049E+00 + PF_coil_2_field_(T)_____________________________________________________ (bpf[2])______________________ 2.6389E+00 + PF_coil_3_radius_(m)____________________________________________________ (rpf[3]_______________________ 1.6731E+01 PF_coil_3_vertical_position_(m)_________________________________________ (zpf[3])______________________ -2.6667E+00 - PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1305E+00 - PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1305E+00 - PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9172E+02 - PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.6688E+00 - PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6325E+00 - PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5198E+01 + PF_coil_3_radial_thickness_(m)__________________________________________ (pfdr(3))_____________________ 1.1332E+00 + PF_coil_3_vertical_thickness_(m)________________________________________ (pfdz(3))_____________________ -1.1332E+00 + PF_coil_3_turns_________________________________________________________ (turns[3])____________________ 1.9262E+02 + PF_coil_3_current_(MA)__________________________________________________ (ric[3])______________________ -7.7049E+00 + PF_coil_3_field_(T)_____________________________________________________ (bpf[3])______________________ 2.6389E+00 + PF_coil_4_radius_(m)____________________________________________________ (rpf[4]_______________________ 1.5209E+01 PF_coil_4_vertical_position_(m)_________________________________________ (zpf[4])______________________ 7.4667E+00 - PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0816E-01 - PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0816E-01 - PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3063E+02 - PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2250E+00 - PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5744E+00 - PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5198E+01 + PF_coil_4_radial_thickness_(m)__________________________________________ (pfdr(4))_____________________ 8.0773E-01 + PF_coil_4_vertical_thickness_(m)________________________________________ (pfdz(4))_____________________ 8.0773E-01 + PF_coil_4_turns_________________________________________________________ (turns[4])____________________ 1.3049E+02 + PF_coil_4_current_(MA)__________________________________________________ (ric[4])______________________ -5.2194E+00 + PF_coil_4_field_(T)_____________________________________________________ (bpf[4])______________________ 2.5737E+00 + PF_coil_5_radius_(m)____________________________________________________ (rpf[5]_______________________ 1.5209E+01 PF_coil_5_vertical_position_(m)_________________________________________ (zpf[5])______________________ -7.4667E+00 - PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0816E-01 - PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0816E-01 - PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3063E+02 - PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2250E+00 - PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5744E+00 - Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.3032E+00 + PF_coil_5_radial_thickness_(m)__________________________________________ (pfdr(5))_____________________ 8.0773E-01 + PF_coil_5_vertical_thickness_(m)________________________________________ (pfdz(5))_____________________ -8.0773E-01 + PF_coil_5_turns_________________________________________________________ (turns[5])____________________ 1.3049E+02 + PF_coil_5_current_(MA)__________________________________________________ (ric[5])______________________ -5.2194E+00 + PF_coil_5_field_(T)_____________________________________________________ (bpf[5])______________________ 2.5737E+00 + Central_solenoid_radius_(m)_____________________________________________ (rpf[nohc-1])_________________ 2.2734E+00 Central_solenoid_vertical_position_(m)__________________________________ (zpf[nohc-1])_________________ 0.0000E+00 - Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.5625E-01 + Central_solenoid_radial_thickness_(m)___________________________________ (ohdr)________________________ 5.7587E-01 Central_solenoid_vertical_thickness_(m)_________________________________ (ohdz)________________________ 1.5873E+01 - Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.5036E+03 - Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8014E+02 - Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4017E+01 - Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.6878E-04 OP + Central_solenoid_turns__________________________________________________ (turns[nohc-1])_______________ 4.6308E+03 + Central_solenoid_current_(MA)___________________________________________ (ric[nohc-1])_________________ -1.8523E+02 + Central_solenoid_field_(T)______________________________________________ (bpf[nohc-1])_________________ 1.4050E+01 + Sum_of_squares_of_residuals_____________________________________________ (ssq0)________________________ 3.5207E-04 OP Smoothing_parameter_____________________________________________________ (alfapf)______________________ 5.0000E-10 # Volt Second Consumption # Total_volt-second_consumption_by_coils_(Wb)_____________________________ (vstot)_______________________ -5.8000E+02 OP # Waveforms # - Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.6866E-01 ITV - Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.7009E-01 OP + Ratio_of_central_solenoid_current_at_beginning_of_Pulse_/_end_of_flat-to (fcohbop)_____________________ 9.4380E-01 ITV + Ratio_of_central_solenoid_current_at_beginning_of_Flat-top_/_end_of_flat (fcohbof)_____________________ -1.4083E-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)______________________ 1.4212E+07 - PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.8177E+07 - PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.8177E+07 - PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 1.0098E+06 + PF_Circuit_0_Time_point_1_(A)___________________________________________ (pfc0t1)______________________ 1.3971E+07 + PF_Circuit_0_Time_point_2_(A)___________________________________________ (pfc0t2)______________________ 1.7816E+07 + PF_Circuit_0_Time_point_3_(A)___________________________________________ (pfc0t3)______________________ 1.7816E+07 + PF_Circuit_0_Time_point_4_(A)___________________________________________ (pfc0t4)______________________ 9.2844E+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)______________________ 1.8587E+07 - PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0993E+07 - PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0993E+07 - PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -1.4588E+06 + PF_Circuit_1_Time_point_1_(A)___________________________________________ (pfc1t1)______________________ 1.8269E+07 + PF_Circuit_1_Time_point_2_(A)___________________________________________ (pfc1t2)______________________ 2.0499E+07 + PF_Circuit_1_Time_point_3_(A)___________________________________________ (pfc1t3)______________________ 2.0499E+07 + PF_Circuit_1_Time_point_4_(A)___________________________________________ (pfc1t4)______________________ -1.5831E+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)______________________ 4.9864E+05 - PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.0665E+06 - PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.0665E+06 - PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.6688E+06 + PF_Circuit_2_Time_point_1_(A)___________________________________________ (pfc2t1)______________________ 4.9542E+05 + PF_Circuit_2_Time_point_2_(A)___________________________________________ (pfc2t2)______________________ -7.1060E+06 + PF_Circuit_2_Time_point_3_(A)___________________________________________ (pfc2t3)______________________ -7.1060E+06 + PF_Circuit_2_Time_point_4_(A)___________________________________________ (pfc2t4)______________________ -7.7049E+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)______________________ 4.9864E+05 - PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.0665E+06 - PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.0665E+06 - PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.6688E+06 + PF_Circuit_3_Time_point_1_(A)___________________________________________ (pfc3t1)______________________ 4.9542E+05 + PF_Circuit_3_Time_point_2_(A)___________________________________________ (pfc3t2)______________________ -7.1060E+06 + PF_Circuit_3_Time_point_3_(A)___________________________________________ (pfc3t3)______________________ -7.1060E+06 + PF_Circuit_3_Time_point_4_(A)___________________________________________ (pfc3t4)______________________ -7.7049E+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)______________________ 3.6106E+05 - PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.7889E+06 - PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.7889E+06 - PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2250E+06 + PF_Circuit_4_Time_point_1_(A)___________________________________________ (pfc4t1)______________________ 3.2650E+05 + PF_Circuit_4_Time_point_2_(A)___________________________________________ (pfc4t2)______________________ -4.8247E+06 + PF_Circuit_4_Time_point_3_(A)___________________________________________ (pfc4t3)______________________ -4.8247E+06 + PF_Circuit_4_Time_point_4_(A)___________________________________________ (pfc4t4)______________________ -5.2194E+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)______________________ 3.6106E+05 - PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.7889E+06 - PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.7889E+06 - PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2250E+06 + PF_Circuit_5_Time_point_1_(A)___________________________________________ (pfc5t1)______________________ 3.2650E+05 + PF_Circuit_5_Time_point_2_(A)___________________________________________ (pfc5t2)______________________ -4.8247E+06 + PF_Circuit_5_Time_point_3_(A)___________________________________________ (pfc5t3)______________________ -4.8247E+06 + PF_Circuit_5_Time_point_4_(A)___________________________________________ (pfc5t4)______________________ -5.2194E+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)_______________________ 1.7450E+08 - CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 3.0640E+07 - CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 3.0640E+07 - CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8014E+08 + CS_Circuit_Time_point_1_(A)_____________________________________________ (cs_t1)_______________________ 1.7482E+08 + CS_Circuit_Time_point_2_(A)_____________________________________________ (cs_t2)_______________________ 2.6086E+07 + CS_Circuit_Time_point_3_(A)_____________________________________________ (cs_t3)_______________________ 2.6086E+07 + CS_Circuit_Time_point_4_(A)_____________________________________________ (cs_t4)_______________________ -1.8523E+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)____________________ 1.6616E+07 - Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6616E+07 - Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6616E+07 + Plasma_Time_point_2_(A)_________________________________________________ (plasmat2)____________________ 1.6631E+07 + Plasma_Time_point_3_(A)_________________________________________________ (plasmat3)____________________ 1.6631E+07 + Plasma_Time_point_4_(A)_________________________________________________ (plasmat4)____________________ 1.6631E+07 Plasma_Time_point_5_(A)_________________________________________________ (plasmat5)____________________ 0.0000E+00 # Support Structure # - Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2883E+05 OP - Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.2248E+06 OP - Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.3983E+07 OP - Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2616E+06 OP + Outer_PF_coil_fence_mass_(kg)___________________________________________ (fncmass)_____________________ 2.2924E+05 OP + Intercoil_support_structure_mass_(kg)___________________________________ (aintmass)____________________ 4.3045E+06 OP + Mass_of_cooled_components_(kg)__________________________________________ (coldmass)____________________ 3.4369E+07 OP + Gravity_support_structure_mass_(kg)_____________________________________ (clgsmass)____________________ 1.2760E+06 OP Torus_leg_support_mass_(kg)_____________________________________________ (gsm1)________________________ 8.5820E+04 OP - Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 3.9796E+05 OP - Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.7293E+05 OP + Ring_beam_mass_(kg)_____________________________________________________ (gsm2)________________________ 4.0088E+05 OP + Ring_legs_mass_(kg)_____________________________________________________ (gsm3)________________________ 6.8283E+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)_____________ 1.4472E+04 - Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.3112E-02 - powfmw__________________________________________________________________ (powfmw.)_____________________ 1.5971E+03 - total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1121E+07 + Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4866E+04 + Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4085E-02 + powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6202E+03 + total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1424E+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)____________________ 1.6460E+03 OP + Total_power_absorbed_by_FW_&_blanket_(MW)_______________________________ (p_plasma)____________________ 1.6698E+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)_______________ 1.6173E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6485E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 6.9679E-03 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6407E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6906E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0688E-03 OP # First wall and blanket : CCFE HCPB model # Titanium_beryllide_fraction_____________________________________________ (fbltibe12)___________________ 3.7500E-01 Lithium_orthosilicate_fraction__________________________________________ (fblli2sio4)__________________ 3.7500E-01 @@ -968,11 +968,11 @@ 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)______________________ 2.4103E-02 OP - Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6083E+02 OP - Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2717E+03 OP - Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.3936E+00 OP - Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4693E+02 OP + Total_nuclear_heating_in_TF+PF_coils_(CS_is_negligible)_(MW)____________ (ptfnuc)______________________ 2.5118E-02 OP + Total_nuclear_heating_in_FW_(MW)________________________________________ (pnucfw)______________________ 1.6315E+02 OP + Total_nuclear_heating_in_the_blanket_(including_emult)_(MW)_____________ (pnucblkt)____________________ 1.2901E+03 OP + Total_nuclear_heating_in_the_shield_(MW)________________________________ (pnucshld)____________________ 1.4138E+00 OP + Total_nuclear_heating_in_the_divertor_(MW)______________________________ (pnucdiv)_____________________ 1.4906E+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 @@ -987,119 +987,119 @@ 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)______________________ 1.7787E+01 OP - Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5322E+01 OP - Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6074E+00 OP + Cryostat_internal_radius_(m)____________________________________________ (rdewex)______________________ 1.7798E+01 OP + Cryostat_internal_half-height_(m)_______________________________________ (zdewex)______________________ 1.5339E+01 OP + Vertical_clearance_from_TF_coil_to_cryostat_(m)_________________________ (clh1)________________________ 5.6044E+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)_______________________ 8.4815E+01 OP + TF_coil_current_(kA)____________________________________________________ (itfka)_______________________ 8.9795E+01 OP Number_of_TF_coils______________________________________________________ (ntfc)________________________ 1.6000E+01 - Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.9703E+00 OP + Voltage_across_a_TF_coil_during_quench_(kV)_____________________________ (vtfskv)______________________ 9.1862E+00 OP TF_coil_charge_time_(hours)_____________________________________________ (tchghr)______________________ 4.0000E+00 - Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.2978E+01 OP + Total_inductance_of_TF_coils_(H)________________________________________ (ltfth)_______________________ 3.0165E+01 OP Total_resistance_of_TF_coils_(ohm)______________________________________ (rcoils)______________________ 0.0000E+00 OP - TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.9881E+02 + TF_coil_charging_voltage_(V)____________________________________________ (tfcv)________________________ 2.9268E+02 Number_of_DC_circuit_breakers___________________________________________ (ntfbkr)______________________ 1.6000E+01 Number_of_dump_resistors________________________________________________ (ndumpr)______________________ 6.4000E+01 - Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.1755E-01 OP - Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.1141E+02 OP - Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.8534E+03 OP - TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.7534E+01 OP - Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.1375E+02 OP - Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 8.9056E+01 OP - DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.7942E+04 OP - AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.1046E+04 OP - TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 8.8694E+00 OP - TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.6475E+01 OP + Resistance_per_dump_resistor_(ohm)______________________________________ (r1dump)______________________ 1.0230E-01 OP + Dump_resistor_peak_power_(MW)___________________________________________ (r1ppmw)______________________ 2.0622E+02 OP + Energy_supplied_per_dump_resistor_(MJ)__________________________________ (r1emj)_______________________ 1.9002E+03 OP + TF_coil_L/R_time_constant_(s)___________________________________________ (ttfsec)______________________ 1.8429E+01 OP + Power_supply_voltage_(V)________________________________________________ (tfpsv)_______________________ 3.0731E+02 OP + Power_supply_current_(kA)_______________________________________________ (tfpska)______________________ 9.4285E+01 OP + DC_power_supply_rating_(kW)_____________________________________________ (tfckw)_______________________ 2.8975E+04 OP + AC_power_for_charging_(kW)______________________________________________ (tfackw)______________________ 3.2194E+04 OP + TF_coil_resistive_power_(MW)____________________________________________ (rpower)______________________ 9.3902E+00 OP + TF_coil_inductive_power_(MVA)___________________________________________ (xpower)______________________ 1.6891E+01 OP Aluminium_bus_current_density_(kA/cm2)__________________________________ (djmka)_______________________ 1.2500E-01 - Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 6.7852E+02 OP + Aluminium_bus_cross-sectional_area_(cm2)________________________________ (albusa)______________________ 7.1836E+02 OP Total_length_of_TF_coil_bussing_(m)_____________________________________ (tfbusl)______________________ 3.1931E+03 OP - Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 5.8497E+02 OP - Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.2330E-03 OP + Aluminium_bus_weight_(tonnes)___________________________________________ (albuswt)_____________________ 6.1932E+02 OP + Total_TF_coil_bus_resistance_(ohm)______________________________________ (rtfbus)______________________ 1.1646E-03 OP TF_coil_bus_voltage_drop_(V)____________________________________________ (vtfbus)______________________ 1.0457E+02 OP - Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.8422E+03 OP - TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8165E+03 OP - TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.0899E+04 OP - TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8305E+01 OP - Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 9.8548E+00 OP + Dump_resistor_floor_area_(m2)___________________________________________ (drarea)______________________ 4.9234E+03 OP + TF_coil_power_conversion_floor_space_(m2)_______________________________ (tfcfsp)______________________ 1.8228E+03 OP + TF_coil_power_conv._building_volume_(m3)________________________________ (tfcbv)_______________________ 1.0937E+04 OP + TF_coil_AC_inductive_power_demand_(MW)__________________________________ (xpwrmw)______________________ 1.8768E+01 OP + Total_steady_state_AC_power_demand_(MW)_________________________________ (tfacpd)______________________ 1.0434E+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)______________________ 2.9630E+02 OP + Sum_of_PF_power_supply_ratings_(MVA)____________________________________ (spsmva)______________________ 3.0313E+02 OP Total_PF_coil_circuit_bus_length_(m)____________________________________ (spfbusl)_____________________ 2.4480E+03 OP - Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6460E+02 OP - Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6460E+02 OP + Total_PF_coil_bus_resistive_power_(kW)__________________________________ (pfbuspwr)____________________ 9.6485E+02 OP + Total_PF_coil_resistive_power_(kW)______________________________________ (srcktpm)_____________________ 9.6485E+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)_____________________ 2.8232E+04 OP - Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.6991E+02 OP + Maximum_stored_energy_in_poloidal_field_(MJ)____________________________ (ensxpfm)_____________________ 2.8804E+04 OP + Peak_absolute_rate_of_change_of_stored_energy_in_poloidal_field_(MW)____ (peakpoloidalpower)___________ 1.7319E+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))_____________________ 2.2321E+01 OP + N2_pump_speed_provided_(m3/s)___________________________________________ (snet(1))_____________________ 2.3404E+01 OP Plasma_chamber_volume_(m3)______________________________________________ (volume)______________________ 2.2588E+03 OP - Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6683E-01 OP - Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6683E-03 + Chamber_pressure_after_burn_(Pa)________________________________________ (pend)________________________ 1.6698E-01 OP + Chamber_pressure_before_burn_(Pa)_______________________________________ (pstart)______________________ 1.6698E-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))_____________________ 5.4016E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(2))_____________________ 5.6700E+01 OP Divertor_chamber_gas_pressure_(Pa)______________________________________ (prdiv)_______________________ 3.6000E-01 - Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.7483E-01 OP - Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 3.7300E+01 OP - Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 3.7300E+01 OP - D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 2.6937E-05 OP - Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 3.7300E+01 OP - D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 5.4016E+01 OP + Helium_gas_fraction_in_divertor_chamber_________________________________ (fhe)_________________________ 1.7218E-01 OP + Required_helium_pump_speed_(m3/s)_______________________________________ (s(3))________________________ 3.8423E+01 OP + Helium_pump_speed_provided_(m3/s)_______________________________________ (snet(3))_____________________ 3.8423E+01 OP + D-T_fuelling_rate_(kg/s)________________________________________________ (frate)_______________________ 2.7747E-05 OP + Required_D-T_pump_speed_(m3/s)__________________________________________ (s(4))________________________ 3.8423E+01 OP + D-T_pump_speed_provided_(m3/s)__________________________________________ (snet(4))_____________________ 5.6700E+01 OP Number_of_large_pump_ducts______________________________________________ (nduct)_______________________ 16 - Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 4.6838E-01 OP - Passage_length_(m)______________________________________________________ (l1)__________________________ 1.6968E+00 OP - Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 5.6206E-01 OP + Passage_diameter,_divertor_to_ducts_(m)_________________________________ (d(imax))_____________________ 4.7857E-01 OP + Passage_length_(m)______________________________________________________ (l1)__________________________ 1.7160E+00 OP + Diameter_of_ducts_(m)___________________________________________________ (dout)________________________ 5.7428E-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)_______________________ 3.2000E+01 OP # Plant Buildings System # - Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9419E+05 - Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9491E+01 - Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3604E+05 - Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1278E+06 + Internal_volume_of_reactor_building_(m3)________________________________ (vrci)________________________ 9.9708E+05 + Dist_from_centre_of_torus_to_bldg_wall_(m)______________________________ (wrbi)________________________ 3.9531E+01 + Effective_floor_area_(m2)_______________________________________________ (efloor)______________________ 3.3660E+05 + Reactor_building_volume_(m3)____________________________________________ (rbv)_________________________ 1.1310E+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)________________________ 5.1899E+04 + Electrical_building_volume_(m3)_________________________________________ (elev)________________________ 5.1937E+04 Control_building_volume_(m3)____________________________________________ (conv)________________________ 6.0000E+04 - Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4780E+04 + Cryogenics_building_volume_(m3)_________________________________________ (cryv)________________________ 1.4976E+04 Administration_building_volume_(m3)_____________________________________ (admv)________________________ 1.0000E+05 Shops_volume_(m3)_______________________________________________________ (shov)________________________ 1.0000E+05 - Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5707E+06 + Total_volume_of_nuclear_buildings_(m3)__________________________________ (volnucb)_____________________ 1.5738E+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)_______________________ 3.5616E+01 OP - Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.8780E+02 OP - PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.0671E+01 OP - TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 9.8548E+00 OP - Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.5080E+02 OP + Cryoplant_electric_power_(MW)___________________________________________ (crymw)_______________________ 3.6566E+01 OP + Primary_coolant_pumps_(MW)______________________________________________ (htpmw..)_____________________ 1.9053E+02 OP + PF_coil_power_supplies_(MW)_____________________________________________ (ppfmw)_______________________ 8.5511E+01 OP + TF_coil_power_supplies_(MW)_____________________________________________ (ptfmw)_______________________ 1.0434E+01 OP + Plasma_heating_supplies_(MW)____________________________________________ (pheatingmw)__________________ 1.6029E+02 OP Tritium_processing_(MW)_________________________________________________ (trithtmw..)__________________ 1.5000E+01 Vacuum_pumps__(MW)______________________________________________________ (vachtmw..)___________________ 5.0000E-01 - Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.3564E+02 OP - Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5405E+01 OP + Total_pulsed_power_(MW)_________________________________________________ (pacpmw)______________________ 5.5432E+02 OP + Total_base_power_required_at_all_times_(MW)_____________________________ (fcsht)_______________________ 5.5490E+01 OP # Cryogenics # - Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4613E-02 OP + Conduction_and_radiation_heat_loads_on_cryogenic_components_(MW)________ (qss/1.0d6)___________________ 1.4779E-02 OP Nuclear_heating_of_cryogenic_components_(MW)____________________________ (qnuc/1.0d6)__________________ 1.3000E-02 OP - AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.7379E-03 OP - Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.8456E-02 OP - 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2413E-02 OP - Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2219E-02 OP + AC_losses_in_cryogenic_components_(MW)__________________________________ (qac/1.0d6)___________________ 3.8170E-03 OP + Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9539E-02 OP + 45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.3011E-02 OP + Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.4146E-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)______________________ 3.5616E+01 OP + Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 3.6566E+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 @@ -1108,77 +1108,77 @@ 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)_______________ 1.6173E+02 OP - Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6485E+00 OP - Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 6.9679E-03 OP - Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8590E+02 OP - Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.0091E-03 OP - Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.8948E+00 OP - Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.8780E+02 OP + Mechanical_pumping_power_for_FW_and_blanket_cooling_loop_including_heat_ (htpmw_fw_blkt)_______________ 1.6407E+02 OP + Mechanical_pumping_power_for_divertor_(MW)______________________________ (htpmw_div)___________________ 1.6906E+00 OP + Mechanical_pumping_power_for_shield_and_vacuum_vessel_(MW)______________ (htpmw_shld)__________________ 7.0688E-03 OP + Electrical_pumping_power_for_FW_and_blanket_(MW)________________________ (htpmwe_fw_blkt)______________ 1.8858E+02 OP + Electrical_pumping_power_for_shield_(MW)________________________________ (htpmwe_shld)_________________ 8.1250E-03 OP + Electrical_pumping_power_for_divertor_(MW)______________________________ (htpmwe_div)__________________ 1.9433E+00 OP + Total_electrical_pumping_power_for_primary_coolant_(MW)_________________ (htpmw)_______________________ 1.9053E+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)________________ 1.5480E-01 - Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 1.9788E+03 - Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.5616E+01 - Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5405E+01 - Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4414E+01 - Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 7.5398E+01 + Fraction_of_total_high-grade_thermal_power_to_divertor__________________ (pdivfraction)________________ 1.5623E-01 + Total_power_leaving_reactor_(across_vacuum_vessel_boundary)_(MW)________ ______________________________ 2.0111E+03 + Heat_removal_from_cryogenic_plant_(MW)__________________________________ (crypmw)______________________ 3.6566E+01 + Heat_removal_from_facilities_(MW)_______________________________________ (fachtmw)_____________________ 5.5490E+01 + Coolant_pumping_efficiency_losses_(MW)__________________________________ (htpsecmw)____________________ 2.4769E+01 + Heat_removal_from_injection_power_(MW)__________________________________ (pinjht)______________________ 8.0143E+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)____________________ 2.1745E+02 - Total_High-grade_thermal_power_(MW)_____________________________________ (pthermmw)____________________ 2.1405E+03 + Total_low-grade_thermal_power_(MW)______________________________________ (psechtmw)____________________ 2.2417E+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)__________________ 2.9018E+02 - Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 9.0174E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8036E+02 - Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0308E+02 - Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2453E+00 - Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.3634E-01 - Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 7.5398E+01 - Total_(MW)______________________________________________________________ ______________________________ 3.8036E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.5971E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0396E+02 - Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 7.5398E+01 - Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.3634E-01 - Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6338E+02 - Total_(MW)______________________________________________________________ ______________________________ 2.1404E+03 - Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8078E+03 - Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4006E+00 - Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.3135E+02 + Transport_power_from_scaling_law_(MW)___________________________________ (pscalingmw)__________________ 2.9785E+02 + Radiation_power_from_inside_"coreradius"_(MW)___________________________ (pcoreradmw.)_________________ 9.1650E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8950E+02 + Alpha_power_deposited_in_plasma_(MW)____________________________________ (falpha*palpmw)_______________ 3.0746E+02 + Power_from_charged_products_of_DD_and/or_D-He3_fusion_(MW)______________ (pchargemw.)__________________ 1.2659E+00 + Ohmic_heating_(MW)______________________________________________________ (pohmmw.)_____________________ 6.2284E-01 + Injected_power_deposited_in_plasma_(MW)_________________________________ (pinjmw)______________________ 8.0143E+01 + Total_(MW)______________________________________________________________ ______________________________ 3.8950E+02 + Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.6202E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0836E+02 + Injected_power_(MW)_____________________________________________________ (pinjmw.)_____________________ 8.0143E+01 + Ohmic_power_(MW)________________________________________________________ (pohmmw.)_____________________ 6.2284E-01 + Power_deposited_in_primary_coolant_by_pump_(MW)_________________________ (htpmw_mech)__________________ 1.6576E+02 + Total_(MW)______________________________________________________________ ______________________________ 2.1751E+03 + Heat_extracted_from_first_wall_and_blanket_(MW)_________________________ (pthermfw_blkt)_______________ 1.8339E+03 + Heat_extracted_from_shield__(MW)________________________________________ (pthermshld)__________________ 1.4208E+00 + Heat_extracted_from_divertor_(MW)_______________________________________ (pthermdiv)___________________ 3.3982E+02 Nuclear_and_photon_power_lost_to_H/CD_system_(MW)_______________________ (psechcd)_____________________ 0.0000E+00 - Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.4103E-02 - Total_(MW)______________________________________________________________ ______________________________ 2.1405E+03 - Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.0000E+02 + Nuclear_power_lost_to_TF_(MW)___________________________________________ (ptfnuc)______________________ 2.5118E-02 + Total_(MW)______________________________________________________________ ______________________________ 2.1752E+03 + Net_electric_power_output(MW)___________________________________________ (pnetelmw.)___________________ 4.0001E+02 Required_Net_electric_power_output(MW)__________________________________ (pnetelin)____________________ 4.0000E+02 - Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.5080E+02 - Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.8780E+02 + Electric_power_for_heating_and_current_drive_(MW)_______________________ (pinjwp)______________________ 1.6029E+02 + Electric_power_for_primary_coolant_pumps_(MW)___________________________ (htpmw)_______________________ 1.9053E+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)______________________ 3.5616E+01 - Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 9.8548E+00 - Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2352E+00 - All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5405E+01 - Total_(MW)______________________________________________________________ (tot_plant_power)_____________ 8.5621E+02 - Total_(MW)______________________________________________________________ ______________________________ 8.5621E+02 - Gross_electrical_output*_(MW)___________________________________________ (pgrossmw)____________________ 8.5621E+02 - Fusion_power_(MW)_______________________________________________________ (powfmw)______________________ 1.5971E+03 - Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0396E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9010E+03 - Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.0000E+02 - Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.2843E+03 - Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.1745E+02 - Total_(MW)______________________________________________________________ ______________________________ 1.9018E+03 - Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.1041E+01 - Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.5046E+01 + Electric_power_for_cryoplant_(MW)_______________________________________ (crypmw)______________________ 3.6566E+01 + Electric_power_for_TF_coils_(MW)________________________________________ (tfacpd)______________________ 1.0434E+01 + Electric_power_for_PF_coils_(MW)________________________________________ (pfwpmw)______________________ 1.2422E+00 + All_other_internal_electric_power_requirements_(MW)_____________________ (fachtmw)_____________________ 5.5490E+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)______________________ 1.6202E+03 + Power_from_energy_multiplication_in_blanket_and_shield_(MW)_____________ (emultmw)_____________________ 3.0836E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9285E+03 + Net_electrical_output_(MW) _____________________________________________ (pnetelmw)____________________ 4.0001E+02 + Heat_rejected_by_main_power_conversion_circuit_(MW)_____________________ (rejected_main)_______________ 1.3051E+03 + Heat_rejected_by_other_cooling_circuits_(MW)____________________________ (psechtmw)____________________ 2.2417E+02 + Total_(MW)______________________________________________________________ ______________________________ 1.9293E+03 + Net_electric_power_/_total_nuclear_power_(%)____________________________ (pnetelmw/(powfmw+emultmw)____ 2.0741E+01 + Net_electric_power_/_total_fusion_power_(%)_____________________________ (pnetelmw/powfmw)_____________ 2.4689E+01 Gross_electric_power*_/_high_grade_heat_(%)_____________________________ (etath)_______________________ 4.0000E+01 - Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.3282E-01 + Recirculating_power_fraction____________________________________________ (cirpowfr)____________________ 5.4025E-01 # Water usage during plant operation (secondary cooling) # - Volume_used_in_cooling_tower_(m3/day)___________________________________ (waterusetower)_______________ 5.4602E+04 OP - Volume_used_in_recirculating_water_system_(m3/day)______________________ (wateruserecirc)______________ 1.8320E+04 OP - Volume_used_in_once-through_water_system_(m3/day)_______________________ (wateruseonethru)_____________ 1.7954E+06 OP + 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 # Errors and Warnings # # Errors and Warnings # PROCESS_error_status_flag_______________________________________________ (error_status)________________ 2 diff --git a/tests/regression/scenarios/large-tokamak/ref.OUT.DAT b/tests/regression/scenarios/large-tokamak/ref.OUT.DAT index f64da13c55..e6db546705 100644 --- a/tests/regression/scenarios/large-tokamak/ref.OUT.DAT +++ b/tests/regression/scenarios/large-tokamak/ref.OUT.DAT @@ -25,15 +25,15 @@ ************************************************************************************************************** Program : - Version : 3.0.1 Release Date :: 2023-11-01 - Tag No. : v3.0.1-41-gc698cd140 - Branch : convert-physics-to-python - Git log : Convert Physics.f90 to Python - Date/time : 31 Jan 2024 13:28:34 +00:00(hh:mm) UTC + Version : 3.0.2 Release Date :: 2024-01-25 + Tag No. : v3.0.2-7-gec9530fb1 + Branch : 3033-inequality-constraint-for-injected-power-coded-with-the-wrong-signbug + Git log : Merge branch |main| into 3033-inequality-constraint-for-injected-power-coded-with-the-wrong-signbug + Date/time : 8 Feb 2024 10:56:40 +00:00(hh:mm) UTC User : timothynunn Computer : L0268-iMac Directory : /Users/timothynunn/process - Input : /private/var/folders/2c/5k4t0wm94jxdmnqwdvn_h59r0000gq/T/pytest-of-timothynunn/pytest-45/test_scenario_large_tokamak_0/IN.DAT + Input : /private/var/folders/2c/5k4t0wm94jxdmnqwdvn_h59r0000gq/T/pytest-of-timothynunn/pytest-56/test_scenario_large_tokamak_0/IN.DAT Run title : Generic large tokamak Run type : Reactor concept design: Pulsed tokamak model, (c) CCFE @@ -70,7 +70,7 @@ 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) 5.381E-05 OP + Square root of the sum of squares of the constraint residuals (sqsumsq) 1.871E-04 OP VMCON convergence parameter (convergence_parameter) 0.000E+00 OP Normalised objective function (norm_objf) 1.600E+00 OP Number of VMCON iterations (nviter) 0 OP @@ -81,108 +81,109 @@ PROCESS has successfully optimised the iteration variables to minimise the figur as shown by the following iteration variables that are at or near to the edge of their prescribed range : - ftburn = 9.9849E-01 is at or above its upper bound: 1.0000E+00 + ftburn = 9.9940E-01 is at or above its upper bound: 1.0000E+00 fpnetel = 1.0000E+00 is at or above its upper bound: 1.0000E+00 - fvdump = 9.9851E-01 is at or above its upper bound: 1.0000E+00 - vdalw = 9.9851E+00 is at or above its upper bound: 1.0000E+01 - fjprot = 9.9818E-01 is at or above its upper bound: 1.0000E+00 - ftmargoh = 9.9869E-01 is at or above its upper bound: 1.0000E+00 - fstrcase = 9.9838E-01 is at or above its upper bound: 1.0000E+00 + fjprot = 9.9639E-01 is at or above its upper bound: 1.0000E+00 + ftmargtf = 9.9673E-01 is at or above its upper bound: 1.0000E+00 + ftmargoh = 9.9653E-01 is at or above its upper bound: 1.0000E+00 + fpsepbqar = 1.0000E+00 is at or above its upper bound: 1.0000E+00 + fstrcase = 9.9670E-01 is at or above its upper bound: 1.0000E+00 rmajor = 8.0000E+00 is at or below its lower bound: 8.0000E+00 - hfact = 1.1947E+00 is at or above its upper bound: 1.2000E+00 - thwcndut = 8.0091E-03 is at or below its lower bound: 8.0000E-03 + hfact = 1.1886E+00 is at or above its upper bound: 1.2000E+00 + thwcndut = 8.0099E-03 is at or below its lower bound: 8.0000E-03 + cpttf = 8.9795E+04 is at or above its upper bound: 9.0000E+04 The solution vector is comprised as follows : final final / i value initial - 1 beta 3.4120E-02 1.1373 - 2 dene 8.0594E+19 1.0746 - 3 fwalld 5.0034E-01 0.5003 - 4 ffuspow 5.3236E-01 0.5324 - 5 ftburn 9.9849E-01 0.9985 - 6 flhthresh 1.6284E+00 1.6284 - 7 fpinj 3.7699E-01 0.3770 + 1 beta 3.3648E-02 1.1216 + 2 dene 8.0667E+19 1.0756 + 3 fwalld 5.0758E-01 0.5076 + 4 ffuspow 5.4006E-01 0.5401 + 5 ftburn 9.9940E-01 0.9994 + 6 flhthresh 1.6735E+00 1.6735 + 7 fpinj 4.0071E-01 0.4007 8 fpnetel 1.0000E+00 1.0000 - 9 fbetatry 5.1462E-01 1.0292 - 10 fpeakb 8.6061E-01 0.8606 - 11 coheof 2.0403E+07 1.3602 - 12 fjohc 5.0665E-01 0.8444 - 13 fjohc0 5.5864E-01 0.9311 - 14 fcohbop 9.6866E-01 1.0763 - 15 fiooic 7.1738E-01 1.1037 - 16 fvdump 9.9851E-01 0.9985 - 17 vdalw 9.9851E+00 0.9985 - 18 fjprot 9.9818E-01 0.9982 - 19 ftmargtf 9.8389E-01 0.9839 - 20 ftmargoh 9.9869E-01 0.9987 - 21 ftaulimit 7.1296E-01 0.7130 - 22 fmaxvvstress 4.3859E-01 0.4386 - 23 foh_stress 9.2954E-01 0.9295 + 9 fbetatry 5.0870E-01 1.0174 + 10 fpeakb 8.6988E-01 0.8699 + 11 coheof 2.0264E+07 1.3510 + 12 fjohc 5.5541E-01 0.9257 + 13 fjohc0 5.4190E-01 0.9032 + 14 fcohbop 9.4380E-01 1.0487 + 15 fiooic 7.1737E-01 1.1036 + 16 fvdump 9.5837E-01 0.9584 + 17 vdalw 9.5837E+00 0.9584 + 18 fjprot 9.9639E-01 0.9964 + 19 ftmargtf 9.9673E-01 0.9967 + 20 ftmargoh 9.9653E-01 0.9965 + 21 ftaulimit 7.1930E-01 0.7193 + 22 fmaxvvstress 4.2966E-01 0.4297 + 23 foh_stress 9.0092E-01 0.9009 24 fne0 5.9638E-01 0.5964 - 25 fpsepbqar 9.6274E-01 0.9627 - 26 fstrcase 9.9838E-01 0.9984 - 27 fstrcond 8.4907E-01 0.8491 - 28 bt 5.2376E+00 0.9189 + 25 fpsepbqar 1.0000E+00 1.0000 + 26 fstrcase 9.9670E-01 0.9967 + 27 fstrcond 8.5185E-01 0.8519 + 28 bt 5.2940E+00 0.9288 29 rmajor 8.0000E+00 1.0000 - 30 te 1.2437E+01 1.0364 - 31 hfact 1.1947E+00 1.0861 + 30 te 1.2489E+01 1.0407 + 31 hfact 1.1886E+00 1.0805 32 tfcth 1.2000E+00 1.0000 - 33 ohcth 5.5625E-01 1.1125 - 34 q 3.5610E+00 1.0174 - 35 bore 2.0251E+00 1.0126 - 36 fvsbrnni 4.1997E-01 1.0499 - 37 tdmptf 1.7534E+01 0.7014 - 38 thkcas 2.6741E-01 0.5348 - 39 thwcndut 8.0091E-03 1.0011 - 40 fcutfsu 8.4176E-01 1.0522 - 41 cpttf 8.4815E+04 1.3048 - 42 ralpne 8.5281E-02 0.8528 - 43 oh_steel_frac 5.2166E-01 0.6521 - 44 fimp(13) 5.6341E-04 1.4826 - 45 dr_tf_wp 4.9973E-01 0.9995 + 33 ohcth 5.7587E-01 1.1517 + 34 q 3.5961E+00 1.0275 + 35 bore 1.9854E+00 0.9927 + 36 fvsbrnni 4.3358E-01 1.0839 + 37 tdmptf 1.8429E+01 0.7372 + 38 thkcas 2.8216E-01 0.5643 + 39 thwcndut 8.0099E-03 1.0012 + 40 fcutfsu 8.4212E-01 1.0526 + 41 cpttf 8.9795E+04 1.3815 + 42 ralpne 8.3954E-02 0.8395 + 43 oh_steel_frac 5.1868E-01 0.6483 + 44 fimp(13) 5.7149E-04 1.5039 + 45 dr_tf_wp 5.0416E-01 1.0083 The following equality constraint residues should be close to zero : physical constraint normalised constraint residue residue - 1 Beta consistency = 3.4120E-02 -5.4308E-10 1.5917E-08 - 2 Global power balance consistency = 2.0144E-01 MW/m3 -2.6574E-08 MW/m3 1.3192E-07 - 3 Radial build consistency = 8.0000E+00 m -3.3427E-09 m 4.1783E-10 - 4 Density upper limit < 8.9254E+19 /m3 3.0136E+12 /m3 3.3764E-08 - 5 Neutron wall load upper limit < 1.0007E+00 MW/m2 3.0889E-07 MW/m2 3.0867E-07 - 6 Fusion power upper limit < 3.0000E+03 MW -5.2427E-04 MW 3.2827E-07 - 7 Burn time lower limit > 7.2109E+03 sec 4.6779E-01 sec -6.4872E-05 - 8 L-H power threshold limit > 9.6473E+01 MW 7.0922E-05 MW -7.3515E-07 - 9 Injection power upper limit < 2.0000E+02 MW 1.7158E+02 MW 8.9159E-08 - 10 Net electric power lower limit > 4.0000E+02 MW 3.5009E-03 MW 8.7522E-06 - 11 Beta upper limit < 5.8050E-02 -1.4873E-09 -2.5620E-08 - 12 Peak toroidal field upper limit < 1.4000E+01 T 2.0987E-07 T -1.7419E-08 - 13 CS coil EOF current density limit < 4.0271E+07 A/m2 -1.4001E+00 A/m2 -3.4768E-08 - 14 CS coil BOP current density limit < 3.5378E+07 A/m2 -1.1279E+00 A/m2 -3.1882E-08 - 15 I_op / I_critical (TF coil) < 3.5602E+07 A/m2 1.1386E+01 A/m2 -4.4579E-07 - 16 Dump voltage upper limit < 9.9851E+00 V 1.4852E-02 V -5.2052E-08 - 17 J_winding pack/J_protection limit < 2.5587E+07 A/m2 0.0000E+00 A/m2 -6.3741E-08 - 18 TF coil temp. margin lower limit > 1.5000E+00 K -2.4557E-02 K -1.3486E-06 - 19 CS temperature margin lower limit > 1.5000E+00 K -1.9733E-03 K -2.6193E-08 - 20 taup/taueff > 5.0000E+00 -1.1056E-06 1.5765E-07 - 21 Dump time set by VV stress < 1.4300E+08 Pa 1.9484E+01 Pa -1.3625E-07 - 22 CS Tresca yield criterion < 7.5000E+08 Pa 5.2843E+07 Pa -4.4229E-08 - 23 ne0 > neped > 5.9638E-01 /m3 2.5832E-08 /m3 -4.3315E-08 - 24 Upper Lim. on Psep * Bt / q A R < 1.0000E+01 MWT/m -3.7258E-01 MWT/m 7.3919E-07 - 25 TF coil case stress upper limit < 7.5000E+08 Pa -9.6259E+01 Pa -1.2835E-07 - 26 TF coil conduit stress upper lim < 7.5000E+08 Pa -8.5283E+01 Pa -1.1371E-07 + 1 Beta consistency = 3.3648E-02 -2.2130E-08 6.5770E-07 + 2 Global power balance consistency = 2.0628E-01 MW/m3 -2.5357E-08 MW/m3 1.2292E-07 + 3 Radial build consistency = 8.0000E+00 m 5.8468E-10 m -7.3085E-11 + 4 Density upper limit < 8.9334E+19 /m3 1.4536E+12 /m3 1.6272E-08 + 5 Neutron wall load upper limit < 1.0152E+00 MW/m2 1.4457E-07 MW/m2 1.4241E-07 + 6 Fusion power upper limit < 3.0000E+03 MW -4.3041E-04 MW 2.6565E-07 + 7 Burn time lower limit > 7.2043E+03 sec 8.6535E-01 sec -1.2011E-04 + 8 L-H power threshold limit > 9.7416E+01 MW 3.0092E-05 MW -3.0891E-07 + 9 Injection power upper limit < 2.0000E+02 MW 4.8836E-05 MW 2.4418E-07 + 10 Net electric power lower limit > 4.0000E+02 MW 6.0182E-03 MW 1.5045E-05 + 11 Beta upper limit < 5.7842E-02 1.4288E-08 2.4702E-07 + 12 Peak toroidal field upper limit < 1.4000E+01 T -3.1431E-08 T 2.5809E-09 + 13 CS coil EOF current density limit < 3.6485E+07 A/m2 -3.0737E+00 A/m2 -8.4245E-08 + 14 CS coil BOP current density limit < 3.5294E+07 A/m2 6.8446E-02 A/m2 1.9393E-09 + 15 I_op / I_critical (TF coil) < 3.5688E+07 A/m2 9.8245E+00 A/m2 -3.8375E-07 + 16 Dump voltage upper limit < 9.5837E+00 V 3.9754E-01 V -1.5214E-04 + 17 J_winding pack/J_protection limit < 2.5694E+07 A/m2 0.0000E+00 A/m2 -2.9894E-07 + 18 TF coil temp. margin lower limit > 1.5000E+00 K -4.9221E-03 K -1.0631E-06 + 19 CS temperature margin lower limit > 1.5000E+00 K -5.2271E-03 K 8.0251E-08 + 20 taup/taueff > 5.0000E+00 1.3049E-07 -1.8772E-08 + 21 Dump time set by VV stress < 1.4300E+08 Pa 1.4337E+01 Pa -1.0026E-07 + 22 CS Tresca yield criterion < 7.5000E+08 Pa 7.4308E+07 Pa -1.6044E-07 + 23 ne0 > neped > 5.9638E-01 /m3 1.1711E-08 /m3 -1.9637E-08 + 24 Upper Lim. on Psep * Bt / q A R < 1.0000E+01 MWT/m -4.9789E-06 MWT/m 4.9789E-07 + 25 TF coil case stress upper limit < 7.5000E+08 Pa -3.5068E+02 Pa -4.6757E-07 + 26 TF coil conduit stress upper lim < 7.5000E+08 Pa -3.1032E+02 Pa -4.1375E-07 ******************************************** Final Feasible Point ******************************************** *************************************** Power Reactor Costs (1990 US$) *************************************** - First wall / blanket life (years) (fwbllife) 6.246 - Divertor life (years) (divlife.) 4.495 - Cost of electricity (m$/kWh) (coe) 508.024 + First wall / blanket life (years) (fwbllife) 6.157 + Divertor life (years) (divlife.) 3.977 + Cost of electricity (m$/kWh) (coe) 512.574 Power Generation Costs : @@ -196,18 +197,18 @@ PROCESS has successfully optimised the iteration variables to minimise the figur ************************ Structures and Site Facilities ************************ (c211) Site improvements, facilities, land (M$) 35.20 - (c212) Reactor building cost (M$) 451.13 + (c212) Reactor building cost (M$) 452.38 (c213) Turbine building cost (M$) 38.00 (c2141) Reactor maintenance building cost (M$) 103.07 (c2142) Warm shop cost (M$) 57.64 (c215) Tritium building cost (M$) 14.80 - (c216) Electrical equipment building cost (M$) 19.72 + (c216) Electrical equipment building cost (M$) 19.74 (c2171) Additional buildings cost (M$) 18.00 (c2172) Control room buildings cost (M$) 21.00 (c2173) Shop and warehouses cost (M$) 11.50 - (c2174) Cryogenic building cost (M$) 6.80 + (c2174) Cryogenic building cost (M$) 6.89 - (c21) Total account 21 cost (M$) 776.86 + (c21) Total account 21 cost (M$) 778.22 ******************************* Reactor Systems ******************************** @@ -220,86 +221,86 @@ PROCESS has successfully optimised the iteration variables to minimise the figur (c22131) Bulk shield cost (M$) 78.39 (c22132) Penetration shielding cost (M$) 78.39 (c2213) Total shield cost (M$) 156.79 - (c2214) Total support structure cost (M$) 40.48 + (c2214) Total support structure cost (M$) 40.93 (c2215) Divertor cost (M$) 41.66 - (c221) Total account 221 cost (M$) 1411.90 + (c221) Total account 221 cost (M$) 1412.35 *********************************** Magnets ************************************ - (c22211) TF coil conductor cost (M$) 126.31 - (c22212) TF coil winding cost (M$) 56.78 - (c22213) TF coil case cost (M$) 429.76 - (c22214) TF intercoil structure cost (M$) 147.87 - (c22215) TF coil gravity support structure (M$) 44.16 - (c2221) TF magnet assemblies cost (M$) 804.87 - (c22221) PF coil conductor cost (M$) 463.10 - (c22222) PF coil winding cost (M$) 76.57 - (c22223) PF coil case cost (M$) 95.24 - (c22224) PF coil support structure cost (M$) 8.01 - (c2222) PF magnet assemblies cost (M$) 642.92 + (c22211) TF coil conductor cost (M$) 132.30 + (c22212) TF coil winding cost (M$) 54.26 + (c22213) TF coil case cost (M$) 443.65 + (c22214) TF intercoil structure cost (M$) 150.66 + (c22215) TF coil gravity support structure (M$) 44.66 + (c2221) TF magnet assemblies cost (M$) 825.52 + (c22221) PF coil conductor cost (M$) 464.09 + (c22222) PF coil winding cost (M$) 76.77 + (c22223) PF coil case cost (M$) 94.86 + (c22224) PF coil support structure cost (M$) 8.02 + (c2222) PF magnet assemblies cost (M$) 643.74 (c2223) Vacuum vessel assembly cost (M$) 254.04 - (c222) Total account 222 cost (M$) 1701.83 + (c222) Total account 222 cost (M$) 1723.31 ******************************* Power Injection ******************************** - (c2231) ECH system cost (M$) 226.19 + (c2231) ECH system cost (M$) 240.43 (c2232) Lower hybrid system cost (M$) 0.00 (c2233) Neutral beam system cost (M$) 0.00 - (c223) Total account 223 cost (M$) 226.19 + (c223) Total account 223 cost (M$) 240.43 ******************************** Vacuum Systems ******************************** (c2241) High vacuum pumps cost (M$) 12.48 (c2242) Backing pumps cost (M$) 4.68 - (c2243) Vacuum duct cost (M$) 2.45 - (c2244) Valves cost (M$) 5.57 + (c2243) Vacuum duct cost (M$) 2.53 + (c2244) Valves cost (M$) 5.74 (c2245) Duct shielding cost (M$) 0.00 (c2246) Instrumentation cost (M$) 1.30 - (c224) Total account 224 cost (M$) 26.48 + (c224) Total account 224 cost (M$) 26.73 ****************************** Power Conditioning ****************************** - (c22511) TF coil power supplies cost (M$) 3.91 - (c22512) TF coil breakers cost (M$) 34.72 - (c22513) TF coil dump resistors cost (M$) 20.80 + (c22511) TF coil power supplies cost (M$) 4.01 + (c22512) TF coil breakers cost (M$) 34.13 + (c22513) TF coil dump resistors cost (M$) 21.32 (c22514) TF coil instrumentation and control (M$) 4.80 - (c22515) TF coil bussing cost (M$) 33.31 - (c2251) Total, TF coil power costs (M$) 97.54 - (c22521) PF coil power supplies cost (M$) 2.79 + (c22515) TF coil bussing cost (M$) 35.27 + (c2251) Total, TF coil power costs (M$) 99.53 + (c22521) PF coil power supplies cost (M$) 2.96 (c22522) PF coil instrumentation and control (M$) 3.60 (c22523) PF coil bussing cost (M$) 12.00 (c22524) PF coil burn power supplies cost (M$) 1.27 (c22525) PF coil breakers cost (M$) 14.71 - (c22526) PF coil dump resistors cost (M$) 4.23 + (c22526) PF coil dump resistors cost (M$) 4.32 (c22527) PF coil ac breakers cost (M$) 0.90 - (c2252) Total, PF coil power costs (M$) 39.50 + (c2252) Total, PF coil power costs (M$) 39.75 (c2253) Total, energy storage cost (M$) 16.86 - (c225) Total account 225 cost (M$) 153.90 + (c225) Total account 225 cost (M$) 156.15 **************************** Heat Transport System ***************************** - (cpp) Pumps and piping system cost (M$) 36.43 - (chx) Primary heat exchanger cost (M$) 70.89 - (c2261) Total, reactor cooling system cost (M$) 107.32 - (cppa) Pumps, piping cost (M$) 27.85 - (c2262) Total, auxiliary cooling system cost (M$) 27.85 - (c2263) Total, cryogenic system cost (M$) 167.41 + (cpp) Pumps and piping system cost (M$) 36.79 + (chx) Primary heat exchanger cost (M$) 71.69 + (c2261) Total, reactor cooling system cost (M$) 108.49 + (cppa) Pumps, piping cost (M$) 28.42 + (c2262) Total, auxiliary cooling system cost (M$) 28.42 + (c2263) Total, cryogenic system cost (M$) 170.39 - (c226) Total account 226 cost (M$) 302.58 + (c226) Total account 226 cost (M$) 307.29 ***************************** Fuel Handling System ***************************** (c2271) Fuelling system cost (M$) 22.30 - (c2272) Fuel processing and purification cost (M$) 101.52 - (c2273) Atmospheric recovery systems cost (M$) 57.94 - (c2274) Nuclear building ventilation cost (M$) 69.06 + (c2272) Fuel processing and purification cost (M$) 102.29 + (c2273) Atmospheric recovery systems cost (M$) 58.09 + (c2274) Nuclear building ventilation cost (M$) 69.20 - (c227) Total account 227 cost (M$) 250.82 + (c227) Total account 227 cost (M$) 251.88 ************************* Instrumentation and Control ************************** @@ -311,21 +312,21 @@ PROCESS has successfully optimised the iteration variables to minimise the figur **************************** Total Account 22 Cost ***************************** - (c22) Total account 22 cost (M$) 4348.71 + (c22) Total account 22 cost (M$) 4393.13 *************************** Turbine Plant Equipment **************************** - (c23) Turbine plant equipment cost (M$) 173.80 + (c23) Turbine plant equipment cost (M$) 176.13 *************************** Electric Plant Equipment *************************** (c241) Switchyard equipment cost (M$) 18.40 - (c242) Transformers cost (M$) 7.82 - (c243) Low voltage equipment cost (M$) 6.34 + (c242) Transformers cost (M$) 8.03 + (c243) Low voltage equipment cost (M$) 6.45 (c244) Diesel backup equipment cost (M$) 6.80 (c245) Auxiliary facilities cost (M$) 1.50 - (c24) Total account 24 cost (M$) 40.85 + (c24) Total account 24 cost (M$) 41.18 ************************ Miscellaneous Plant Equipment ************************* @@ -333,46 +334,46 @@ PROCESS has successfully optimised the iteration variables to minimise the figur **************************** Heat Rejection System ***************************** - (c26) Heat rejection system cost (M$) 49.08 + (c26) Heat rejection system cost (M$) 49.88 ****************************** Plant Direct Cost ******************************* - (cdirt) Plant direct cost (M$) 5414.30 + (cdirt) Plant direct cost (M$) 5463.54 ****************************** Reactor Core Cost ******************************* - (crctcore) Reactor core cost (M$) 3339.92 + (crctcore) Reactor core cost (M$) 3376.08 ******************************** Indirect Cost ********************************* - (c9) Indirect cost (M$) 1805.67 + (c9) Indirect cost (M$) 1822.09 ****************************** Total Contingency ******************************* - (ccont) Total contingency (M$) 1407.89 + (ccont) Total contingency (M$) 1420.70 ******************************* Constructed Cost ******************************* - (concost) Constructed cost (M$) 8627.86 + (concost) Constructed cost (M$) 8706.33 ************************* Interest during Construction ************************* - (moneyint) Interest during construction (M$) 1423.60 + (moneyint) Interest during construction (M$) 1436.54 *************************** Total Capital Investment *************************** - (capcost) Total capital investment (M$) 10051.46 + (capcost) Total capital investment (M$) 10142.87 ********************************************* Plant Availability ********************************************* Allowable blanket neutron fluence (MW-yr/m2) (abktflnc) 5.000E+00 Allowable divertor heat fluence (MW-yr/m2) (adivflnc) 7.000E+00 - First wall / blanket lifetime (years) (bktlife) 6.246E+00 OP - Divertor lifetime (years) (divlife) 4.495E+00 OP - Heating/CD system lifetime (years) (cdrlife) 6.246E+00 OP + First wall / blanket lifetime (years) (bktlife) 6.157E+00 OP + Divertor lifetime (years) (divlife) 3.977E+00 OP + Heating/CD system lifetime (years) (cdrlife) 6.157E+00 OP Total plant lifetime (years) (tlife) 3.000E+01 Total plant availability fraction (cfactr) 8.000E-01 - Number of fusion cycles to reach allowable fw/blanket DPA (bktcycles) 1.600E+04 + Number of fusion cycles to reach allowable fw/blanket DPA (bktcycles) 1.579E+04 *************************************************** Plasma *************************************************** @@ -399,64 +400,64 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Consistency between q0,q,alphaj,rli,dnbeta is enforced Plasma current scaling law used (icurr) 4 - Plasma current (MA) (plascur/1D6) 16.616 OP - Current density profile factor (alphaj) 1.951 OP - Plasma internal inductance, li (rli) 1.220 OP - Vertical field at plasma (T) (bvert) -0.741 OP - Vacuum toroidal field at R (T) (bt) 5.238 ITV - Average poloidal field (T) (bp) 0.867 OP - Total field (sqrt(bp^2 + bt^2)) (T) (btot) 5.309 OP + Plasma current (MA) (plascur/1D6) 16.631 OP + Current density profile factor (alphaj) 1.980 OP + Plasma internal inductance, li (rli) 1.227 OP + Vertical field at plasma (T) (bvert) -0.744 OP + Vacuum toroidal field at R (T) (bt) 5.294 ITV + Average poloidal field (T) (bp) 0.868 OP + Total field (sqrt(bp^2 + bt^2)) (T) (btot) 5.365 OP Safety factor on axis (q0) 1.000 - Safety factor at 95% flux surface (q95) 3.561 ITV - Cylindrical safety factor (qcyl) (qstar) 2.951 OP + Safety factor at 95% flux surface (q95) 3.596 ITV + Cylindrical safety factor (qcyl) (qstar) 2.980 OP Beta Information : - Total plasma beta (beta) 3.412E-02 ITV - Total poloidal beta (betap) 1.279E+00 OP - Total toroidal beta 3.506E-02 OP - Fast alpha beta (betaft) 4.247E-03 OP + Total plasma beta (beta) 3.365E-02 ITV + Total poloidal beta (betap) 1.286E+00 OP + Total toroidal beta 3.455E-02 OP + Fast alpha beta (betaft) 4.224E-03 OP Beam ion beta (betanb) 0.000E+00 OP - (Fast alpha + beam physics_variables.beta)/(thermal physics_variables.be (gammaft) 1.421E-01 OP - Thermal beta 2.987E-02 OP - Thermal poloidal beta 1.120E+00 OP - Thermal toroidal physics_variables.beta (= beta-exp) 3.069E-02 OP - 2nd stability physics_variables.beta : beta_p / (R/a) (eps*betap) 0.426 OP + (Fast alpha + beam physics_variables.beta)/(thermal physics_variables.be (gammaft) 1.435E-01 OP + Thermal beta 2.942E-02 OP + Thermal poloidal beta 1.124E+00 OP + Thermal toroidal physics_variables.beta (= beta-exp) 3.022E-02 OP + 2nd stability physics_variables.beta : beta_p / (R/a) (eps*betap) 0.429 OP 2nd stability physics_variables.beta upper limit (epbetmax) 1.380 - Beta g coefficient (dnbeta) 4.879 OP - Normalised thermal beta 2.511 OP - Normalised total beta 2.868 OP - Normalised toroidal beta (normalised_toroidal 2.947 OP + Beta g coefficient (dnbeta) 4.910 OP + Normalised thermal beta 2.498 OP + Normalised total beta 2.856 OP + Normalised toroidal beta (normalised_toroidal 2.933 OP Limit on thermal beta (betalim) 0.058 OP - Plasma thermal energy (J) 9.488E+08 OP - Total plasma internal energy (J) (total_plasma_internal_en 1.084E+09 OP + Plasma thermal energy (J) 9.543E+08 OP + Total plasma internal energy (J) (total_plasma_internal_en 1.091E+09 OP Temperature and Density (volume averaged) : - Electron temperature (keV) (te) 12.437 ITV - Electron temperature on axis (keV) (te0) 25.614 OP - Ion temperature (keV) (ti) 12.437 - Ion temperature on axis (keV) (ti0) 25.614 OP - Electron temp., density weighted (keV) (ten) 13.745 OP - Electron density (/m3) (dene) 8.059E+19 ITV - Electron density on axis (/m3) (ne0) 1.060E+20 OP - Line-averaged electron density (/m3) (dnla) 8.925E+19 OP + Electron temperature (keV) (te) 12.489 ITV + Electron temperature on axis (keV) (te0) 25.758 OP + Ion temperature (keV) (ti) 12.489 + Ion temperature on axis (keV) (ti0) 25.758 OP + Electron temp., density weighted (keV) (ten) 13.805 OP + Electron density (/m3) (dene) 8.067E+19 ITV + Electron density on axis (/m3) (ne0) 1.061E+20 OP + Line-averaged electron density (/m3) (dnla) 8.933E+19 OP Line-averaged electron density / Greenwald density (dnla_gw) 1.200E+00 OP - Ion density (/m3) (dnitot) 7.153E+19 OP - Fuel density (/m3) (deni) 6.459E+19 OP - Total impurity density with Z > 2 (no He) (/m3) (dnz) 4.581E+16 OP - Helium ion density (thermalised ions only) (/m3) (dnalp) 6.873E+18 OP - Proton density (/m3) (dnprot) 1.921E+16 OP + Ion density (/m3) (dnitot) 7.167E+19 OP + Fuel density (/m3) (deni) 6.483E+19 OP + Total impurity density with Z > 2 (no He) (/m3) (dnz) 4.650E+16 OP + Helium ion density (thermalised ions only) (/m3) (dnalp) 6.772E+18 OP + Proton density (/m3) (dnprot) 1.896E+16 OP Hot beam density (/m3) (dnbeam) 0.000E+00 OP - Density limit from scaling (/m3) (dnelimt) 7.438E+19 OP - Density limit (enforced) (/m3) (boundu(9)*dnelimt) 7.438E+19 OP - Helium ion density (thermalised ions only) / electron density (ralpne) 8.528E-02 ITV + Density limit from scaling (/m3) (dnelimt) 7.445E+19 OP + Density limit (enforced) (/m3) (boundu(9)*dnelimt) 7.445E+19 OP + Helium ion density (thermalised ions only) / electron density (ralpne) 8.395E-02 ITV Impurities Plasma ion densities / electron density: - H_ concentration (fimp(01)) 8.017E-01 OP - He concentration (fimp(02)) 8.528E-02 + H_ concentration (fimp(01)) 8.039E-01 OP + He concentration (fimp(02)) 8.395E-02 Be concentration (fimp(03)) 0.000E+00 C_ concentration (fimp(04)) 0.000E+00 N_ concentration (fimp(05)) 0.000E+00 @@ -467,35 +468,35 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Fe concentration (fimp(10)) 0.000E+00 Ni concentration (fimp(11)) 0.000E+00 Kr concentration (fimp(12)) 0.000E+00 - Xe concentration (fimp(13)) 5.634E-04 ITV + Xe concentration (fimp(13)) 5.715E-04 ITV W_ concentration (fimp(14)) 5.000E-06 - Average mass of all ions (amu) (aion) 2.727E+00 OP + Average mass of all ions (amu) (aion) 2.725E+00 OP - Effective charge (zeff) 2.499 OP + Effective charge (zeff) 2.516 OP Density profile factor (alphan) 1.000 Plasma profile model (ipedestal) 1 Pedestal profiles are used. Density pedestal r/a location (rhopedn) 0.940 - Electron density pedestal height (/m3) (neped) 6.322E+19 OP + Electron density pedestal height (/m3) (neped) 6.328E+19 OP Electron density at pedestal / nGW (fgwped_out) 8.500E-01 Temperature pedestal r/a location (rhopedt) 0.940 Pedestal scaling switch (ieped) 0 Electron temp. pedestal height (keV) (teped) 5.500 Electron temp. at separatrix (keV) (tesep) 0.100 - Electron density at separatrix (/m3) (nesep) 3.719E+19 + Electron density at separatrix (/m3) (nesep) 3.722E+19 Electron density at separatrix / nGW (fgwsep_out) 5.000E-01 Temperature profile index (alphat) 1.450 Temperature profile index beta (tbeta) 2.000 Density Limit using different models : - Old ASDEX model (dlimit(1)) 5.202E+19 OP - Borrass ITER model I (dlimit(2)) 1.074E+20 OP - Borrass ITER model II (dlimit(3)) 4.256E+19 OP - JET edge radiation model (dlimit(4)) 2.997E+21 OP - JET simplified model (dlimit(5)) 4.215E+20 OP - Hugill-Murakami Mq model (dlimit(6)) 6.655E+19 OP - Greenwald model (dlimit(7)) 7.438E+19 OP + Old ASDEX model (dlimit(1)) 5.280E+19 OP + Borrass ITER model I (dlimit(2)) 1.097E+20 OP + Borrass ITER model II (dlimit(3)) 4.358E+19 OP + JET edge radiation model (dlimit(4)) 3.023E+21 OP + JET simplified model (dlimit(5)) 4.340E+20 OP + Hugill-Murakami Mq model (dlimit(6)) 6.661E+19 OP + Greenwald model (dlimit(7)) 7.445E+19 OP Fuel Constituents : @@ -504,104 +505,104 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Fusion Power : - Total fusion power (MW) (powfmw) 1.597E+03 OP - = D-T fusion power (MW) (pdt) 1.595E+03 OP - + D-D fusion power (MW) (pdd) 1.917E+00 OP + Total fusion power (MW) (powfmw) 1.620E+03 OP + = D-T fusion power (MW) (pdt) 1.618E+03 OP + + D-D fusion power (MW) (pdd) 1.949E+00 OP + D-He3 fusion power (MW) (pdhe3) 0.000E+00 OP - Alpha power: total (MW) (palpmw) 3.190E+02 OP + Alpha power: total (MW) (palpmw) 3.236E+02 OP Alpha power: beam-plasma (MW) (palpnb) 0.000E+00 OP - Neutron power (MW) (pneutmw) 1.277E+03 OP - Charged particle power (excluding alphas) (MW) (pchargemw) 1.245E+00 OP - Total power deposited in plasma (MW) (tot_power_plasma) 3.804E+02 OP + Neutron power (MW) (pneutmw) 1.295E+03 OP + Charged particle power (excluding alphas) (MW) (pchargemw) 1.266E+00 OP + Total power deposited in plasma (MW) (tot_power_plasma) 3.895E+02 OP Radiation Power (excluding SOL): - Bremsstrahlung radiation power (MW) (pbrempv*vol) 6.449E+01 OP - Line radiation power (MW) (plinepv*vol) 1.442E+02 OP - Synchrotron radiation power (MW) (psyncpv*vol) 1.456E+01 OP + Bremsstrahlung radiation power (MW) (pbrempv*vol) 6.519E+01 OP + Line radiation power (MW) (plinepv*vol) 1.461E+02 OP + Synchrotron radiation power (MW) (psyncpv*vol) 1.519E+01 OP Synchrotron wall reflectivity factor (ssync) 0.600 Normalised minor radius defining 'core' (coreradius) 7.500E-01 Fraction of core radiation subtracted from P_L (coreradiationfraction) 6.000E-01 - Radiation power from inner zone (MW) (pinnerzoneradmw) 9.017E+01 OP - Radiation power from outer zone (MW) (pouterzoneradmw) 1.331E+02 OP - Total radiation power from inside LCFS (MW) (pradmw) 2.233E+02 OP - LCFS radiation fraction = total radiation in LCFS / total power deposite (rad_fraction_LCFS) 5.870E-01 OP - Nominal mean radiation load on inside surface of reactor (MW/m2) (photon_wall) 1.750E-01 OP + Radiation power from inner zone (MW) (pinnerzoneradmw) 9.165E+01 OP + Radiation power from outer zone (MW) (pouterzoneradmw) 1.348E+02 OP + Total radiation power from inside LCFS (MW) (pradmw) 2.265E+02 OP + LCFS radiation fraction = total radiation in LCFS / total power deposite (rad_fraction_LCFS) 5.814E-01 OP + Nominal mean radiation load on inside surface of reactor (MW/m2) (photon_wall) 1.775E-01 OP Peaking factor for radiation wall load (peakfactrad) 3.330E+00 IP Maximum permitted radiation wall load (MW/m^2) (maxradwallload) 1.000E+00 IP - Peak radiation wall load (MW/m^2) (peakradwallload) 5.827E-01 OP - Fast alpha particle power incident on the first wall (MW) (palpfwmw) 1.595E+01 OP - Nominal mean neutron load on inside surface of reactor (MW/m2) (wallmw) 1.001E+00 OP + Peak radiation wall load (MW/m^2) (peakradwallload) 5.911E-01 OP + Fast alpha particle power incident on the first wall (MW) (palpfwmw) 1.618E+01 OP + Nominal mean neutron load on inside surface of reactor (MW/m2) (wallmw) 1.015E+00 OP - Power incident on the divertor targets (MW) (ptarmw) 3.142E+01 OP + Power incident on the divertor targets (MW) (ptarmw) 3.261E+01 OP Fraction of power to the lower divertor (ftar) 1.000E+00 IP Outboard side heat flux decay length (m) (lambdaio) 1.570E-03 OP Fraction of power on the inner targets (fio) 4.100E-01 OP Fraction of power incident on the lower inner target (fLI) 4.100E-01 OP Fraction of power incident on the lower outer target (fLO) 5.900E-01 OP - Power incident on the lower inner target (MW) (pLImw) 1.288E+01 OP - Power incident on the lower outer target (MW) (pLOmw) 1.854E+01 OP + Power incident on the lower inner target (MW) (pLImw) 1.337E+01 OP + Power incident on the lower outer target (MW) (pLOmw) 1.924E+01 OP - Ohmic heating power (MW) (pohmmw) 6.363E-01 OP + Ohmic heating power (MW) (pohmmw) 6.228E-01 OP Fraction of alpha power deposited in plasma (falpha) 0.950 OP - Fraction of alpha power to electrons (falpe) 0.719 OP - Fraction of alpha power to ions (falpi) 0.281 OP - Ion transport (MW) (ptrimw) 1.364E+02 OP - Electron transport (MW) (ptremw) 1.537E+02 OP + Fraction of alpha power to electrons (falpe) 0.718 OP + Fraction of alpha power to ions (falpi) 0.282 OP + Ion transport (MW) (ptrimw) 1.401E+02 OP + Electron transport (MW) (ptremw) 1.577E+02 OP Injection power to ions (MW) (pinjimw) 0.000E+00 OP - Injection power to electrons (MW) (pinjemw) 7.540E+01 OP + Injection power to electrons (MW) (pinjemw) 8.014E+01 OP Ignited plasma switch (0=not ignited, 1=ignited) (ignite) 0 - Power into divertor zone via charged particles (MW) (pdivt) 1.571E+02 OP - Psep / R ratio (MW/m) (pdivt/rmajor) 1.964E+01 OP - Psep Bt / qAR ratio (MWT/m) (pdivtbt/qar) 9.627E+00 OP + Power into divertor zone via charged particles (MW) (pdivt) 1.630E+02 OP + Psep / R ratio (MW/m) (pdivt/rmajor) 2.038E+01 OP + Psep Bt / qAR ratio (MWT/m) (pdivtbt/qar) 1.000E+01 OP H-mode Power Threshold Scalings : - ITER 1996 scaling: nominal (MW) (pthrmw(1)) 1.283E+02 OP - ITER 1996 scaling: upper bound (MW) (pthrmw(2)) 2.827E+02 OP - ITER 1996 scaling: lower bound (MW) (pthrmw(3)) 5.745E+01 OP - ITER 1997 scaling (1) (MW) (pthrmw(4)) 2.124E+02 OP - ITER 1997 scaling (2) (MW) (pthrmw(5)) 1.703E+02 OP - Martin 2008 scaling: nominal (MW) (pthrmw(6)) 9.647E+01 OP - Martin 2008 scaling: 95% upper bound (MW) (pthrmw(7)) 1.264E+02 OP - Martin 2008 scaling: 95% lower bound (MW) (pthrmw(8)) 6.652E+01 OP - Snipes 2000 scaling: nominal (MW) (pthrmw(9)) 6.713E+01 OP - Snipes 2000 scaling: upper bound (MW) (pthrmw(10)) 9.843E+01 OP - Snipes 2000 scaling: lower bound (MW) (pthrmw(11)) 4.541E+01 OP - Snipes 2000 scaling (closed divertor): nominal (MW) (pthrmw(12)) 3.081E+01 OP - Snipes 2000 scaling (closed divertor): upper bound (MW) (pthrmw(13)) 4.283E+01 OP - Snipes 2000 scaling (closed divertor): lower bound (MW) (pthrmw(14)) 2.200E+01 OP - Hubbard 2012 L-I threshold - nominal (MW) (pthrmw(15)) 2.751E+01 OP - Hubbard 2012 L-I threshold - lower bound (MW) (pthrmw(16)) 1.430E+01 OP - Hubbard 2012 L-I threshold - upper bound (MW) (pthrmw(17)) 5.291E+01 OP - Hubbard 2017 L-I threshold (pthrmw(18)) 2.611E+02 OP - Martin 2008 aspect ratio corrected scaling: nominal (MW) (pthrmw(19)) 9.647E+01 OP - Martin 2008 aspect ratio corrected scaling: 95% upper bound (MW) (pthrmw(20)) 1.264E+02 OP - Martin 2008 aspect ratio corrected scaling: 95% lower bound (MW) (pthrmw(21)) 6.652E+01 OP - - - L-H threshold power (enforced) (MW) (boundl(103)*plhthresh) 9.647E+01 OP - L-H threshold power (MW) (plhthresh) 9.647E+01 OP + ITER 1996 scaling: nominal (MW) (pthrmw(1)) 1.298E+02 OP + ITER 1996 scaling: upper bound (MW) (pthrmw(2)) 2.860E+02 OP + ITER 1996 scaling: lower bound (MW) (pthrmw(3)) 5.810E+01 OP + ITER 1997 scaling (1) (MW) (pthrmw(4)) 2.145E+02 OP + ITER 1997 scaling (2) (MW) (pthrmw(5)) 1.721E+02 OP + Martin 2008 scaling: nominal (MW) (pthrmw(6)) 9.742E+01 OP + Martin 2008 scaling: 95% upper bound (MW) (pthrmw(7)) 1.277E+02 OP + Martin 2008 scaling: 95% lower bound (MW) (pthrmw(8)) 6.714E+01 OP + Snipes 2000 scaling: nominal (MW) (pthrmw(9)) 6.779E+01 OP + Snipes 2000 scaling: upper bound (MW) (pthrmw(10)) 9.944E+01 OP + Snipes 2000 scaling: lower bound (MW) (pthrmw(11)) 4.584E+01 OP + Snipes 2000 scaling (closed divertor): nominal (MW) (pthrmw(12)) 3.101E+01 OP + Snipes 2000 scaling (closed divertor): upper bound (MW) (pthrmw(13)) 4.315E+01 OP + Snipes 2000 scaling (closed divertor): lower bound (MW) (pthrmw(14)) 2.213E+01 OP + Hubbard 2012 L-I threshold - nominal (MW) (pthrmw(15)) 2.755E+01 OP + Hubbard 2012 L-I threshold - lower bound (MW) (pthrmw(16)) 1.432E+01 OP + Hubbard 2012 L-I threshold - upper bound (MW) (pthrmw(17)) 5.301E+01 OP + Hubbard 2017 L-I threshold (pthrmw(18)) 2.620E+02 OP + Martin 2008 aspect ratio corrected scaling: nominal (MW) (pthrmw(19)) 9.742E+01 OP + Martin 2008 aspect ratio corrected scaling: 95% upper bound (MW) (pthrmw(20)) 1.277E+02 OP + Martin 2008 aspect ratio corrected scaling: 95% lower bound (MW) (pthrmw(21)) 6.714E+01 OP + + + L-H threshold power (enforced) (MW) (boundl(103)*plhthresh) 9.742E+01 OP + L-H threshold power (MW) (plhthresh) 9.742E+01 OP Confinement : Confinement scaling law: b'IPB98(y,2) (H)' - Confinement H factor (hfact) 1.195 ITV - Global thermal energy confinement time (s) (taueff) 3.269 OP - Ion energy confinement time (s) (tauei) 3.269 OP - Electron energy confinement time (s) (tauee) 3.269 OP - n.tau = Volume-average electron density x Energy confinement time (s/m3) (dntau) 2.635E+20 OP + Confinement H factor (hfact) 1.189 ITV + Global thermal energy confinement time (s) (taueff) 3.204 OP + Ion energy confinement time (s) (tauei) 3.204 OP + Electron energy confinement time (s) (tauee) 3.204 OP + n.tau = Volume-average electron density x Energy confinement time (s/m3) (dntau) 2.584E+20 OP Triple product = Vol-average electron density x Vol-average & electron temperature x Energy confinement time: - Triple product (keV s/m3) (dntau*te) 3.277E+21 OP - Transport loss power assumed in scaling law (MW) (powerht) 2.902E+02 OP + Triple product (keV s/m3) (dntau*te) 3.228E+21 OP + Transport loss power assumed in scaling law (MW) (powerht) 2.978E+02 OP Switch for radiation loss term usage in power balance (iradloss) 1 - Radiation power subtracted from plasma power balance (MW) 9.017E+01 OP + Radiation power subtracted from plasma power balance (MW) 9.165E+01 OP (Radiation correction is core radiation power) - Alpha particle confinement time (s) (taup) 22.928 OP - Alpha particle/energy confinement time ratio (taup/taueff) 7.013 OP + Alpha particle confinement time (s) (taup) 22.270 OP + Alpha particle/energy confinement time ratio (taup/taueff) 6.951 OP Lower limit on taup/taueff (taulimit) 5.000 - Total energy confinement time including radiation loss (s) (total_energy_conf_t 2.849 OP + Total energy confinement time including radiation loss (s) (total_energy_conf_t 2.802 OP (= stored energy including fast particles / loss power including radiation Dimensionless plasma parameters @@ -609,20 +610,20 @@ PROCESS has successfully optimised the iteration variables to minimise the figur For definitions see Recent progress on the development and analysis of the ITPA global H-mode confinement database D.C. McDonald et al, 2007 Nuclear Fusion v47, 147. (nu_star missing 1/mu0) - Normalized plasma pressure beta as defined by McDonald et al (beta_mcdonald) 3.506E-02 OP - Normalized ion Larmor radius (rho_star) 1.976E-03 OP - Normalized collisionality (nu_star) 3.731E-03 OP + Normalized plasma pressure beta as defined by McDonald et al (beta_mcdonald) 3.455E-02 OP + Normalized ion Larmor radius (rho_star) 1.960E-03 OP + Normalized collisionality (nu_star) 3.727E-03 OP Volume measure of elongation (kappaa_IPB) 1.681E+00 OP Plasma Volt-second Requirements : - Total volt-second requirement (Wb) (vsstt) 5.616E+02 OP - Inductive volt-seconds (Wb) (vsind) 2.350E+02 OP + Total volt-second requirement (Wb) (vsstt) 5.562E+02 OP + Inductive volt-seconds (Wb) (vsind) 2.359E+02 OP Ejima coefficient (gamma) 0.300 - Start-up resistive (Wb) (vsres) 5.011E+01 OP - Flat-top resistive (Wb) (vsbrn) 2.765E+02 OP + Start-up resistive (Wb) (vsres) 5.016E+01 OP + Flat-top resistive (Wb) (vsbrn) 2.702E+02 OP bootstrap current fraction multiplier (cboot) 1.000 - Bootstrap fraction (ITER 1989) (bscf_iter89) 0.370 OP + Bootstrap fraction (ITER 1989) (bscf_iter89) 0.371 OP Bootstrap fraction (Sauter et al) (bscf_sauter) 0.419 OP Bootstrap fraction (Nevins et al) (bscf_nevins) 0.350 OP Bootstrap fraction (Wilson) (bscf_wilson) 0.433 OP @@ -635,39 +636,39 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Bootstrap fraction (enforced) (bootipf.) 0.419 OP Diamagnetic fraction (enforced) (diaipf.) 0.000 OP Pfirsch-Schlueter fraction (enforced) (psipf.) 0.000 OP - Loop voltage during burn (V) (vburn) 3.830E-02 OP - Plasma resistance (ohm) (rplas) 3.973E-09 OP - Resistive diffusion time (s) (res_time) 3.063E+03 OP - Plasma inductance (H) (rlp) 1.414E-05 OP + Loop voltage during burn (V) (vburn) 3.745E-02 OP + Plasma resistance (ohm) (rplas) 3.975E-09 OP + Resistive diffusion time (s) (res_time) 3.062E+03 OP + Plasma inductance (H) (rlp) 1.418E-05 OP Coefficient for sawtooth effects on burn V-s requirement (csawth) 1.000 Fuelling : Ratio of He and pellet particle confinement times (tauratio) 1.000E+00 - Fuelling rate (nucleus-pairs/s) (qfuel) 3.244E+21 OP - Fuel burn-up rate (reactions/s) (rndfuel) 5.693E+20 OP - Burn-up fraction (burnup) 0.175 OP + Fuelling rate (nucleus-pairs/s) (qfuel) 3.342E+21 OP + Fuel burn-up rate (reactions/s) (rndfuel) 5.775E+20 OP + Burn-up fraction (burnup) 0.173 OP ***************************** Energy confinement times, and required H-factors : ***************************** scaling law confinement time (s) H-factor for for H = 1 power balance - IPB98(y) (H) 3.418 0.956 - IPB98(y,1) (H) 3.398 0.962 - IPB98(y,2) (H) 2.737 1.195 - IPB98(y,3) (H) 2.809 1.164 - IPB98(y,4) (H) 2.818 1.160 - ISS95 (stell) 1.885 1.734 - ISS04 (stell) 3.293 0.992 - DS03 (H) 4.013 0.814 - Murari et al NPL (H) 2.033 1.608 - Petty 2008 (H) 4.870 0.672 - Lang et al. 2012 (H) 1.717 1.905 - Hubbard 2017 - nom (I) 0.065 50.097 - Hubbard 2017 - lower (I) 0.037 87.868 - Hubbard 2017 - upper (I) 0.114 28.562 - NSTX (Spherical) (H) 6.677 0.489 - NSTX-Petty08 Hybrid (H) 4.870 0.672 + IPB98(y) (H) 3.370 0.950 + IPB98(y,1) (H) 3.351 0.956 + IPB98(y,2) (H) 2.695 1.188 + IPB98(y,3) (H) 2.765 1.159 + IPB98(y,4) (H) 2.778 1.153 + ISS95 (stell) 1.881 1.703 + ISS04 (stell) 3.285 0.975 + DS03 (H) 3.963 0.808 + Murari et al NPL (H) 1.998 1.603 + Petty 2008 (H) 4.831 0.664 + Lang et al. 2012 (H) 1.688 1.897 + Hubbard 2017 - nom (I) 0.065 49.025 + Hubbard 2017 - lower (I) 0.037 86.152 + Hubbard 2017 - upper (I) 0.115 27.898 + NSTX (Spherical) (H) 6.634 0.483 + NSTX-Petty08 Hybrid (H) 4.831 0.664 ******************************************** Current Drive System ******************************************** @@ -679,11 +680,11 @@ PROCESS has successfully optimised the iteration variables to minimise the figur and non-inductive means. Ratio of power for flat-top to start-up (MW) (startupratio) 1.000E+00 Auxiliary power used for plasma heating only (MW) (pheat) 7.500E+01 - Power injected for current drive (MW) (pcurrentdrivemw) 3.978E-01 + Power injected for current drive (MW) (pcurrentdrivemw) 5.143E+00 Maximum Allowed Bootstrap current fraction (bscfmax) 9.500E-01 - Fusion gain factor Q (bigq) 2.100E+01 OP - Auxiliary current drive (A) (auxiliary_cd) 1.851E+04 OP - Current drive efficiency (A/W) (effcd) 4.653E-02 OP + Fusion gain factor Q (bigq) 2.006E+01 OP + Auxiliary current drive (A) (auxiliary_cd) 2.391E+05 OP + Current drive efficiency (A/W) (effcd) 4.649E-02 OP Normalised current drive efficiency, gamma (10^20 A/W-m2) (gamcd) 3.000E-01 OP Wall plug to injector efficiency (etacd) 5.000E-01 ECRH plasma heating efficiency (gamma_ecrh) 3.000E-01 @@ -693,42 +694,42 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Bootstrap fraction (bootipf) 0.419 OP Diamagnetic fraction (diaipf) 0.000 OP Pfirsch-Schlueter fraction (psipf) 0.000 OP - Auxiliary current drive fraction (faccd) 0.001 OP - Inductive fraction (facoh) 0.580 OP + Auxiliary current drive fraction (faccd) 0.014 OP + Inductive fraction (facoh) 0.566 OP Total (plasipf+faccd+facoh 1.000 - Fraction of the plasma current produced by non-inductive means (fvsbrnni) 0.420 ITV + Fraction of the plasma current produced by non-inductive means (fvsbrnni) 0.434 ITV - Electron cyclotron injected power (MW) (echpwr) 7.540E+01 OP + Electron cyclotron injected power (MW) (echpwr) 8.014E+01 OP Maximum allowable ECRH power (MW) (pinjalw) 200.000 ECH wall plug efficiency (etaech) 5.000E-01 - ECH wall plug power (MW) (echwpow) 1.508E+02 OP + ECH wall plug power (MW) (echwpow) 1.603E+02 OP Volt-second considerations: - Total V-s capability of Central Solenoid/PF coils (Wb) (abs(vstot)) 5.816E+02 - Required volt-seconds during start-up (Wb) (vssoft) 2.851E+02 - Available volt-seconds during burn (Wb) (vsmax) 2.765E+02 + Total V-s capability of Central Solenoid/PF coils (Wb) (abs(vstot)) 5.773E+02 + Required volt-seconds during start-up (Wb) (vssoft) 2.860E+02 + Available volt-seconds during burn (Wb) (vsmax) 2.701E+02 *************************************************** Times **************************************************** Initial charge time for CS from zero current (s) (tramp) 500.000 - Plasma current ramp-up time (s) (tohs) 166.162 + Plasma current ramp-up time (s) (tohs) 166.312 Heating time (s) (theat) 10.000 - Burn time (s) (tburn) 7.210E+03 OP - Reset time to zero current for CS (s) (tqnch) 166.162 + Burn time (s) (tburn) 7.203E+03 OP + Reset time to zero current for CS (s) (tqnch) 166.312 Time between pulses (s) (tdwell) 1800.000 - Total plant cycle time (s) (tcycle) 9.853E+03 OP + Total plant cycle time (s) (tcycle) 9.846E+03 OP ************************************************ Radial Build ************************************************ TF coil radial placement switch (tf_in_cs) 0 Device centreline 0.000 0.000 - Machine bore 2.025 2.025 (bore) - Central solenoid 0.556 2.581 (ohcth) - CS precompression 0.067 2.649 (precomp) - Gap 0.080 2.729 (gapoh) - TF coil inboard leg 0.897 3.625 (tfcth) + Machine bore 1.985 1.985 (bore) + Central solenoid 0.576 2.561 (ohcth) + CS precompression 0.068 2.629 (precomp) + Gap 0.080 2.709 (gapoh) + TF coil inboard leg 0.916 3.625 (tfcth) Gap 0.050 3.675 (tftsgap) Thermal shield, inboard 0.050 3.725 (thshield_ib) Gap 0.020 3.745 (gapds) @@ -744,14 +745,14 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Outboard blanket 1.000 11.935 (blnkoth) Gap 0.020 11.955 (vvblgap) Vacuum vessel (and shielding) 1.100 13.055 (d_vv_out+shldoth) - Gap 1.381 14.436 (gapsto) - Thermal shield, outboard 0.050 14.486 (thshield_ob) - Gap 0.050 14.536 (tftsgap) - TF coil outboard leg 0.897 15.433 (tfthko) + Gap 1.372 14.427 (gapsto) + Thermal shield, outboard 0.050 14.477 (thshield_ob) + Gap 0.050 14.527 (tftsgap) + TF coil outboard leg 0.916 15.443 (tfthko) *********************************************** Vertical Build *********************************************** - TF coil 0.897 8.481 (tfcth) + TF coil 0.916 8.500 (tfcth) Gap 0.050 7.584 (tftsgap) Thermal shield, vertical 0.050 7.534 (thshield_vb) Gap 0.163 7.484 (vgap2) @@ -769,7 +770,7 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Gap 0.163 -8.718 (vgap2) Thermal shield, vertical 0.050 -8.768 (thshield_vb) Gap 0.050 -8.818 (tftsgap) - TF coil 0.897 -9.715 (tfcth) + TF coil 0.916 -9.734 (tfcth) ************************************* Divertor build and plasma position ************************************* @@ -819,22 +820,22 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Materal stress of the point of maximum shear stress (Tresca criterion) for each layer Please use utilities/plot_stress_tf.py for radial plots plots summary Layers Steel case WP Outer case - Radial stress (MPa) 4.884866930978646e-14 -143.73232374130475 6.2041640597974785 - Toroidal stress (MPa) -489.9238264011406 -377.93666294106964 -366.9418355440757 - Vertical stress (MPa) 258.86339026316233 258.86339026316233 144.3111182168326 - Von-Mises stress (MPa) 658.6797045355 554.6894102894352 456.5367412611505 - Shear (Tresca) (MPa) 748.787216664303 636.800053204232 511.2529537609082 - - Toroidal modulus (GPa) 205.0 48.968055666373715 205.0 - Vertical modulus (GPa) 205.0 126.43000655926919 367.7263100699783 - - WP transverse modulus (GPa) (eyoung_wp_trans*1.0d-9) 4.452E+01 OP - WP vertical modulus (GPa) (eyoung_wp_axial*1.0d-9) 1.161E+02 OP - WP transverse Poissons ratio (poisson_wp_trans) 3.040E-01 OP - WP vertical-transverse Pois. rat. (poisson_wp_axial) 3.154E-01 OP - Maximum radial deflection at midplane (m) (deflect) -6.358E-03 OP - Vertical strain on casing (casestr) 1.263E-03 OP - Radial strain on insulator (insstrain) -7.174E-03 OP + Radial stress (MPa) 4.884866930978646e-14 -154.10797132124506 6.139837762674028 + Toroidal stress (MPa) -487.2423067398094 -378.60773239841564 -363.13729205135877 + Vertical stress (MPa) 260.28266961754434 260.28266961754434 145.1023378952434 + Von-Mises stress (MPa) 657.2464240520554 556.449381760471 453.44839992512834 + Shear (Tresca) (MPa) 747.5249763573538 638.8904020159599 508.2396299466021 + + Toroidal modulus (GPa) 205.0 47.92593615557546 205.0 + Vertical modulus (GPa) 205.0 125.55717175726056 367.72630989666305 + + WP transverse modulus (GPa) (eyoung_wp_trans*1.0d-9) 4.353E+01 OP + WP vertical modulus (GPa) (eyoung_wp_axial*1.0d-9) 1.151E+02 OP + WP transverse Poissons ratio (poisson_wp_trans) 3.039E-01 OP + WP vertical-transverse Pois. rat. (poisson_wp_axial) 3.157E-01 OP + Maximum radial deflection at midplane (m) (deflect) -6.271E-03 OP + Vertical strain on casing (casestr) 1.270E-03 OP + Radial strain on insulator (insstrain) -7.692E-03 OP TF design @@ -850,81 +851,81 @@ PROCESS has successfully optimised the iteration variables to minimise the figur TF coil Geometry : Number of TF coils (n_tf) 16 - Inboard leg centre radius (m) (r_tf_inboard_mid) 3.177E+00 OP + Inboard leg centre radius (m) (r_tf_inboard_mid) 3.167E+00 OP Outboard leg centre radius (m) (r_tf_outboard_mid) 1.498E+01 OP - Total inboard leg radial thickness (m) (tfcth) 8.968E-01 ITV - Total outboard leg radial thickness (m) (tfthko) 8.968E-01 + Total inboard leg radial thickness (m) (tfcth) 9.160E-01 ITV + Total outboard leg radial thickness (m) (tfthko) 9.160E-01 Outboard leg toroidal thickness (m) (tftort) 1.415E+00 OP Maximum inboard edge height (m) (hmax) 8.818E+00 OP - Mean coil circumference (including inboard leg length) (m) (tfleng) 4.789E+01 OP + Mean coil circumference (including inboard leg length) (m) (tfleng) 4.794E+01 OP Vertical TF shape (i_tf_shape) 1 D-shape coil, inner surface shape approximated by by a straight segment and elliptical arcs between the following points: point x(m) y(m) - 0 3.6253333366759968 4.5506 - 1 7.466666666666667 7.584333333333334 - 2 14.53614117423021 0.0 + 0 3.625333332748652 4.5506 + 1 7.466666666666667 7.584333333333333 + 2 14.526636547620939 0.0 3 7.466666666666667 -8.818217164127494 - 4 3.6253333366759968 -5.290930298476496 + 4 3.625333332748652 -5.290930298476496 Global material area/fractions: - TF cross-section (total) (m2) (tfareain) 1.790E+01 - Total steel cross-section (m2) (a_tf_steel*n_tf) 1.265E+01 - Total steel TF fraction (f_tf_steel) 7.067E-01 - Total Insulation cross-section (total) (m2) (a_tf_ins*n_tf) 8.550E-01 - Total Insulation fraction (f_tf_ins) 4.776E-02 + TF cross-section (total) (m2) (tfareain) 1.823E+01 + Total steel cross-section (m2) (a_tf_steel*n_tf) 1.285E+01 + Total steel TF fraction (f_tf_steel) 7.051E-01 + Total Insulation cross-section (total) (m2) (a_tf_ins*n_tf) 8.475E-01 + Total Insulation fraction (f_tf_ins) 4.649E-02 External steel Case Information : - Casing cross section area (per leg) (m2) (acasetf) 5.484E-01 + Casing cross section area (per leg) (m2) (acasetf) 5.644E-01 Inboard leg case plasma side wall thickness (m) (casthi) 6.000E-02 - Inboard leg case inboard "nose" thickness (m) (thkcas) 2.674E-01 ITV + Inboard leg case inboard "nose" thickness (m) (thkcas) 2.822E-01 ITV Inboard leg case sidewall thickness at its narrowest point (m) (casths) 5.000E-02 - External case mass per coil (kg) (whtcas) 5.372E+05 OP + External case mass per coil (kg) (whtcas) 5.546E+05 OP TF winding pack (WP) geometry: - WP cross section area with insulation and insertion (per coil) (m2) (awpc) 5.705E-01 - WP cross section area (per coil) (m2) (aswp) 5.127E-01 - Winding pack radial thickness (m) (dr_tf_wp) 4.997E-01 ITV - Winding pack toroidal width 1 (m) (wwp1) 1.191E+00 OP - Winding pack toroidal width 2 (m) (wwp2) 1.092E+00 OP + WP cross section area with insulation and insertion (per coil) (m2) (awpc) 5.749E-01 + WP cross section area (per coil) (m2) (aswp) 5.170E-01 + Winding pack radial thickness (m) (dr_tf_wp) 5.042E-01 ITV + Winding pack toroidal width 1 (m) (wwp1) 1.190E+00 OP + Winding pack toroidal width 2 (m) (wwp2) 1.090E+00 OP Ground wall insulation thickness (m) (tinstf) 8.000E-03 Winding pack insertion gap (m) (tfinsgap) 1.000E-02 TF winding pack (WP) material area/fractions: - Steel WP cross-section (total) (m2) (aswp*n_tf) 3.876E+00 - Steel WP fraction (aswp/awpc) 4.247E-01 - Insulation WP fraction (aiwp/awpc) 4.921E-02 - Cable WP fraction ((awpc-aswp-aiwp)/awpc) 5.261E-01 + Steel WP cross-section (total) (m2) (aswp*n_tf) 3.822E+00 + Steel WP fraction (aswp/awpc) 4.155E-01 + Insulation WP fraction (aiwp/awpc) 4.793E-02 + Cable WP fraction ((awpc-aswp-aiwp)/awpc) 5.366E-01 WP turn information: Turn parametrisation (i_tf_turns_integer) 0 Non-integer number of turns - Number of turns per TF coil (n_tf_turn) 1.544E+02 OP + Number of turns per TF coil (n_tf_turn) 1.474E+02 OP - Width of turn including inter-turn insulation (m) (t_turn_tf) 5.763E-02 OP - Width of conductor (square) (m) (t_conductor) 5.603E-02 OP - Width of space inside conductor (m) (t_cable) 4.001E-02 OP - Steel conduit thickness (m) (thwcndut) 8.009E-03 ITV + Width of turn including inter-turn insulation (m) (t_turn_tf) 5.922E-02 OP + Width of conductor (square) (m) (t_conductor) 5.762E-02 OP + Width of space inside conductor (m) (t_cable) 4.160E-02 OP + Steel conduit thickness (m) (thwcndut) 8.010E-03 ITV Inter-turn insulation thickness (m) (thicndut) 8.000E-04 Conductor information: Diameter of central helium channel in cable (dhecoil) 1.000E-02 Fractions by area - internal area of the cable space (acstf) 1.570E-03 + internal area of the cable space (acstf) 1.700E-03 Coolant fraction in conductor excluding central channel (vftf) 3.000E-01 - Copper fraction of conductor (fcutfsu) 8.418E-01 ITV - Superconductor fraction of conductor (1-fcutfsu) 1.582E-01 + Copper fraction of conductor (fcutfsu) 8.421E-01 ITV + Superconductor fraction of conductor (1-fcutfsu) 1.579E-01 Check total area fractions in winding pack = 1 1.000 minimum TF conductor temperature margin (K) (tmargmin_tf) 1.500 - TF conductor temperature margin (K) (tmargtf) 1.525 + TF conductor temperature margin (K) (tmargtf) 1.505 Elastic properties behavior (i_tf_cond_eyoung_axial) 0 Conductor stiffness neglected Conductor axial Youngs modulus (eyoung_cond_axial) 0.000E+00 @@ -932,30 +933,30 @@ PROCESS has successfully optimised the iteration variables to minimise the figur TF coil mass: - Superconductor mass per coil (kg) (whtconsc) 4.285E+03 OP - Copper mass per coil (kg) (whtconcu) 5.569E+04 OP - Steel conduit mass per coil (kg) (whtconsh) 9.050E+04 OP - Conduit insulation mass per coil (kg) (whtconin) 2.420E+03 OP - Total conduit mass per coil (kg) (whtcon) 1.529E+05 OP - Mass of each TF coil (kg) (whttf/n_tf) 6.951E+05 OP - Total TF coil mass (kg) (whttf) 1.112E+07 OP + Superconductor mass per coil (kg) (whtconsc) 4.696E+03 OP + Copper mass per coil (kg) (whtconcu) 5.807E+04 OP + Steel conduit mass per coil (kg) (whtconsh) 8.931E+04 OP + Conduit insulation mass per coil (kg) (whtconin) 2.378E+03 OP + Total conduit mass per coil (kg) (whtcon) 1.545E+05 OP + Mass of each TF coil (kg) (whttf/n_tf) 7.140E+05 OP + Total TF coil mass (kg) (whttf) 1.142E+07 OP Maximum B field and currents: - Nominal peak field assuming toroidal symmetry (T) (bmaxtf) 1.205E+01 OP - Total current in all TF coils (MA) (ritfc/1.D6) 2.095E+02 OP - TF coil current (summed over all coils) (A) (ritfc) 2.095E+08 - Actual peak field at discrete conductor (T) (bmaxtfrp) 1.250E+01 OP - Winding pack current density (A/m2) (jwptf) 2.554E+07 OP - Inboard leg mid-plane conductor current density (A/m2) (oacdcp) 1.170E+07 - Total stored energy in TF coils (GJ) (estotftgj) 1.186E+02 OP + Nominal peak field assuming toroidal symmetry (T) (bmaxtf) 1.218E+01 OP + Total current in all TF coils (MA) (ritfc/1.D6) 2.118E+02 OP + TF coil current (summed over all coils) (A) (ritfc) 2.118E+08 + Actual peak field at discrete conductor (T) (bmaxtfrp) 1.264E+01 OP + Winding pack current density (A/m2) (jwptf) 2.560E+07 OP + Inboard leg mid-plane conductor current density (A/m2) (oacdcp) 1.162E+07 + Total stored energy in TF coils (GJ) (estotftgj) 1.216E+02 OP TF Forces: - Inboard vertical tension per coil (N) (vforce) 2.047E+08 OP - Outboard vertical tension per coil (N) (vforce_outboard) 2.047E+08 OP + Inboard vertical tension per coil (N) (vforce) 2.091E+08 OP + Outboard vertical tension per coil (N) (vforce_outboard) 2.091E+08 OP inboard vertical tension fraction (-) (f_vforce_inboard) 5.000E-01 OP - Centring force per coil (N/m) (cforce) 7.888E+07 OP + Centring force per coil (N/m) (cforce) 8.059E+07 OP Ripple information: @@ -964,20 +965,20 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Quench information : - Actual quench time (or time constant) (s) (tdmptf) 1.753E+01 ITV - Vacuum Vessel stress on quench (Pa) (vv_stress_quench) 6.272E+07 OP - Maximum allowed voltage during quench due to insulation (kV) (vdalw) 9.985E+00 ITV - Actual quench voltage (kV) (vtfskv) 9.970E+00 OP + Actual quench time (or time constant) (s) (tdmptf) 1.843E+01 ITV + Vacuum Vessel stress on quench (Pa) (vv_stress_quench) 6.144E+07 OP + Maximum allowed voltage during quench due to insulation (kV) (vdalw) 9.584E+00 ITV + Actual quench voltage (kV) (vtfskv) 9.186E+00 OP Maximum allowed temp rise during a quench (K) (tmaxpro) 1.500E+02 Radial build of TF coil centre-line : - Innermost edge of TF coil 2.729 2.729 - Coil case ("nose") 0.267 2.996 (thkcas) - Insertion gap for winding pack 0.010 3.006 (tfinsgap) - Winding pack ground insulation 0.008 3.014 (tinstf) - Winding - first half 0.232 3.246 (dr_tf_wp/2-tinstf-t - Winding - second half 0.232 3.478 (dr_tf_wp/2-tinstf-t + Innermost edge of TF coil 2.709 2.709 + Coil case ("nose") 0.282 2.992 (thkcas) + Insertion gap for winding pack 0.010 3.002 (tfinsgap) + Winding pack ground insulation 0.008 3.010 (tinstf) + Winding - first half 0.234 3.244 (dr_tf_wp/2-tinstf-t + Winding - second half 0.234 3.478 (dr_tf_wp/2-tinstf-t Winding pack insulation 0.008 3.486 (tinstf) Insertion gap for winding pack 0.010 3.496 (tfinsgap) Plasma side case min radius 0.060 3.556 (casthi) @@ -993,18 +994,18 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Critical temperature at zero field and strain (K) (tc0m) 1.606E+01 Helium temperature at peak field (= superconductor temperature) (K) (thelium) 4.750E+00 - Total helium fraction inside cable space (fhetot) 3.500E-01 OP - Copper fraction of conductor (fcutfsu) 8.418E-01 ITV + Total helium fraction inside cable space (fhetot) 3.462E-01 OP + Copper fraction of conductor (fcutfsu) 8.421E-01 ITV Residual manufacturing strain on superconductor (str_tf_con_res) -5.000E-03 - Self-consistent strain on superconductor (str_wp) 2.047E-03 - Critical current density in superconductor (A/m2) (jcritsc) 7.323E+08 OP - Critical current density in strand (A/m2) (jcritstr) 1.159E+08 OP - Critical current density in winding pack (A/m2) (jwdgcrt) 3.560E+07 OP - Actual current density in winding pack (A/m2) (jwdgop) 2.554E+07 OP + Self-consistent strain on superconductor (str_wp) 2.073E-03 + Critical current density in superconductor (A/m2) (jcritsc) 7.134E+08 OP + Critical current density in strand (A/m2) (jcritstr) 1.126E+08 OP + Critical current density in winding pack (A/m2) (jwdgcrt) 3.569E+07 OP + Actual current density in winding pack (A/m2) (jwdgop) 2.560E+07 OP Minimum allowed temperature margin in superconductor (K) (tmargmin_tf) 1.500E+00 - Actual temperature margin in superconductor (K) (tmarg) 1.525E+00 OP - Critical current (A) (icrit) 1.182E+05 OP - Actual current (A) (cpttf) 8.482E+04 ITV + Actual temperature margin in superconductor (K) (tmarg) 1.505E+00 OP + Critical current (A) (icrit) 1.252E+05 OP + Actual current (A) (cpttf) 8.980E+04 ITV Actual current / critical current (iooic) 7.174E-01 OP *************************************** Central Solenoid and PF Coils **************************************** @@ -1015,51 +1016,51 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Central Solenoid Current Density Limits : - Maximum field at Beginning Of Pulse (T) (bmaxoh0) 1.402E+01 OP - Critical superconductor current density at BOP (A/m2) (jscoh_bop) 3.522E+08 OP - Critical strand current density at BOP (A/m2) (jstrandoh_bop) 1.057E+08 OP - Allowable overall current density at BOP (A/m2) (rjohc0) 3.538E+07 OP - Actual overall current density at BOP (A/m2) (cohbop) 1.976E+07 OP + Maximum field at Beginning Of Pulse (T) (bmaxoh0) 1.405E+01 OP + Critical superconductor current density at BOP (A/m2) (jscoh_bop) 3.492E+08 OP + Critical strand current density at BOP (A/m2) (jstrandoh_bop) 1.048E+08 OP + Allowable overall current density at BOP (A/m2) (rjohc0) 3.529E+07 OP + Actual overall current density at BOP (A/m2) (cohbop) 1.913E+07 OP - Maximum field at End Of Flattop (T) (bmaxoh) 1.350E+01 OP - Critical superconductor current density at EOF (A/m2) (jscoh_eof) 4.009E+08 OP - Critical strand current density at EOF (A/m2) (jstrandoh_eof) 1.203E+08 OP - Allowable overall current density at EOF (A/m2) (rjohc) 4.027E+07 OP - Actual overall current density at EOF (A/m2) (coheof) 2.040E+07 ITV + Maximum field at End Of Flattop (T) (bmaxoh) 1.392E+01 OP + Critical superconductor current density at EOF (A/m2) (jscoh_eof) 3.610E+08 OP + Critical strand current density at EOF (A/m2) (jstrandoh_eof) 1.083E+08 OP + Allowable overall current density at EOF (A/m2) (rjohc) 3.649E+07 OP + Actual overall current density at EOF (A/m2) (coheof) 2.026E+07 ITV - CS inside radius (m) (bore) 2.025E+00 ITV - CS thickness (m) (ohcth) 5.562E-01 ITV + CS inside radius (m) (bore) 1.985E+00 ITV + CS thickness (m) (ohcth) 5.759E-01 ITV Gap between central solenoid and TF coil (m) (gapoh) 8.000E-02 - CS overall cross-sectional area (m2) (areaoh) 8.829E+00 OP - CS conductor+void cross-sectional area (m2) (awpoh) 4.223E+00 OP - CS conductor cross-sectional area (m2) (awpoh*(1-vfohc)) 2.956E+00 OP - CS void cross-sectional area (m2) (awpoh*vfohc) 1.267E+00 OP - CS steel cross-sectional area (m2) (areaoh-awpoh) 4.606E+00 OP - CS steel area fraction (oh_steel_frac) 5.217E-01 ITV + CS overall cross-sectional area (m2) (areaoh) 9.141E+00 OP + CS conductor+void cross-sectional area (m2) (awpoh) 4.400E+00 OP + CS conductor cross-sectional area (m2) (awpoh*(1-vfohc)) 3.080E+00 OP + CS void cross-sectional area (m2) (awpoh*vfohc) 1.320E+00 OP + CS steel cross-sectional area (m2) (areaoh-awpoh) 4.741E+00 OP + CS steel area fraction (oh_steel_frac) 5.187E-01 ITV Only hoop stress considered Switch for CS stress calculation (i_cs_stress) 0 Allowable stress in CS steel (Pa) (alstroh) 7.500E+08 - Hoop stress in CS steel (Pa) (sig_hoop) 6.972E+08 OP - Axial stress in CS steel (Pa) (sig_axial) -7.430E+08 OP - Maximum shear stress in CS steel for the Tresca criterion (Pa) (s_tresca_oh) 6.972E+08 OP - Axial force in CS (N) (axial_force) -1.560E+09 OP + Hoop stress in CS steel (Pa) (sig_hoop) 6.757E+08 OP + Axial stress in CS steel (Pa) (sig_axial) -7.620E+08 OP + Maximum shear stress in CS steel for the Tresca criterion (Pa) (s_tresca_oh) 6.757E+08 OP + Axial force in CS (N) (axial_force) -1.626E+09 OP Residual manufacturing strain in CS superconductor material (tfcoil_variables.str_cs_-5.000E-03 Copper fraction in strand (fcuohsu) 7.000E-01 Void (coolant) fraction in conductor (vfohc) 3.000E-01 Helium coolant temperature (K) (tftmp) 4.750E+00 - CS temperature margin (K) (tmargoh) 1.502E+00 OP + CS temperature margin (K) (tmargoh) 1.505E+00 OP Minimum permitted temperature margin (K) (tmargmin_cs) 1.500E+00 Residual hoop stress in CS Steel (Pa) (residual_sig_hoop) 2.400E+08 Minimum burn time (s) (tbrnmn) 7.200E+03 Initial vertical crack size (m) (t_crack_vertical) 8.900E-04 Initial radial crack size (m) (t_crack_radial) 2.670E-03 - CS turn area (m) (a_oh_turn) 1.960E-03 - CS turn length (m) (l_cond_cst) 7.669E-02 - CS turn internal cable space radius (m) (r_in_cst) 7.409E-03 - CS turn width (m) (d_cond_cst) 2.556E-02 - CS structural vertical thickness (m) (t_structural_vertical) 5.373E-03 - CS structural radial thickness (m) (t_structural_radial) 5.373E-03 - Allowable number of cycles till CS fracture (n_cycle) 1.221E+02 OP + CS turn area (m) (a_oh_turn) 1.974E-03 + CS turn length (m) (l_cond_cst) 7.695E-02 + CS turn internal cable space radius (m) (r_in_cst) 7.474E-03 + CS turn width (m) (d_cond_cst) 2.565E-02 + CS structural vertical thickness (m) (t_structural_vertical) 5.351E-03 + CS structural radial thickness (m) (t_structural_radial) 5.351E-03 + Allowable number of cycles till CS fracture (n_cycle) 1.338E+02 OP Minimum number of cycles required till CS fracture (n_cycle_min) 2.000E+04 OP Superconducting PF coils @@ -1076,13 +1077,13 @@ PROCESS has successfully optimised the iteration variables to minimise the figur coil R(m) Z(m) dR(m) dZ(m) turns steel thickness(m) - PF 0 5.57e+00 9.34e+00 1.29e+00 1.29e+00 4.54e+02 1.26e-01 - PF 1 5.57e+00 -1.06e+01 1.38e+00 1.38e+00 5.25e+02 1.43e-01 - PF 2 1.67e+01 2.67e+00 1.13e+00 1.13e+00 1.92e+02 7.83e-02 - PF 3 1.67e+01 -2.67e+00 1.13e+00 1.13e+00 1.92e+02 7.83e-02 - PF 4 1.52e+01 7.47e+00 8.08e-01 8.08e-01 1.31e+02 6.39e-02 - PF 5 1.52e+01 -7.47e+00 8.08e-01 8.08e-01 1.31e+02 6.39e-02 - CS 2.30e+00 0.00e+00 5.56e-01 1.59e+01 4.50e+03 1.45e-01 + PF 0 5.57e+00 9.36e+00 1.27e+00 1.27e+00 4.45e+02 1.22e-01 + PF 1 5.57e+00 -1.06e+01 1.37e+00 1.37e+00 5.12e+02 1.38e-01 + PF 2 1.67e+01 2.67e+00 1.13e+00 1.13e+00 1.93e+02 7.87e-02 + PF 3 1.67e+01 -2.67e+00 1.13e+00 1.13e+00 1.93e+02 7.87e-02 + PF 4 1.52e+01 7.47e+00 8.08e-01 8.08e-01 1.30e+02 6.39e-02 + PF 5 1.52e+01 -7.47e+00 8.08e-01 8.08e-01 1.30e+02 6.39e-02 + CS 2.27e+00 0.00e+00 5.76e-01 1.59e+01 4.63e+03 1.49e-01 Plasma 8.00e+00 0.0e0 5.33e+00 9.87e+00 1.0e0 PF Coil Information at Peak Current: @@ -1090,29 +1091,29 @@ PROCESS has successfully optimised the iteration variables to minimise the figur coil current allowed J actual J J cond. mass steel mass field (MA) (A/m2) (A/m2) ratio (kg) (kg) (T) - PF 0 1.82e+01 3.59e+08 1.10e+07 3.07e-02 2.46e+05 1.94e+05 6.43e+00 - PF 1 2.10e+01 3.09e+08 1.10e+07 3.56e-02 2.84e+05 2.37e+05 6.92e+00 - PF 2 -7.67e+00 7.65e+08 6.00e+06 7.84e-03 5.71e+05 3.10e+05 2.63e+00 - PF 3 -7.67e+00 7.65e+08 6.00e+06 7.84e-03 5.71e+05 3.10e+05 2.63e+00 - PF 4 -5.23e+00 7.72e+08 8.00e+06 1.04e-02 2.65e+05 1.66e+05 2.57e+00 - PF 5 -5.23e+00 7.72e+08 8.00e+06 1.04e-02 2.65e+05 1.66e+05 2.57e+00 - CS -1.80e+02 3.54e+07 2.04e+07 5.77e-01 2.60e+05 5.20e+05 1.40e+01 + PF 0 1.78e+01 3.80e+08 1.10e+07 2.90e-02 2.41e+05 1.85e+05 6.23e+00 + PF 1 2.05e+01 3.31e+08 1.10e+07 3.32e-02 2.77e+05 2.25e+05 6.70e+00 + PF 2 -7.70e+00 7.64e+08 6.00e+06 7.85e-03 5.74e+05 3.13e+05 2.64e+00 + PF 3 -7.70e+00 7.64e+08 6.00e+06 7.85e-03 5.74e+05 3.13e+05 2.64e+00 + PF 4 -5.22e+00 7.72e+08 8.00e+06 1.04e-02 2.65e+05 1.66e+05 2.57e+00 + PF 5 -5.22e+00 7.72e+08 8.00e+06 1.04e-02 2.65e+05 1.66e+05 2.57e+00 + CS -1.85e+02 3.53e+07 2.03e+07 5.74e-01 2.67e+05 5.28e+05 1.41e+01 ------ --------- --------- - 2.45e+02 2.46e+06 1.90e+06 + 2.49e+02 2.46e+06 1.90e+06 PF coil current scaling information : - Sum of squares of residuals (ssq0) 3.688E-04 OP + Sum of squares of residuals (ssq0) 3.521E-04 OP Smoothing parameter (alfapf) 5.000E-10 ****************************************** Volt Second Consumption ******************************************* volt-sec volt-sec volt-sec start-up burn total - PF coils: -169.69 -78.11 -247.80 - CS coil: -135.41 -198.41 -333.81 + PF coils: -170.70 -76.30 -247.01 + CS coil: -136.43 -193.84 -330.27 ------- ------- ------- - Total: -305.10 -276.52 -581.62 + Total: -307.14 -270.14 -577.28 Total volt-second consumption by coils (Wb) (vstot) -5.800E+02 OP @@ -1120,147 +1121,147 @@ PROCESS has successfully optimised the iteration variables to minimise the figur circuit BOP BOF EOF - 0 25.629 32.780 1.821 - 1 26.891 30.372 -2.111 - 2 3.925 -55.621 -60.362 - 3 3.925 -55.621 -60.362 - 4 2.147 -28.471 -31.064 - 5 2.147 -28.471 -31.064 - CS coil 164.250 28.841 -169.565 + 0 25.107 32.017 1.668 + 1 26.342 29.559 -2.283 + 2 3.897 -55.897 -60.608 + 3 3.897 -55.897 -60.608 + 4 1.941 -28.680 -31.026 + 5 1.941 -28.680 -31.026 + CS coil 160.362 23.929 -169.912 ********************************** Waveforms *********************************** Currents (Amps/coil) as a function of time: time (sec) - 0.00 500.00 666.16 676.16 7886.76 8052.92 + 0.00 500.00 666.31 676.31 7879.98 8046.29 Start BOP EOR BOF EOF EOP circuit - 0 0.000e+00 1.421e+07 1.818e+07 1.818e+07 1.010e+06 0.000e+00 - 1 0.000e+00 1.859e+07 2.099e+07 2.099e+07 -1.459e+06 0.000e+00 - 2 -0.000e+00 4.986e+05 -7.066e+06 -7.066e+06 -7.669e+06 -0.000e+00 - 3 -0.000e+00 4.986e+05 -7.066e+06 -7.066e+06 -7.669e+06 -0.000e+00 - 4 -0.000e+00 3.611e+05 -4.789e+06 -4.789e+06 -5.225e+06 -0.000e+00 - 5 -0.000e+00 3.611e+05 -4.789e+06 -4.789e+06 -5.225e+06 -0.000e+00 - 6 -0.000e+00 1.745e+08 3.064e+07 3.064e+07 -1.801e+08 -0.000e+00 - Plasma (A) 0.000e+00 0.000e+00 1.662e+07 1.662e+07 1.662e+07 0.000e+00 + 0 0.000e+00 1.397e+07 1.782e+07 1.782e+07 9.284e+05 0.000e+00 + 1 0.000e+00 1.827e+07 2.050e+07 2.050e+07 -1.583e+06 0.000e+00 + 2 -0.000e+00 4.954e+05 -7.106e+06 -7.106e+06 -7.705e+06 -0.000e+00 + 3 -0.000e+00 4.954e+05 -7.106e+06 -7.106e+06 -7.705e+06 -0.000e+00 + 4 -0.000e+00 3.265e+05 -4.825e+06 -4.825e+06 -5.219e+06 -0.000e+00 + 5 -0.000e+00 3.265e+05 -4.825e+06 -4.825e+06 -5.219e+06 -0.000e+00 + 6 -0.000e+00 1.748e+08 2.609e+07 2.609e+07 -1.852e+08 -0.000e+00 + Plasma (A) 0.000e+00 0.000e+00 1.663e+07 1.663e+07 1.663e+07 0.000e+00 This consists of: CS coil field balancing: - 0 0.000e+00 1.421e+07 2.495e+06 2.495e+06 -1.467e+07 0.000e+00 - 1 0.000e+00 1.859e+07 3.264e+06 3.264e+06 -1.919e+07 0.000e+00 - 2 -0.000e+00 4.986e+05 8.756e+04 8.756e+04 -5.148e+05 -0.000e+00 - 3 -0.000e+00 4.986e+05 8.756e+04 8.756e+04 -5.148e+05 -0.000e+00 - 4 -0.000e+00 3.611e+05 6.340e+04 6.340e+04 -3.727e+05 -0.000e+00 - 5 -0.000e+00 3.611e+05 6.340e+04 6.340e+04 -3.727e+05 -0.000e+00 - 6 -0.000e+00 1.745e+08 3.064e+07 3.064e+07 -1.801e+08 -0.000e+00 + 0 0.000e+00 1.397e+07 2.085e+06 2.085e+06 -1.480e+07 0.000e+00 + 1 0.000e+00 1.827e+07 2.726e+06 2.726e+06 -1.936e+07 0.000e+00 + 2 -0.000e+00 4.954e+05 7.393e+04 7.393e+04 -5.249e+05 -0.000e+00 + 3 -0.000e+00 4.954e+05 7.393e+04 7.393e+04 -5.249e+05 -0.000e+00 + 4 -0.000e+00 3.265e+05 4.872e+04 4.872e+04 -3.459e+05 -0.000e+00 + 5 -0.000e+00 3.265e+05 4.872e+04 4.872e+04 -3.459e+05 -0.000e+00 + 6 -0.000e+00 1.748e+08 2.609e+07 2.609e+07 -1.852e+08 -0.000e+00 And: equilibrium field: - 0 0.000e+00 0.000e+00 1.568e+07 1.568e+07 1.568e+07 0.0e0 - 1 0.000e+00 0.000e+00 1.773e+07 1.773e+07 1.773e+07 0.0e0 - 2 0.000e+00 0.000e+00 -7.154e+06 -7.154e+06 -7.154e+06 0.0e0 - 3 0.000e+00 0.000e+00 -7.154e+06 -7.154e+06 -7.154e+06 0.0e0 - 4 0.000e+00 0.000e+00 -4.852e+06 -4.852e+06 -4.852e+06 0.0e0 - 5 0.000e+00 0.000e+00 -4.852e+06 -4.852e+06 -4.852e+06 0.0e0 + 0 0.000e+00 0.000e+00 1.573e+07 1.573e+07 1.573e+07 0.0e0 + 1 0.000e+00 0.000e+00 1.777e+07 1.777e+07 1.777e+07 0.0e0 + 2 0.000e+00 0.000e+00 -7.180e+06 -7.180e+06 -7.180e+06 0.0e0 + 3 0.000e+00 0.000e+00 -7.180e+06 -7.180e+06 -7.180e+06 0.0e0 + 4 0.000e+00 0.000e+00 -4.873e+06 -4.873e+06 -4.873e+06 0.0e0 + 5 0.000e+00 0.000e+00 -4.873e+06 -4.873e+06 -4.873e+06 0.0e0 6 0.000e+00 0.000e+00 0.000e+00 0.000e+00 0.000e+00 0.0e0 - Ratio of central solenoid current at beginning of Pulse / end of flat-to (fcohbop) 9.687E-01 ITV - Ratio of central solenoid current at beginning of Flat-top / end of flat (fcohbof) -1.701E-01 OP + Ratio of central solenoid current at beginning of Pulse / end of flat-to (fcohbop) 9.438E-01 ITV + Ratio of central solenoid current at beginning of Flat-top / end of flat (fcohbof) -1.408E-01 OP *************************** PF Circuit Waveform Data *************************** Number of PF circuits including CS and plasma (ncirt) 8 PF Circuit 0 Time point 0 (A) (pfc0t0) 0.000E+00 - PF Circuit 0 Time point 1 (A) (pfc0t1) 1.421E+07 - PF Circuit 0 Time point 2 (A) (pfc0t2) 1.818E+07 - PF Circuit 0 Time point 3 (A) (pfc0t3) 1.818E+07 - PF Circuit 0 Time point 4 (A) (pfc0t4) 1.010E+06 + PF Circuit 0 Time point 1 (A) (pfc0t1) 1.397E+07 + PF Circuit 0 Time point 2 (A) (pfc0t2) 1.782E+07 + PF Circuit 0 Time point 3 (A) (pfc0t3) 1.782E+07 + PF Circuit 0 Time point 4 (A) (pfc0t4) 9.284E+05 PF Circuit 0 Time point 5 (A) (pfc0t5) 0.000E+00 PF Circuit 1 Time point 0 (A) (pfc1t0) 0.000E+00 - PF Circuit 1 Time point 1 (A) (pfc1t1) 1.859E+07 - PF Circuit 1 Time point 2 (A) (pfc1t2) 2.099E+07 - PF Circuit 1 Time point 3 (A) (pfc1t3) 2.099E+07 - PF Circuit 1 Time point 4 (A) (pfc1t4) -1.459E+06 + PF Circuit 1 Time point 1 (A) (pfc1t1) 1.827E+07 + PF Circuit 1 Time point 2 (A) (pfc1t2) 2.050E+07 + PF Circuit 1 Time point 3 (A) (pfc1t3) 2.050E+07 + PF Circuit 1 Time point 4 (A) (pfc1t4) -1.583E+06 PF Circuit 1 Time point 5 (A) (pfc1t5) 0.000E+00 PF Circuit 2 Time point 0 (A) (pfc2t0) -0.000E+00 - PF Circuit 2 Time point 1 (A) (pfc2t1) 4.986E+05 - PF Circuit 2 Time point 2 (A) (pfc2t2) -7.066E+06 - PF Circuit 2 Time point 3 (A) (pfc2t3) -7.066E+06 - PF Circuit 2 Time point 4 (A) (pfc2t4) -7.669E+06 + PF Circuit 2 Time point 1 (A) (pfc2t1) 4.954E+05 + PF Circuit 2 Time point 2 (A) (pfc2t2) -7.106E+06 + PF Circuit 2 Time point 3 (A) (pfc2t3) -7.106E+06 + PF Circuit 2 Time point 4 (A) (pfc2t4) -7.705E+06 PF Circuit 2 Time point 5 (A) (pfc2t5) -0.000E+00 PF Circuit 3 Time point 0 (A) (pfc3t0) -0.000E+00 - PF Circuit 3 Time point 1 (A) (pfc3t1) 4.986E+05 - PF Circuit 3 Time point 2 (A) (pfc3t2) -7.066E+06 - PF Circuit 3 Time point 3 (A) (pfc3t3) -7.066E+06 - PF Circuit 3 Time point 4 (A) (pfc3t4) -7.669E+06 + PF Circuit 3 Time point 1 (A) (pfc3t1) 4.954E+05 + PF Circuit 3 Time point 2 (A) (pfc3t2) -7.106E+06 + PF Circuit 3 Time point 3 (A) (pfc3t3) -7.106E+06 + PF Circuit 3 Time point 4 (A) (pfc3t4) -7.705E+06 PF Circuit 3 Time point 5 (A) (pfc3t5) -0.000E+00 PF Circuit 4 Time point 0 (A) (pfc4t0) -0.000E+00 - PF Circuit 4 Time point 1 (A) (pfc4t1) 3.611E+05 - PF Circuit 4 Time point 2 (A) (pfc4t2) -4.789E+06 - PF Circuit 4 Time point 3 (A) (pfc4t3) -4.789E+06 - PF Circuit 4 Time point 4 (A) (pfc4t4) -5.225E+06 + PF Circuit 4 Time point 1 (A) (pfc4t1) 3.265E+05 + PF Circuit 4 Time point 2 (A) (pfc4t2) -4.825E+06 + PF Circuit 4 Time point 3 (A) (pfc4t3) -4.825E+06 + PF Circuit 4 Time point 4 (A) (pfc4t4) -5.219E+06 PF Circuit 4 Time point 5 (A) (pfc4t5) -0.000E+00 PF Circuit 5 Time point 0 (A) (pfc5t0) -0.000E+00 - PF Circuit 5 Time point 1 (A) (pfc5t1) 3.611E+05 - PF Circuit 5 Time point 2 (A) (pfc5t2) -4.789E+06 - PF Circuit 5 Time point 3 (A) (pfc5t3) -4.789E+06 - PF Circuit 5 Time point 4 (A) (pfc5t4) -5.225E+06 + PF Circuit 5 Time point 1 (A) (pfc5t1) 3.265E+05 + PF Circuit 5 Time point 2 (A) (pfc5t2) -4.825E+06 + PF Circuit 5 Time point 3 (A) (pfc5t3) -4.825E+06 + PF Circuit 5 Time point 4 (A) (pfc5t4) -5.219E+06 PF Circuit 5 Time point 5 (A) (pfc5t5) -0.000E+00 CS Circuit Time point 0 (A) (cs t0) -0.000E+00 - CS Circuit Time point 1 (A) (cs t1) 1.745E+08 - CS Circuit Time point 2 (A) (cs t2) 3.064E+07 - CS Circuit Time point 3 (A) (cs t3) 3.064E+07 - CS Circuit Time point 4 (A) (cs t4) -1.801E+08 + CS Circuit Time point 1 (A) (cs t1) 1.748E+08 + CS Circuit Time point 2 (A) (cs t2) 2.609E+07 + CS Circuit Time point 3 (A) (cs t3) 2.609E+07 + CS Circuit Time point 4 (A) (cs t4) -1.852E+08 CS Circuit Time point 5 (A) (cs t5) -0.000E+00 Plasma Time point 0 (A) (plasmat0) 0.000E+00 Plasma Time point 1 (A) (plasmat1) 0.000E+00 - Plasma Time point 2 (A) (plasmat2) 1.662E+07 - Plasma Time point 3 (A) (plasmat3) 1.662E+07 - Plasma Time point 4 (A) (plasmat4) 1.662E+07 + Plasma Time point 2 (A) (plasmat2) 1.663E+07 + Plasma Time point 3 (A) (plasmat3) 1.663E+07 + Plasma Time point 4 (A) (plasmat4) 1.663E+07 Plasma Time point 5 (A) (plasmat5) 0.000E+00 ********************************************* Support Structure ********************************************** - Outer PF coil fence mass (kg) (fncmass) 2.288E+05 OP - Intercoil support structure mass (kg) (aintmass) 4.225E+06 OP - Mass of cooled components (kg) (coldmass) 3.398E+07 OP - Gravity support structure mass (kg) (clgsmass) 1.262E+06 OP + Outer PF coil fence mass (kg) (fncmass) 2.292E+05 OP + Intercoil support structure mass (kg) (aintmass) 4.304E+06 OP + Mass of cooled components (kg) (coldmass) 3.437E+07 OP + Gravity support structure mass (kg) (clgsmass) 1.276E+06 OP Torus leg support mass (kg) (gsm1) 8.582E+04 OP - Ring beam mass (kg) (gsm2) 3.980E+05 OP - Ring legs mass (kg) (gsm3) 6.729E+05 OP + Ring beam mass (kg) (gsm2) 4.009E+05 OP + Ring legs mass (kg) (gsm3) 6.828E+05 OP ******************************************** PF Coil Inductances ********************************************* Inductance matrix [H]: - 0 [3.4e+00 4.6e-02 2.6e-01 1.7e-01 2.5e-01 6.9e-02 9.3e-01 8.2e-04] - 1 [4.6e-02 4.4e+00 1.7e-01 2.7e-01 7.1e-02 2.7e-01 8.0e-01 7.6e-04] - 2 [2.6e-01 1.7e-01 2.8e+00 9.9e-01 6.5e-01 3.4e-01 4.8e-01 1.5e-03] - 3 [1.7e-01 2.7e-01 9.9e-01 2.8e+00 3.4e-01 6.5e-01 4.8e-01 1.5e-03] - 4 [2.5e-01 7.1e-02 6.5e-01 3.4e-01 1.3e+00 1.3e-01 2.9e-01 7.8e-04] - 5 [6.9e-02 2.7e-01 3.4e-01 6.5e-01 1.3e-01 1.3e+00 2.9e-01 7.8e-04] - CS [9.3e-01 8.0e-01 4.8e-01 4.8e-01 2.9e-01 2.9e-01 2.2e+01 4.2e-03] - Plasma [8.2e-04 7.6e-04 1.5e-03 1.5e-03 7.8e-04 7.8e-04 4.2e-03 1.4e-05] + 0 [3.3e+00 4.4e-02 2.5e-01 1.6e-01 2.4e-01 6.8e-02 9.1e-01 8.0e-04] + 1 [4.4e-02 4.2e+00 1.7e-01 2.7e-01 6.9e-02 2.6e-01 7.7e-01 7.4e-04] + 2 [2.5e-01 1.7e-01 2.8e+00 1.0e+00 6.5e-01 3.5e-01 4.8e-01 1.5e-03] + 3 [1.6e-01 2.7e-01 1.0e+00 2.8e+00 3.5e-01 6.5e-01 4.8e-01 1.5e-03] + 4 [2.4e-01 6.9e-02 6.5e-01 3.5e-01 1.2e+00 1.3e-01 2.9e-01 7.8e-04] + 5 [6.8e-02 2.6e-01 3.5e-01 6.5e-01 1.3e-01 1.2e+00 2.9e-01 7.8e-04] + CS [9.1e-01 7.7e-01 4.8e-01 4.8e-01 2.9e-01 2.9e-01 2.2e+01 4.2e-03] + Plasma [8.0e-04 7.4e-04 1.5e-03 1.5e-03 7.8e-04 7.8e-04 4.2e-03 1.4e-05] ******************************* Nuclear Heating Magnets Before Renormalisation ******************************* Shield line density (tonne/m2) (x_shield) 4.056E+00 Blanket line density (tonne/m2) (x_blanket) 2.291E+00 - Unit nuclear heating in TF coil (W/GW) (tfc_nuc_heating) 1.447E+04 - Total nuclear heating in TF coil (MW) (ptfnuc.) 2.311E-02 - powfmw (powfmw.) 1.597E+03 - total mass of the TF coils (kg) (whttf) 1.112E+07 + Unit nuclear heating in TF coil (W/GW) (tfc_nuc_heating) 1.487E+04 + Total nuclear heating in TF coil (MW) (ptfnuc.) 2.409E-02 + powfmw (powfmw.) 1.620E+03 + total mass of the TF coils (kg) (whttf) 1.142E+07 ************************************ Pumping for primary coolant (helium) ************************************ Pressure drop in FW and blanket coolant incl. hx and pipes (Pa) (dp_he) 5.500E+05 Fraction of FW and blanket thermal power required for pumping (fpump) 8.946E-02 OP - Total power absorbed by FW & blanket (MW) (p_plasma) 1.646E+03 OP + Total power absorbed by FW & blanket (MW) (p_plasma) 1.670E+03 OP Inlet temperature of FW & blanket coolant pump (K) (t_in_compressor) 5.570E+02 OP Coolant pump outlet/Inlet temperature of FW & blanket (K) (t_in_bb) 5.731E+02 Outlet temperature of FW & blanket (K) (t_out_bb) 7.731E+02 - Mechanical pumping power for FW and blanket cooling loop including heat (htpmw_fw_blkt) 1.617E+02 OP - Mechanical pumping power for divertor (MW) (htpmw_div) 1.649E+00 OP - Mechanical pumping power for shield and vacuum vessel (MW) (htpmw_shld) 6.968E-03 OP + Mechanical pumping power for FW and blanket cooling loop including heat (htpmw_fw_blkt) 1.641E+02 OP + Mechanical pumping power for divertor (MW) (htpmw_div) 1.691E+00 OP + Mechanical pumping power for shield and vacuum vessel (MW) (htpmw_shld) 7.069E-03 OP ********************************** First wall and blanket : CCFE HCPB model ********************************** @@ -1295,12 +1296,12 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Nuclear heating : - Total nuclear heating in TF+PF coils (CS is negligible) (MW) (ptfnuc) 2.410E-02 OP - Total nuclear heating in FW (MW) (pnucfw) 1.608E+02 OP - Total nuclear heating in the blanket (including emult) (MW) (pnucblkt) 1.272E+03 OP + Total nuclear heating in TF+PF coils (CS is negligible) (MW) (ptfnuc) 2.512E-02 OP + Total nuclear heating in FW (MW) (pnucfw) 1.632E+02 OP + Total nuclear heating in the blanket (including emult) (MW) (pnucblkt) 1.290E+03 OP (Note: emult is fixed for this model inside the code) - Total nuclear heating in the shield (MW) (pnucshld) 1.394E+00 OP - Total nuclear heating in the divertor (MW) (pnucdiv) 1.469E+02 OP + Total nuclear heating in the shield (MW) (pnucshld) 1.414E+00 OP + Total nuclear heating in the divertor (MW) (pnucdiv) 1.491E+02 OP Diagostic output for nuclear heating : @@ -1321,57 +1322,57 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Other volumes, masses and areas : First wall area (m2) (fwarea) 1.604E+03 OP - Cryostat internal radius (m) (rdewex) 1.779E+01 OP - Cryostat internal half-height (m) (zdewex) 1.532E+01 OP - Vertical clearance from TF coil to cryostat (m) (clh1) 5.607E+00 OP + Cryostat internal radius (m) (rdewex) 1.780E+01 OP + Cryostat internal half-height (m) (zdewex) 1.534E+01 OP + Vertical clearance from TF coil to cryostat (m) (clh1) 5.604E+00 OP Divertor area (m2) (divsur) 1.488E+02 OP Divertor mass (kg) (divmas) 3.645E+04 OP ********************************** Superconducting TF Coil Power Conversion ********************************** - TF coil current (kA) (itfka) 8.482E+01 OP + TF coil current (kA) (itfka) 8.980E+01 OP Number of TF coils (ntfc) 1.600E+01 - Voltage across a TF coil during quench (kV) (vtfskv) 9.970E+00 OP + Voltage across a TF coil during quench (kV) (vtfskv) 9.186E+00 OP TF coil charge time (hours) (tchghr) 4.000E+00 - Total inductance of TF coils (H) (ltfth) 3.298E+01 OP + Total inductance of TF coils (H) (ltfth) 3.017E+01 OP Total resistance of TF coils (ohm) (rcoils) 0.000E+00 OP - TF coil charging voltage (V) (tfcv) 2.988E+02 + TF coil charging voltage (V) (tfcv) 2.927E+02 Number of DC circuit breakers (ntfbkr) 1.600E+01 Number of dump resistors (ndumpr) 6.400E+01 - Resistance per dump resistor (ohm) (r1dump) 1.176E-01 OP - Dump resistor peak power (MW) (r1ppmw) 2.114E+02 OP - Energy supplied per dump resistor (MJ) (r1emj) 1.853E+03 OP - TF coil L/R time constant (s) (ttfsec) 1.753E+01 OP - Power supply voltage (V) (tfpsv) 3.138E+02 OP - Power supply current (kA) (tfpska) 8.906E+01 OP - DC power supply rating (kW) (tfckw) 2.794E+04 OP - AC power for charging (kW) (tfackw) 3.105E+04 OP - TF coil resistive power (MW) (rpower) 8.869E+00 OP - TF coil inductive power (MVA) (xpower) 1.647E+01 OP + Resistance per dump resistor (ohm) (r1dump) 1.023E-01 OP + Dump resistor peak power (MW) (r1ppmw) 2.062E+02 OP + Energy supplied per dump resistor (MJ) (r1emj) 1.900E+03 OP + TF coil L/R time constant (s) (ttfsec) 1.843E+01 OP + Power supply voltage (V) (tfpsv) 3.073E+02 OP + Power supply current (kA) (tfpska) 9.429E+01 OP + DC power supply rating (kW) (tfckw) 2.897E+04 OP + AC power for charging (kW) (tfackw) 3.219E+04 OP + TF coil resistive power (MW) (rpower) 9.390E+00 OP + TF coil inductive power (MVA) (xpower) 1.689E+01 OP Aluminium bus current density (kA/cm2) (djmka) 1.250E-01 - Aluminium bus cross-sectional area (cm2) (albusa) 6.785E+02 OP + Aluminium bus cross-sectional area (cm2) (albusa) 7.184E+02 OP Total length of TF coil bussing (m) (tfbusl) 3.193E+03 OP - Aluminium bus weight (tonnes) (albuswt) 5.850E+02 OP - Total TF coil bus resistance (ohm) (rtfbus) 1.233E-03 OP + Aluminium bus weight (tonnes) (albuswt) 6.193E+02 OP + Total TF coil bus resistance (ohm) (rtfbus) 1.165E-03 OP TF coil bus voltage drop (V) (vtfbus) 1.046E+02 OP - Dump resistor floor area (m2) (drarea) 4.842E+03 OP - TF coil power conversion floor space (m2) (tfcfsp) 1.816E+03 OP - TF coil power conv. building volume (m3) (tfcbv) 1.090E+04 OP - TF coil AC inductive power demand (MW) (xpwrmw) 1.831E+01 OP - Total steady state AC power demand (MW) (tfacpd) 9.855E+00 OP + Dump resistor floor area (m2) (drarea) 4.923E+03 OP + TF coil power conversion floor space (m2) (tfcfsp) 1.823E+03 OP + TF coil power conv. building volume (m3) (tfcbv) 1.094E+04 OP + TF coil AC inductive power demand (MW) (xpwrmw) 1.877E+01 OP + Total steady state AC power demand (MW) (tfacpd) 1.043E+01 OP ****************************** PF Coils and Central Solenoid: Power and Energy ******************************* Number of PF coil circuits (pfckts) 1.200E+01 - Sum of PF power supply ratings (MVA) (spsmva) 2.963E+02 OP + Sum of PF power supply ratings (MVA) (spsmva) 3.031E+02 OP Total PF coil circuit bus length (m) (spfbusl) 2.448E+03 OP - Total PF coil bus resistive power (kW) (pfbuspwr) 9.646E+02 OP - Total PF coil resistive power (kW) (srcktpm) 9.646E+02 OP + Total PF coil bus resistive power (kW) (pfbuspwr) 9.648E+02 OP + Total PF coil resistive power (kW) (srcktpm) 9.648E+02 OP Maximum PF coil voltage (kV) (vpfskv) 2.000E+01 Efficiency of transfer of PF stored energy into or out of storage (etapsu) 9.000E-01 (Energy is dissipated in PFC power supplies only when total PF energy increases or decreases.) - Maximum stored energy in poloidal field (MJ) (ensxpfm) 2.823E+04 OP - Peak absolute rate of change of stored energy in poloidal field (MW) (peakpoloidalpower) 1.699E+02 OP + Maximum stored energy in poloidal field (MJ) (ensxpfm) 2.880E+04 OP + Peak absolute rate of change of stored energy in poloidal field (MW) (peakpoloidalpower) 1.732E+02 OP Energy stored in poloidal magnetic field : @@ -1383,40 +1384,40 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Total outgassing load (Pa m3/s) (ogas) 1.669E-04 OP Base pressure required (Pa) (pbase) 5.000E-04 Required N2 pump speed (m3/s) (s(1)) 3.338E-01 OP - N2 pump speed provided (m3/s) (snet(1)) 2.232E+01 OP + N2 pump speed provided (m3/s) (snet(1)) 2.340E+01 OP Pumpdown between Burns : Plasma chamber volume (m3) (volume) 2.259E+03 OP - Chamber pressure after burn (Pa) (pend) 1.668E-01 OP - Chamber pressure before burn (Pa) (pstart) 1.668E-03 + Chamber pressure after burn (Pa) (pend) 1.670E-01 OP + Chamber pressure before burn (Pa) (pstart) 1.670E-03 Allowable pumping time switch (dwell_pump) 0 Dwell time between burns (s) (tdwell.) 1.800E+03 CS ramp-up time burns (s) (tramp.) 5.000E+02 Allowable pumping time between burns (s) (tpump) 1.800E+03 Required D-T pump speed (m3/s) (s(2)) 5.779E+00 OP - D-T pump speed provided (m3/s) (snet(2)) 5.402E+01 OP + D-T pump speed provided (m3/s) (snet(2)) 5.670E+01 OP Helium Ash Removal : Divertor chamber gas pressure (Pa) (prdiv) 3.600E-01 - Helium gas fraction in divertor chamber (fhe) 1.748E-01 OP - Required helium pump speed (m3/s) (s(3)) 3.730E+01 OP - Helium pump speed provided (m3/s) (snet(3)) 3.730E+01 OP + Helium gas fraction in divertor chamber (fhe) 1.722E-01 OP + Required helium pump speed (m3/s) (s(3)) 3.842E+01 OP + Helium pump speed provided (m3/s) (snet(3)) 3.842E+01 OP D-T Removal at Fuelling Rate : - D-T fuelling rate (kg/s) (frate) 2.694E-05 OP - Required D-T pump speed (m3/s) (s(4)) 3.730E+01 OP - D-T pump speed provided (m3/s) (snet(4)) 5.402E+01 OP + D-T fuelling rate (kg/s) (frate) 2.775E-05 OP + Required D-T pump speed (m3/s) (s(4)) 3.842E+01 OP + D-T pump speed provided (m3/s) (snet(4)) 5.670E+01 OP The vacuum pumping system size is governed by the requirements for pumpdown between burns. Number of large pump ducts (nduct) 16 - Passage diameter, divertor to ducts (m) (d(imax)) 4.684E-01 OP - Passage length (m) (l1) 1.697E+00 OP - Diameter of ducts (m) (dout) 5.621E-01 OP + Passage diameter, divertor to ducts (m) (d(imax)) 4.786E-01 OP + Passage length (m) (l1) 1.716E+00 OP + Diameter of ducts (m) (dout) 5.743E-01 OP Duct length, divertor to elbow (m) (l2) 4.800E+00 OP Duct length, elbow to pumps (m) (l3) 2.000E+00 Number of pumps (pumpn) 3.200E+01 OP @@ -1425,49 +1426,49 @@ PROCESS has successfully optimised the iteration variables to minimise the figur ******************************************* Plant Buildings System ******************************************* - Internal volume of reactor building (m3) (vrci) 9.942E+05 - Dist from centre of torus to bldg wall (m) (wrbi) 3.949E+01 - Effective floor area (m2) (efloor) 3.360E+05 - Reactor building volume (m3) (rbv) 1.128E+06 + Internal volume of reactor building (m3) (vrci) 9.971E+05 + Dist from centre of torus to bldg wall (m) (wrbi) 3.953E+01 + Effective floor area (m2) (efloor) 3.366E+05 + Reactor building volume (m3) (rbv) 1.131E+06 Reactor maintenance building volume (m3) (rmbv) 3.964E+05 Warmshop volume (m3) (wsv) 1.253E+05 Tritium building volume (m3) (triv) 4.000E+04 - Electrical building volume (m3) (elev) 5.190E+04 + Electrical building volume (m3) (elev) 5.194E+04 Control building volume (m3) (conv) 6.000E+04 - Cryogenics building volume (m3) (cryv) 1.478E+04 + Cryogenics building volume (m3) (cryv) 1.498E+04 Administration building volume (m3) (admv) 1.000E+05 Shops volume (m3) (shov) 1.000E+05 - Total volume of nuclear buildings (m3) (volnucb) 1.571E+06 + Total volume of nuclear buildings (m3) (volnucb) 1.574E+06 **************************************** Electric Power Requirements ***************************************** Facility base load (MW) (basemw) 5.000E+00 Divertor coil power supplies (MW) (bdvmw) 0.000E+00 - Cryoplant electric power (MW) (crymw) 3.562E+01 OP - Primary coolant pumps (MW) (htpmw..) 1.878E+02 OP - PF coil power supplies (MW) (ppfmw) 8.067E+01 OP - TF coil power supplies (MW) (ptfmw) 9.855E+00 OP - Plasma heating supplies (MW) (pheatingmw) 1.508E+02 OP + Cryoplant electric power (MW) (crymw) 3.657E+01 OP + Primary coolant pumps (MW) (htpmw..) 1.905E+02 OP + PF coil power supplies (MW) (ppfmw) 8.551E+01 OP + TF coil power supplies (MW) (ptfmw) 1.043E+01 OP + Plasma heating supplies (MW) (pheatingmw) 1.603E+02 OP Tritium processing (MW) (trithtmw..) 1.500E+01 Vacuum pumps (MW) (vachtmw..) 5.000E-01 - Total pulsed power (MW) (pacpmw) 5.356E+02 OP - Total base power required at all times (MW) (fcsht) 5.541E+01 OP + Total pulsed power (MW) (pacpmw) 5.543E+02 OP + Total base power required at all times (MW) (fcsht) 5.549E+01 OP ************************************************* Cryogenics ************************************************* - Conduction and radiation heat loads on cryogenic components (MW) (qss/1.0d6) 1.461E-02 OP + Conduction and radiation heat loads on cryogenic components (MW) (qss/1.0d6) 1.478E-02 OP Nuclear heating of cryogenic components (MW) (qnuc/1.0d6) 1.300E-02 OP Nuclear heating of cryogenic components is a user input. - AC losses in cryogenic components (MW) (qac/1.0d6) 3.738E-03 OP - Resistive losses in current leads (MW) (qcl/1.0d6) 1.846E-02 OP - 45% allowance for heat loads in transfer lines, storage tanks etc (MW) (qmisc/1.0d6) 2.241E-02 OP - Sum = Total heat removal at cryogenic temperatures (tfcoil_variables.tmp (helpow + helpow_cryal/1. 7.222E-02 OP + AC losses in cryogenic components (MW) (qac/1.0d6) 3.817E-03 OP + Resistive losses in current leads (MW) (qcl/1.0d6) 1.954E-02 OP + 45% allowance for heat loads in transfer lines, storage tanks etc (MW) (qmisc/1.0d6) 2.301E-02 OP + Sum = Total heat removal at cryogenic temperatures (tfcoil_variables.tmp (helpow + helpow_cryal/1. 7.415E-02 OP Temperature of cryogenic superconducting components (K) (tmpcry) 4.500E+00 Temperature of cryogenic aluminium components (K) (tcoolin) 3.131E+02 Efficiency (figure of merit) of cryogenic plant is 13% of ideal Carnot v 2.028E-03 OP Efficiency (figure of merit) of cryogenic aluminium plant is 40% of idea -2.020E+00 OP - Electric power for cryogenic plant (MW) (crypmw) 3.562E+01 OP + Electric power for cryogenic plant (MW) (crypmw) 3.657E+01 OP ************************************ Plant Power / Heat Transport Balance ************************************ @@ -1483,13 +1484,13 @@ PROCESS has successfully optimised the iteration variables to minimise the figur includes heat exchanger, using specified pressure drop Mechanical pumping power for FW cooling loop including heat exchanger (M (htpmw_fw) 0.000E+00 OP Mechanical pumping power for blanket cooling loop including heat exchang (htpmw_blkt) 0.000E+00 OP - Mechanical pumping power for FW and blanket cooling loop including heat (htpmw_fw_blkt) 1.617E+02 OP - Mechanical pumping power for divertor (MW) (htpmw_div) 1.649E+00 OP - Mechanical pumping power for shield and vacuum vessel (MW) (htpmw_shld) 6.968E-03 OP - Electrical pumping power for FW and blanket (MW) (htpmwe_fw_blkt) 1.859E+02 OP - Electrical pumping power for shield (MW) (htpmwe_shld) 8.009E-03 OP - Electrical pumping power for divertor (MW) (htpmwe_div) 1.895E+00 OP - Total electrical pumping power for primary coolant (MW) (htpmw) 1.878E+02 OP + Mechanical pumping power for FW and blanket cooling loop including heat (htpmw_fw_blkt) 1.641E+02 OP + Mechanical pumping power for divertor (MW) (htpmw_div) 1.691E+00 OP + Mechanical pumping power for shield and vacuum vessel (MW) (htpmw_shld) 7.069E-03 OP + Electrical pumping power for FW and blanket (MW) (htpmwe_fw_blkt) 1.886E+02 OP + Electrical pumping power for shield (MW) (htpmwe_shld) 8.125E-03 OP + Electrical pumping power for divertor (MW) (htpmwe_div) 1.943E+00 OP + Total electrical pumping power for primary coolant (MW) (htpmw) 1.905E+02 OP Coolant pump power / non-pumping thermal power in shield (fpumpshld) 5.000E-03 Coolant pump power / non-pumping thermal power in divertor (fpumpdiv) 5.000E-03 Electrical efficiency of heat transport coolant pumps (etahtp) 8.700E-01 @@ -1500,7 +1501,7 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Shield thermal power is collected at only 150 C and is used to preheat the coolant in the power cycle Power conversion cycle efficiency model: user-defined efficiency Thermal to electric conversion efficiency of the power conversion cycle (etath) 0.400 - Fraction of total high-grade thermal power to divertor (pdivfraction) 0.155 OP + Fraction of total high-grade thermal power to divertor (pdivfraction) 0.156 OP Power Balance for Reactor (across vacuum vessel boundary) - Detail ------------------------------------------------------------------ @@ -1508,31 +1509,31 @@ PROCESS has successfully optimised the iteration variables to minimise the figur High-grade Low-grade Total thermal power (MW) thermal power (MW) (MW) First wall: - pnucfw 0.00 160.83 - palpfwmw 0.00 15.95 - pradfw 0.00 197.59 + pnucfw 0.00 163.15 + palpfwmw 0.00 16.18 + pradfw 0.00 200.42 htpmw_fw 0.00 0.00 Blanket: - pnucblkt 0.00 1271.68 + pnucblkt 0.00 1290.08 0.0e0 0.0e0 0.0e0 0.0e0 0.0e0 0.0e0 htpmw_blkt 0.00 0.00 Shield: - 1.3935888984449547 0.0 1.3935888984449547 + 1.4137531918967596 0.0 1.4137531918967596 0.0e0 0.0e0 0.0e0 0.0e0 0.0e0 0.0e0 - 0.006967944492224773 0.0 0.006967944492224773 + 0.007068765959483798 0.0 0.007068765959483798 Divertor: - 146.93029801393774 0.0 146.93029801393774 - 157.09558926414797 0.0 157.09558926414797 - 25.675194651036445 0.0 25.675194651036445 - 1.648505409645611 0.0 1.648505409645611 + 149.05655107316005 0.0 149.05655107316005 + 163.0278573758872 0.0 163.0278573758872 + 26.04378234075923 0.0 26.04378234075923 + 1.6906409539490324 0.0 1.6906409539490324 TF coil: - ptfnuc 0.00 0.02 + ptfnuc 0.00 0.03 0.0e0 0.0e0 0.0e0 0.0e0 0.0e0 0.0e0 0.0e0 0.0e0 0.0e0 @@ -1543,22 +1544,22 @@ PROCESS has successfully optimised the iteration variables to minimise the figur pradhcd 0.00 0.00 0.0e0 0.0e0 0.0e0 - 1978.792774591497 0.024103348230210837 1978.8168779397272 + 2011.0769671840444 0.025118361005325503 2011.1020855450497 - Total power leaving reactor (across vacuum vessel boundary) (MW) 1978.841 OP + Total power leaving reactor (across vacuum vessel boundary) (MW) 2011.127 OP Other secondary thermal power constituents : - Heat removal from cryogenic plant (MW) (crypmw) 35.616 OP - Heat removal from facilities (MW) (fachtmw) 55.405 OP - Coolant pumping efficiency losses (MW) (htpsecmw) 24.414 OP - Heat removal from injection power (MW) (pinjht) 75.398 OP + Heat removal from cryogenic plant (MW) (crypmw) 36.566 OP + Heat removal from facilities (MW) (fachtmw) 55.490 OP + Coolant pumping efficiency losses (MW) (htpsecmw) 24.769 OP + Heat removal from injection power (MW) (pinjht) 80.143 OP Heat removal from tritium plant (MW) (trithtmw) 15.000 OP Heat removal from vacuum pumps (MW) (vachtmw) 0.500 OP TF coil resistive power (MW) (tfcmw) 0.000 OP - Total low-grade thermal power (MW) (psechtmw) 217.447 OP - Total High-grade thermal power (MW) (pthermmw) 2140.522 OP + Total low-grade thermal power (MW) (psechtmw) 224.169 OP + Total High-grade thermal power (MW) (pthermmw) 2175.144 OP Number of primary heat exchangers (nphx) 3 OP @@ -1567,69 +1568,69 @@ PROCESS has successfully optimised the iteration variables to minimise the figur ------------------------------- Only energy deposited in the plasma is included here. Total power loss is scaling power plus core radiation only (physics_variables.iradloss = 1) - Transport power from scaling law (MW) (pscalingmw) 290.184 OP - Radiation power from inside "coreradius" (MW) (pcoreradmw.) 90.174 OP - Total (MW) 380.358 OP + Transport power from scaling law (MW) (pscalingmw) 297.846 OP + Radiation power from inside "coreradius" (MW) (pcoreradmw.) 91.650 OP + Total (MW) 389.496 OP - Alpha power deposited in plasma (MW) (falpha*palpmw) 303.079 OP - Power from charged products of DD and/or D-He3 fusion (MW) (pchargemw.) 1.245 OP - Ohmic heating (MW) (pohmmw.) 0.636 OP - Injected power deposited in plasma (MW) (pinjmw) 75.398 OP - Total (MW) 380.358 OP + Alpha power deposited in plasma (MW) (falpha*palpmw) 307.464 OP + Power from charged products of DD and/or D-He3 fusion (MW) (pchargemw.) 1.266 OP + Ohmic heating (MW) (pohmmw.) 0.623 OP + Injected power deposited in plasma (MW) (pinjmw) 80.143 OP + Total (MW) 389.496 OP Power Balance for Reactor - Summary : ------------------------------------- - Fusion power (MW) (powfmw) 1597.068 OP - Power from energy multiplication in blanket and shield (MW) (emultmw) 303.960 OP - Injected power (MW) (pinjmw.) 75.398 OP - Ohmic power (MW) (pohmmw.) 0.636 OP - Power deposited in primary coolant by pump (MW) (htpmw_mech) 163.385 OP - Total (MW) 2140.447 OP - - Heat extracted from first wall and blanket (MW) (pthermfw_blkt) 1807.772 OP - Heat extracted from shield (MW) (pthermshld) 1.401 OP - Heat extracted from divertor (MW) (pthermdiv) 331.350 OP + Fusion power (MW) (powfmw) 1620.180 OP + Power from energy multiplication in blanket and shield (MW) (emultmw) 308.358 OP + Injected power (MW) (pinjmw.) 80.143 OP + Ohmic power (MW) (pohmmw.) 0.623 OP + Power deposited in primary coolant by pump (MW) (htpmw_mech) 165.765 OP + Total (MW) 2175.068 OP + + Heat extracted from first wall and blanket (MW) (pthermfw_blkt) 1833.904 OP + Heat extracted from shield (MW) (pthermshld) 1.421 OP + Heat extracted from divertor (MW) (pthermdiv) 339.819 OP Nuclear and photon power lost to H/CD system (MW) (psechcd) 0.000 OP - Nuclear power lost to TF (MW) (ptfnuc) 0.024 OP - Total (MW) 2140.546 OP + Nuclear power lost to TF (MW) (ptfnuc) 0.025 OP + Total (MW) 2175.169 OP Electrical Power Balance : -------------------------- - Net electric power output(MW) (pnetelmw.) 400.004 OP + Net electric power output(MW) (pnetelmw.) 400.006 OP Required Net electric power output(MW) (pnetelin) 400.000 - Electric power for heating and current drive (MW) (pinjwp) 150.796 OP - Electric power for primary coolant pumps (MW) (htpmw) 187.798 OP + Electric power for heating and current drive (MW) (pinjwp) 160.286 OP + Electric power for primary coolant pumps (MW) (htpmw) 190.534 OP Electric power for vacuum pumps (MW) (vachtmw) 0.500 Electric power for tritium plant (MW) (trithtmw) 15.000 - Electric power for cryoplant (MW) (crypmw) 35.616 OP - Electric power for TF coils (MW) (tfacpd) 9.855 OP - Electric power for PF coils (MW) (pfwpmw) 1.235 OP - All other internal electric power requirements (MW) (fachtmw) 55.405 OP - Total (MW) (tot_plant_power) 856.209 OP - Total (MW) 856.209 OP - - Gross electrical output* (MW) (pgrossmw) 856.209 OP + Electric power for cryoplant (MW) (crypmw) 36.566 OP + Electric power for TF coils (MW) (tfacpd) 10.434 OP + Electric power for PF coils (MW) (pfwpmw) 1.242 OP + All other internal electric power requirements (MW) (fachtmw) 55.490 OP + Total (MW) (tot_plant_power) 870.058 OP + Total (MW) 870.058 OP + + Gross electrical output* (MW) (pgrossmw) 870.058 OP (*Power for pumps in secondary circuit already subtracted) Power balance for power plant : ------------------------------- - Fusion power (MW) (powfmw) 1597.068 OP - Power from energy multiplication in blanket and shield (MW) (emultmw) 303.960 OP - Total (MW) 1901.028 OP + Fusion power (MW) (powfmw) 1620.180 OP + Power from energy multiplication in blanket and shield (MW) (emultmw) 308.358 OP + Total (MW) 1928.538 OP - Net electrical output (MW) (pnetelmw) 400.004 OP - Heat rejected by main power conversion circuit (MW) (rejected_main) 1284.313 OP - Heat rejected by other cooling circuits (MW) (psechtmw) 217.447 OP - Total (MW) 1901.764 OP + Net electrical output (MW) (pnetelmw) 400.006 OP + Heat rejected by main power conversion circuit (MW) (rejected_main) 1305.086 OP + Heat rejected by other cooling circuits (MW) (psechtmw) 224.169 OP + Total (MW) 1929.261 OP Plant efficiency measures : - Net electric power / total nuclear power (%) (pnetelmw/(powfmw+em 21.041 OP - Net electric power / total fusion power (%) (pnetelmw/powfmw) 25.046 OP + Net electric power / total nuclear power (%) (pnetelmw/(powfmw+em 20.741 OP + Net electric power / total fusion power (%) (pnetelmw/powfmw) 24.689 OP Gross electric power* / high grade heat (%) (etath) 40.000 (*Power for pumps in secondary circuit already subtracted) - Recirculating power fraction (cirpowfr) 0.533 OP + Recirculating power fraction (cirpowfr) 0.540 OP Time-dependent power usage @@ -1637,39 +1638,39 @@ PROCESS has successfully optimised the iteration variables to minimise the figur tramp tohs theat tburn tqnch tdwell ----- ---- ----- ----- ----- ------ - Duration 500.0 166.16203759180593 10.0 7210.408167573202 166.16203759180593 1800.0 + Duration 500.0 166.3120681875048 10.0 7203.474744374382 166.3120681875048 1800.0 ------ ----- ---- ----- ----- ----- ------ Continous power usage [MWe]: System tramp tohs theat tburn tqnch tdwell ------ ----- ---- ----- ----- ----- ------ - Primary cooling 187.7984301553273 187.7984301553273 187.7984301553273 187.7984301553273 187.7984301553273 187.7984301553273 - Cryoplant 35.61576869500067 35.61576869500067 35.61576869500067 35.61576869500067 35.61576869500067 35.61576869500067 + Primary cooling 190.53422680544705 190.53422680544705 190.53422680544705 190.53422680544705 190.53422680544705 190.53422680544705 + Cryoplant 36.56608942770081 36.56608942770081 36.56608942770081 36.56608942770081 36.56608942770081 36.56608942770081 Vacuum 0.5 0.5 0.5 0.5 0.5 0.5 Tritium 15.0 15.0 15.0 15.0 15.0 15.0 - TF 9.854833386636704 9.854833386636704 9.854833386636704 9.854833386636704 9.854833386636704 9.854833386636704 - Facilities 55.405448398646456 55.405448398646456 55.405448398646456 55.405448398646456 55.405448398646456 55.405448398646456 + TF 10.433515098277292 10.433515098277292 10.433515098277292 10.433515098277292 10.433515098277292 10.433515098277292 + Facilities 55.48967873773938 55.48967873773938 55.48967873773938 55.48967873773938 55.48967873773938 55.48967873773938 ------ ----- ---- ----- ----- ----- ------ - Total 304.17448063561113 304.17448063561113 304.17448063561113 304.17448063561113 304.17448063561113 304.17448063561113 + Total 308.5235100691645 308.5235100691645 308.5235100691645 308.5235100691645 308.5235100691645 308.5235100691645 ------ ----- ---- ----- ----- ----- ------ Intermittent power usage [MWe]: System tramp tohs theat tburn tqnch tdwell ------ ----- ---- ----- ----- ----- ------ - H & CD 0.0 240.0 240.0 150.7955774255487 240.0 0.0 - PF 46.51235285967593 -57.496752020712144 0.0 2.0150208625789845 -169.90584552472362 0.0 + H & CD 0.0 240.0 240.0 160.28589054271148 240.0 0.0 + PF 45.20992933087412 -55.440256398044795 0.0 2.1404795879536165 -173.19180638996582 0.0 ------ ----- ---- ----- ----- ----- ------ - Total 46.51235285967593 182.50324797928786 240.0 152.81059828812766 70.09415447527638 0.0 + Total 45.20992933087412 184.5597436019552 240.0 162.4263701306651 66.80819361003418 0.0 ------ ----- ---- ----- ----- ----- ------ Power production [MWe]: tramp tohs theat tburn tqnch tdwell avg ----- ---- ----- ----- ----- ------ --- - Gross power 0.0 0.0 0.0 856.2087741889977 0.0 0.0 - Net power -350.68683349528703 -486.677728614899 -544.1744806356112 399.2236952652589 -374.26863511088754 -304.17448063561113 + Gross power 0.0 0.0 0.0 870.0576139139499 0.0 0.0 + Net power -353.7334394000386 -493.0832536711197 -548.5235100691646 399.1077337141203 -375.33170367919865 -308.5235100691645 ------ ----- ---- ----- ----- ----- ------ @@ -1678,9 +1679,9 @@ PROCESS has successfully optimised the iteration variables to minimise the figur Estimated amount of water used through different cooling system options: 1. Cooling towers 2. Water bodies (pond, lake, river): recirculating or once-through - Volume used in cooling tower (m3/day) (waterusetower) 5.460E+04 OP - Volume used in recirculating water system (m3/day) (wateruserecirc) 1.832E+04 OP - Volume used in once-through water system (m3/day) (wateruseonethru) 1.795E+06 OP + Volume used in cooling tower (m3/day) (waterusetower) 5.549E+04 OP + Volume used in recirculating water system (m3/day) (wateruserecirc) 1.862E+04 OP + Volume used in once-through water system (m3/day) (wateruseonethru) 1.824E+06 OP ******************************************** Errors and Warnings *********************************************