diff --git a/documentation/proc-pages/eng-models/cryostat-and-vacuum-system.md b/documentation/proc-pages/eng-models/cryostat-and-vacuum-system.md
index 82cc41c636..da7e87e665 100644
--- a/documentation/proc-pages/eng-models/cryostat-and-vacuum-system.md
+++ b/documentation/proc-pages/eng-models/cryostat-and-vacuum-system.md
@@ -87,7 +87,7 @@ The power balance for cryogenics is detailed as in the example below. The calcu
Resistive losses in current leads (MW) (qcl/1.0D6) 2.065E-02 OP
45% allowance for heat loads in transfer lines, storage tanks etc (MW) (qmisc/1.0D6) 3.116E-02 OP
Sum = Total heat removal at cryogenic temperatures (W) (helpow/1.0D6) 1.004E-01 OP
- Temperature of cryogenic components (K) (tmpcry) 4.500E+00
+ Temperature of cryogenic components (K) (temp_tf_cryo) 4.500E+00
Efficiency (figure of merit) of cryogenic plant is 13% of ideal Carnot v 2.028E-03 OP
Electric power for cryogenic plant (MW) (crypmw) 4.952E+01 OP
```
diff --git a/documentation/proc-pages/eng-models/tf-coil.md b/documentation/proc-pages/eng-models/tf-coil.md
index 59b29d22e5..55424520d8 100644
--- a/documentation/proc-pages/eng-models/tf-coil.md
+++ b/documentation/proc-pages/eng-models/tf-coil.md
@@ -58,7 +58,7 @@ The TF coils are assumed to be supporting each other against the net centering f
#### TF coil inboard radial size
- Following the geometry and its parametrization presented in Figure 1, the TF total thickness dr_tf_inboard \( \left( \Delta R_\mathrm{TF} \right) \) is related with the inner and outer case radial thicknesses (thkcas, \( \Delta R_\mathrm{case}^\mathrm{in} \) and casthi, \( \Delta R_\mathrm{case}^\mathrm{out} \) respectively) and the WP radial thickness dr_tf_wp \(\Delta R_\mathrm{WP}\) by the following equation :
+ Following the geometry and its parametrization presented in Figure 1, the TF total thickness dr_tf_inboard \( \left( \Delta R_\mathrm{TF} \right) \) is related with the inner and outer case radial thicknesses (dr_tf_nose_case, \( \Delta R_\mathrm{case}^\mathrm{in} \) and casthi, \( \Delta R_\mathrm{case}^\mathrm{out} \) respectively) and the WP radial thickness dr_tf_wp \(\Delta R_\mathrm{WP}\) by the following equation :
$$
@@ -89,10 +89,10 @@ $$
Although not physically divided into pieces, three sections of the case can be considered:
-
- **The nose casing:** this section corresponds to the case separating the WP with the machine center. Due to the presence of net electromechanical centering forces, this case has a major structural purpose and is often much larger than the other sides. The nose case dimension is set by its radial thickness that the user can specify using the `thkcas` input variable (iteration variable 57).
+ **The nose casing:** this section corresponds to the case separating the WP with the machine center. Due to the presence of net electromechanical centering forces, this case has a major structural purpose and is often much larger than the other sides. The nose case dimension is set by its radial thickness that the user can specify using the `dr_tf_nose_case` input variable (iteration variable 57).
-
- **Sidewall casing:** this section corresponds to the lateral side of the case, separating the WP with the other vaulted coils. As in the WP geometry is generally squared, the sidewall case thickness may vary with the machine radius. For this reason, the user sets its dimensions though its minimal thickness `casths`. The user can either directly specify `casths` or define it as a fraction of the total coil thickness at the inner radius of the WP (`r_wp_inner`) with the `casths_fraction` input. If `casths_fraction` is set in the input file, the `casths` value will be overwritten.
+ **Sidewall casing:** this section corresponds to the lateral side of the case, separating the WP with the other vaulted coils. As in the WP geometry is generally squared, the sidewall case thickness may vary with the machine radius. For this reason, the user sets its dimensions though its minimal thickness `dx_tf_side_case`. The user can either directly specify `dx_tf_side_case` or define it as a fraction of the total coil thickness at the inner radius of the WP (`r_wp_inner`) with the `casths_fraction` input. If `casths_fraction` is set in the input file, the `dx_tf_side_case` value will be overwritten.
-
**Plasma side casing:** this section corresponds to the case section separating the WP with the plasma. As the geometry of this section is rounded, its thickness is set by its minimal value `casthi` (user input). This parameter can also be defined as a fraction of the total TF coil thickness `dr_tf_inboard` using `casthi_fraction`. If the `casthi_fraction` parametrization is used, the `casthi` value will be overwritten.
@@ -268,7 +268,7 @@ turns. The number of turns can be parametrized in three different ways :
A much simpler inboard mid-plane geometry is used for resistive TF coils, as shown in Figure 6. The most important difference is the absence of the lateral steel casing structure. Three main sections can be distinguished:
-- **The bucking cylinder:** radial thickness `thkcas` (iteration variable 57), is present to support the centering forces. Its presence is however not mandatory and can be can be removed setting TODO.
+- **The bucking cylinder:** radial thickness `dr_tf_nose_case` (iteration variable 57), is present to support the centering forces. Its presence is however not mandatory and can be can be removed setting TODO.
- **The conductor area:** radial thickness `dr_tf_wp` (iteration variable 140). Ground insulation, corresponding to the dark grey area in *Figure 6* is included in this section by convention.
- **The outer cylinder:** radial thickness `casthi`. This cylinder plays no role in the structural models in PROCESS.
@@ -1180,7 +1180,7 @@ For `i_tf_sc_mat = 4`, important superconductor properties may be input as follo
- Upper critical field at zero temperature and strain: `bcritsc`,
- Critical temperature at zero field and strain: `tcritsc`.
-The toroidal field falls off at a rate $1/R$, with the peak value occurring at the outer edge of the inboard portion of the TF coil winding pack (radius `rbmax`).
+The toroidal field falls off at a rate $1/R$, with the peak value occurring at the outer edge of the inboard portion of the TF coil winding pack (radius `r_b_tf_inboard_peak`).
Three constraints are relevant to the operating current density $J_{\mbox{op}}$ in the TF coils.
@@ -1259,9 +1259,9 @@ Another subroutine, `tfspcall` is called outside `stfcoil` to estimate to check
| `dr_tf_inboard` | TF coil maximum radial size
calculated if `dr_tf_wp` is used as iteration variable | ixc = 13 | No default | m |
| `tfootfi` | Outboard/inboard TF coil thickness ratio | - | 1 | - |
| `dr_tf_wp` | Winding pack radial thickness
calculated if `dr_tf_inboard` is used as iteration variable. Include the ground insulation and the insertion gap. | ixc = 140 | No default | m |
-| `thkcas` | Nose/inner case radial thickness | ixc = 57 | 0.3 | m |
-| `casths` | Minimal sidewall casing thickness | - | - | m |
-| `casths_fraction` | Minimal sidewall casing thickness as a fraction of the TF coil toroidal thickness. Overwites the `casths` input value | - | 0.03 | - |
+| `dr_tf_nose_case` | Nose/inner case radial thickness | ixc = 57 | 0.3 | m |
+| `dx_tf_side_case` | Minimal sidewall casing thickness | - | - | m |
+| `casths_fraction` | Minimal sidewall casing thickness as a fraction of the TF coil toroidal thickness. Overwites the `dx_tf_side_case` input value | - | 0.03 | - |
| `casthi` | Minimal plasma side casing thickness | - | - | m |
| `casthi_fraction` | Minimal plasma side casing thickness as a fraction of the TF thickness (`dr_tf_inboard`). Overwites the `casthi` input value | - | 0.05 | - |
| `i_tf_case_geom` | Plasma side casing geometry option:
- 0 : rounder front casing (ITER)
- 1 : Straight casing | - | 0 | - |
diff --git a/documentation/proc-pages/fusion-devices/stellarator.md b/documentation/proc-pages/fusion-devices/stellarator.md
index fc1ca32c07..3fa84f047a 100644
--- a/documentation/proc-pages/fusion-devices/stellarator.md
+++ b/documentation/proc-pages/fusion-devices/stellarator.md
@@ -200,7 +200,7 @@ This file needs to be prepared by hand or can be written automatically by the pr
Alternatively `istell = 1,2,3,4,5` allow for pre-selected stellarator machines.
-*Figure 3: Differences of the stellarator coil cross section in PROCESS compared to the tokamak description. Note the identical `thkcas` around the cable area.*
+*Figure 3: Differences of the stellarator coil cross section in PROCESS compared to the tokamak description. Note the identical `dr_tf_nose_case` around the cable area.*
The stellarator coil model[^6] uses scaling aspects based on a reference calculation of the stellarator configuration, using numerical calculations at a reference point.
Examples for these calculations are inductances, peak field calculations or stellarator forces.
@@ -209,7 +209,7 @@ The fully three-dimensional shape of the coils is assumed to be fixed, but the s
The stellarator coils are assumed to be superconducting - no resistive coil calculations are performed. The critical field at the superconductor is calculated using circular approximations for the coils in the inductance and field calculations, and the limit is enforced automatically. All superconductor materials that are available for tokamaks are also available for stellarators.
-The winding pack cross-section is rectangular for the stellarator coils, rather than the two-step cross-section assumed for tokamaks. The coil thicknesses and most of the dimensions of the materials within the coil cross-section are outputs from the model, instead of being inputs as is the case for tokamaks; see the variable descriptor file for details. In addition, certain iteration variables (`dr_tf_inboard`, no. 13; `thkcas`, no. 57; `cpttf`, no. 60 and `tftort`, no. 77) should not be turned on in the input file as they are calculated self-consistently (`thkcas` is required as input); the code will stop with an error message of this is attempted.
+The winding pack cross-section is rectangular for the stellarator coils, rather than the two-step cross-section assumed for tokamaks. The coil thicknesses and most of the dimensions of the materials within the coil cross-section are outputs from the model, instead of being inputs as is the case for tokamaks; see the variable descriptor file for details. In addition, certain iteration variables (`dr_tf_inboard`, no. 13; `dr_tf_nose_case`, no. 57; `cpttf`, no. 60 and `dx_tf_inboard_out_toroidal`, no. 77) should not be turned on in the input file as they are calculated self-consistently (`dr_tf_nose_case` is required as input); the code will stop with an error message of this is attempted.
The conduit insulation thickness (`thicndut`), as well as the steel thickness around each conductor (`thwcndut`) should be given as input parameters together with the dimension of the conductor area (`t_turn_tf`).
@@ -224,12 +224,12 @@ i_tf_sc_mat = 8 * Switch for superconductor material in tf coils;
sig_tf_wp_max = 4.e8 * Maximal allowable Stress level on Ground insulation for a simple stellarator coil stress module (Pa)
fcutfsu = 0.7 *Copper fraction of cable conductor (TF coils), Schauer: 900 SCU strands, 522 Copper strands. Value for 0.4 Helium
tftmp = 4.75 *Peak helium coolant temperature in TF coils and PF coils (K)
-tmpcry = 4.75 * Temperature in TF coils, required for plant efficiency (K)
+temp_tf_cryo = 4.75 * Temperature in TF coils, required for plant efficiency (K)
vftf = 0.3 *Coolant fraction of TF coil leg (itfsup=0) this is the same for conductor and strand!
fiooic = 0.78 *Fraction TF coil critical current to operation current (should be iteration variable!)
vdalw = 12.64 * Max voltage across tf coil during quench (kV)
tdmptf = 20 * Dump time (should be iteration variable)
-thkcas = 0.1 * Thickness TF Coil case (for stellarators: Also for toroidal direction)
+dr_tf_nose_case = 0.1 * Thickness TF Coil case (for stellarators: Also for toroidal direction)
t_turn_tf = 0.048 * Dimension conductor area including steel and insulation. Important parameter.
thicndut = 0.0015 * Conduit insulation thickness (one side) (m)
thwcndut = 0.006 * thickness of steel around each conductor (one side) (m)
diff --git a/documentation/proc-pages/io/utilities.md b/documentation/proc-pages/io/utilities.md
index 646071abfb..7ad0b94654 100644
--- a/documentation/proc-pages/io/utilities.md
+++ b/documentation/proc-pages/io/utilities.md
@@ -309,7 +309,7 @@ This utility plots the output of a PROCESS scan. PROCESS must be run on a scan-e
**Input**: `MFILE.DAT`
-**Output** `scan_var1_vs_var2.pdf` (var1 by default is `bmaxtf`, var2 specified by user)
+**Output** `scan_var1_vs_var2.pdf` (var1 by default is `b_tf_inboard_peak`, var2 specified by user)
### Usage
diff --git a/examples/data/csv_output_large_tokamak_MFILE.DAT b/examples/data/csv_output_large_tokamak_MFILE.DAT
index 4942c2dc0a..d09e93128d 100644
--- a/examples/data/csv_output_large_tokamak_MFILE.DAT
+++ b/examples/data/csv_output_large_tokamak_MFILE.DAT
@@ -133,9 +133,9 @@
tdmptf__________________________________________________________________ (itvar037)____________________ 1.9607E+01
tdmptf_(final_value/initial_value)______________________________________ (xcm037)______________________ 7.8427E-01
tdmptf_(range_normalised)_______________________________________________ (nitvar037)___________________ 1.9526E-01
- thkcas__________________________________________________________________ (itvar038)____________________ 2.2965E-01
- thkcas_(final_value/initial_value)______________________________________ (xcm038)______________________ 4.5931E-01
- thkcas_(range_normalised)_______________________________________________ (nitvar038)___________________ 1.8911E-01
+ dr_tf_nose_case__________________________________________________________________ (itvar038)____________________ 2.2965E-01
+ dr_tf_nose_case_(final_value/initial_value)______________________________________ (xcm038)______________________ 4.5931E-01
+ dr_tf_nose_case_(range_normalised)_______________________________________________ (nitvar038)___________________ 1.8911E-01
thwcndut________________________________________________________________ (itvar039)____________________ 8.0000E-03
thwcndut_(final_value/initial_value)____________________________________ (xcm039)______________________ 1.0000E+00
thwcndut_(range_normalised)_____________________________________________ (nitvar039)___________________ 0.0000E+00
@@ -674,7 +674,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.6482E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.6482E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7815E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -688,15 +688,15 @@
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)____________________ 1.7350E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7350E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2056E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 6.9487E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.6240E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.9707E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.0816E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.2965E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.2965E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 4.9722E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.7619E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.1826E-01
@@ -707,8 +707,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.9252E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2577E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.9412E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2482E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.9412E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2482E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5709E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.7439E-02 OP
@@ -729,16 +729,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.2728E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.7530E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.1497E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 9.1497E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4504E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5475E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.5696E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0511E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1646E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.5696E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0511E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1646E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0251E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0251E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2085E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.4422E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.4422E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1672E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1034E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.9146E+08 OP
@@ -942,7 +942,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3678E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.1784E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.5926E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0511E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0511E+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
@@ -1100,7 +1100,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.7533E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.1839E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.0370E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1440,9 +1440,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -1779,7 +1779,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/examples/data/large_tokamak_1_MFILE.DAT b/examples/data/large_tokamak_1_MFILE.DAT
index 1fb37f3690..79a9057b36 100644
--- a/examples/data/large_tokamak_1_MFILE.DAT
+++ b/examples/data/large_tokamak_1_MFILE.DAT
@@ -671,7 +671,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 9.1597E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 9.1597E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7937E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -685,15 +685,15 @@
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)____________________ 1.8229E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.8229E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2853E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0508E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 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)______________________ 2.8216E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.8216E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
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
@@ -704,8 +704,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 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
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.7934E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.3656E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
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
@@ -726,16 +726,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
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
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 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_coils)__________________ 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
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 7.1402E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.1424E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.2178E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.1176E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 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
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 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
@@ -937,7 +937,7 @@
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
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 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
@@ -1095,7 +1095,7 @@
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_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1434,9 +1434,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -1773,7 +1773,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/examples/data/large_tokamak_2_MFILE.DAT b/examples/data/large_tokamak_2_MFILE.DAT
index 91fa5ca477..7b06d13d7e 100644
--- a/examples/data/large_tokamak_2_MFILE.DAT
+++ b/examples/data/large_tokamak_2_MFILE.DAT
@@ -671,7 +671,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 9.1597E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 9.1597E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7937E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -685,15 +685,15 @@
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)____________________ 1.8229E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.8229E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2853E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0508E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 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)______________________ 2.8216E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.8216E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
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
@@ -704,8 +704,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 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
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.7934E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.3656E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
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
@@ -726,16 +726,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
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
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 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_coils)__________________ 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
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 7.1402E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.1424E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.2178E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.1176E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 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
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 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
@@ -937,7 +937,7 @@
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
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 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
@@ -1095,7 +1095,7 @@
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_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1434,9 +1434,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -1773,7 +1773,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/examples/data/large_tokamak_3_MFILE.DAT b/examples/data/large_tokamak_3_MFILE.DAT
index ea0f09bb4b..fa3cdf5c99 100644
--- a/examples/data/large_tokamak_3_MFILE.DAT
+++ b/examples/data/large_tokamak_3_MFILE.DAT
@@ -671,7 +671,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 9.1597E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 9.1597E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7937E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -685,15 +685,15 @@
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)____________________ 1.8229E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.8229E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2853E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0508E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 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)______________________ 2.8216E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.8216E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
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
@@ -704,8 +704,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 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
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.7934E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.3656E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
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
@@ -726,16 +726,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
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
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 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_coils)__________________ 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
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 7.1402E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.1424E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.2178E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.1176E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 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
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 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
@@ -937,7 +937,7 @@
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
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 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
@@ -1095,7 +1095,7 @@
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_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1434,9 +1434,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -1774,7 +1774,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/examples/data/large_tokamak_4_MFILE.DAT b/examples/data/large_tokamak_4_MFILE.DAT
index 6a58c239e5..5419f4dd16 100644
--- a/examples/data/large_tokamak_4_MFILE.DAT
+++ b/examples/data/large_tokamak_4_MFILE.DAT
@@ -671,7 +671,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 9.1597E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 9.1597E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7937E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -685,15 +685,15 @@
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)____________________ 1.8229E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.8229E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2853E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0508E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 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)______________________ 2.8216E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.8216E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
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
@@ -704,8 +704,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 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
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.7934E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.3656E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
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
@@ -726,16 +726,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
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
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 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_coils)__________________ 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
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 7.1402E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.1424E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.2178E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.1176E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 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
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 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
@@ -937,7 +937,7 @@
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
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 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
@@ -1095,7 +1095,7 @@
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_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1434,9 +1434,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -1774,7 +1774,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/examples/data/large_tokamak_IN.DAT b/examples/data/large_tokamak_IN.DAT
index 5a8e12fc6d..1b266eca8c 100644
--- a/examples/data/large_tokamak_IN.DAT
+++ b/examples/data/large_tokamak_IN.DAT
@@ -244,9 +244,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -584,7 +584,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/examples/data/large_tokamak_once_through_IN.DAT b/examples/data/large_tokamak_once_through_IN.DAT
index 652c3be57f..47adbeb7bf 100644
--- a/examples/data/large_tokamak_once_through_IN.DAT
+++ b/examples/data/large_tokamak_once_through_IN.DAT
@@ -60,7 +60,7 @@ ixc = 37 * coheof
ixc = 41 * fcohbop
ixc = 44 * fvsbrnni
ixc = 56 * tdmptf
-ixc = 57 * thkcas
+ixc = 57 * dr_tf_nose_case
ixc = 58 * thwcndut
boundl(58) = 0.008
ixc = 59 * fcutfsu
@@ -408,7 +408,7 @@ i_pulsed_plant = 1 * Switch for reactor model;
sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa)
sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa)
casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators)
-casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators)
+dx_tf_side_case = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators)
cpttf = 85462.67500253802 * TF coil current per turn (A); (calculated for stellarators) (calculated for
dhecoil = 0.01 * diameter of central helium channel in TF winding (m)
fcutfsu = 0.8231999768826475 * copper fraction of cable conductor (TF coils)
@@ -417,7 +417,7 @@ ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge
tdmptf = 17.97282589344206 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`)
n_tf_coils = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST
tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K)
-thkcas = 0.2816873221155309 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)
+dr_tf_nose_case = 0.2816873221155309 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)
dr_tf_wp = 0.5153787768966674 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514)
thwcndut = 0.008012110032981922 * TF coil conduit case thickness (m) (`iteration variable 58`)
tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m)
diff --git a/examples/data/scan_MFILE.DAT b/examples/data/scan_MFILE.DAT
index eb3564dfa4..8e1b35b513 100644
--- a/examples/data/scan_MFILE.DAT
+++ b/examples/data/scan_MFILE.DAT
@@ -518,7 +518,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -532,15 +532,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4635E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4102E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3627E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1070E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5346E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7026E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7026E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -550,8 +550,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3795E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2140E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0145E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7714E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0145E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7714E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -574,16 +574,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5743E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3757E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3757E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4640E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -924,7 +924,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5632E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -1513,7 +1513,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -1527,15 +1527,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4635E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4102E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3627E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1069E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5347E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7026E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7026E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -1545,8 +1545,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3792E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2139E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0145E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7716E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0145E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7716E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -1569,16 +1569,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5748E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3757E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3757E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4640E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -1919,7 +1919,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5632E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -2508,7 +2508,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -2522,15 +2522,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4101E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1069E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5347E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7027E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7027E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -2540,8 +2540,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3789E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2137E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0145E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7717E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0145E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7717E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -2564,16 +2564,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5751E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3756E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3756E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4640E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -2914,7 +2914,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5632E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -3503,7 +3503,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -3517,15 +3517,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4101E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1069E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5348E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7028E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7028E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -3535,8 +3535,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3786E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2136E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7718E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7718E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -3559,16 +3559,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5755E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3755E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3755E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4639E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -3909,7 +3909,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5632E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -4498,7 +4498,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -4512,15 +4512,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4100E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1069E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5349E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7029E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7029E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -4530,8 +4530,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3783E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2135E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7719E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7719E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -4554,16 +4554,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5759E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3755E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3755E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4639E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -4904,7 +4904,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5633E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -5493,7 +5493,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -5507,15 +5507,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4100E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1068E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5349E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7029E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7029E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -5525,8 +5525,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3781E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2134E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7721E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7721E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -5549,16 +5549,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5762E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3754E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3754E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4639E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -5899,7 +5899,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5633E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -6488,7 +6488,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -6502,15 +6502,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4099E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1068E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5350E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7030E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7030E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -6520,8 +6520,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3779E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2133E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7722E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7722E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -6544,16 +6544,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5765E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3753E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3753E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4638E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -6894,7 +6894,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5633E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -7483,7 +7483,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -7497,15 +7497,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4099E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1068E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5350E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7030E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7030E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -7515,8 +7515,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3776E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2132E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7723E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7723E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -7539,16 +7539,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5768E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3753E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3753E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4638E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -7889,7 +7889,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5633E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -8478,7 +8478,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -8492,15 +8492,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4098E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1068E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5351E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7031E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7031E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0479E+00
@@ -8510,8 +8510,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3774E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2131E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7723E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7723E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -8534,16 +8534,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5771E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3752E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3752E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4638E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -8884,7 +8884,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5633E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -9043,7 +9043,7 @@ ixc = 52 * vdalw
boundu(52) = 10.0
ixc = 53 * fjprot
ixc = 56 * tdmptf
-ixc = 57 * thkcas
+ixc = 57 * dr_tf_nose_case
ixc = 58 * thwcndut
boundl(58) = 8.0d-3
ixc = 61 * dr_shld_vv_gap_inboard
@@ -9280,7 +9280,7 @@ t_precharge = 500.0
fpeakb = 1.0
bmxlim = 11.2
casthi = 0.06 * Inboard tf coil case inner \(plasma side) thickness (m)
-casths = 0.05 * Inboard tf coil sidewall case thickness (m)
+dx_tf_side_case = 0.05 * Inboard tf coil sidewall case thickness (m)
cpttf = 6.5e+04 * Tf coil current per turn (a);
ripmax = 0.6 * Maximum allowable toroidal field ripple amplitude
tdmptf = 30.0 * Dump time for tf coil (s)
@@ -9290,7 +9290,7 @@ sig_tf_wp_max = 5.8E8 * Allowable maximum shear stress in TF coil conduit (Tr
dhecoil = 0.010 * diameter of He coil in TF winding (m)
tftmp = 4.750 * Peak helium coolant temperature in tf coils and pf coils (k)
thicndut = 2.0d-3 * Conduit insulation thickness (m)
-thkcas = 0.495 * Inboard tf coil case outer (non-plasma side) thickness (m)
+dr_tf_nose_case = 0.495 * Inboard tf coil case outer (non-plasma side) thickness (m)
thwcndut = 0.008 * Tf coil conduit case thickness (m)
tinstf = 0.008 * Ground insulation thickness surrounding winding pack (m)
tmargmin = 1.500 * Minimum allowable temperature margin (cs and tf coils) (k)
@@ -9339,7 +9339,7 @@ t_burn = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
vdalw = 1.0000E+01
fjprot = 1.0000E+00
tdmptf = 2.5829E+01
- thkcas = 5.2465E-01
+ dr_tf_nose_case = 5.2465E-01
thwcndut = 8.0000E-03
dr_shld_vv_gap_inboard = 2.0000E-02
fl_h_threshold = 1.4972E+00
diff --git a/examples/data/scan_example_file_IN.DAT b/examples/data/scan_example_file_IN.DAT
index e415f46bed..fdfb0aa206 100644
--- a/examples/data/scan_example_file_IN.DAT
+++ b/examples/data/scan_example_file_IN.DAT
@@ -244,9 +244,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -584,7 +584,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/process/build.py b/process/build.py
index 898e57a67c..fc4059f462 100644
--- a/process/build.py
+++ b/process/build.py
@@ -49,7 +49,9 @@ def portsz(self):
omega = constants.twopi / tfcoil_variables.n_tf_coils
# Half-width of outboard TF coil in toroidal direction (m)
- a = 0.5e0 * tfcoil_variables.tftort # (previously used inboard leg width)
+ a = (
+ 0.5e0 * tfcoil_variables.dx_tf_inboard_out_toroidal
+ ) # (previously used inboard leg width)
try:
assert a < np.inf
except AssertionError:
@@ -1478,7 +1480,9 @@ def ripple_amplitude(self, ripmax: float, r_tf_outboard_mid: float) -> float:
n = float(tfcoil_variables.n_tf_coils)
if tfcoil_variables.i_tf_sup == 1:
# Minimal inboard WP radius [m]
- r_wp_min = build_variables.r_tf_inboard_in + tfcoil_variables.thkcas
+ r_wp_min = (
+ build_variables.r_tf_inboard_in + tfcoil_variables.dr_tf_nose_case
+ )
# Rectangular WP
if tfcoil_variables.i_tf_wp_geom == 0:
@@ -1503,7 +1507,7 @@ def ripple_amplitude(self, ripmax: float, r_tf_outboard_mid: float) -> float:
else:
t_wp_max = 2.0e0 * (
r_wp_max * np.tan(np.pi / n)
- - tfcoil_variables.casths
+ - tfcoil_variables.dx_tf_side_case
- tfcoil_variables.tinstf
- tfcoil_variables.tfinsgap
)
@@ -1513,7 +1517,7 @@ def ripple_amplitude(self, ripmax: float, r_tf_outboard_mid: float) -> float:
# Radius used to define the t_wp_max [m]
r_wp_max = (
build_variables.r_tf_inboard_in
- + tfcoil_variables.thkcas
+ + tfcoil_variables.dr_tf_nose_case
+ tfcoil_variables.dr_tf_wp
)
@@ -1685,7 +1689,7 @@ def calculate_radial_build(self, output: bool) -> None:
build_variables.r_tf_inboard_in
+ tfcoil_variables.dr_tf_wp
+ tfcoil_variables.casthi
- + tfcoil_variables.thkcas
+ + tfcoil_variables.dr_tf_nose_case
) / np.cos(
np.pi / tfcoil_variables.n_tf_coils
) - build_variables.r_tf_inboard_in
@@ -1695,7 +1699,7 @@ def calculate_radial_build(self, output: bool) -> None:
build_variables.dr_tf_inboard = (
tfcoil_variables.dr_tf_wp
+ tfcoil_variables.casthi
- + tfcoil_variables.thkcas
+ + tfcoil_variables.dr_tf_nose_case
)
# Radial build to tfcoil middle [m]
@@ -1718,7 +1722,7 @@ def calculate_radial_build(self, output: bool) -> None:
* build_variables.r_tf_inboard_out
- build_variables.r_tf_inboard_in
- tfcoil_variables.casthi
- - tfcoil_variables.thkcas
+ - tfcoil_variables.dr_tf_nose_case
)
# Resistive magnets
@@ -1726,7 +1730,7 @@ def calculate_radial_build(self, output: bool) -> None:
tfcoil_variables.dr_tf_wp = (
build_variables.dr_tf_inboard
- tfcoil_variables.casthi
- - tfcoil_variables.thkcas
+ - tfcoil_variables.dr_tf_nose_case
)
# Radius of the centrepost at the top of the machine
diff --git a/process/buildings.py b/process/buildings.py
index bab47fc980..a6632e95c4 100644
--- a/process/buildings.py
+++ b/process/buildings.py
@@ -55,7 +55,7 @@ def run(self, output: bool = False):
)
# Find mass of each TF coil, in tonnes
- tfmtn = 1.0e-3 * tfcoil_variables.whttf / tfcoil_variables.n_tf_coils
+ tfmtn = 1.0e-3 * tfcoil_variables.m_tf_coils_total / tfcoil_variables.n_tf_coils
# Calculate building areas and volumes
diff --git a/process/costs.py b/process/costs.py
index 27f1df25a6..e67b34838a 100644
--- a/process/costs.py
+++ b/process/costs.py
@@ -2201,7 +2201,7 @@ def acc2263(self):
1.0e-6
* cost_variables.uccry
* 4.5e0
- / tfcoil_variables.tmpcry
+ / tfcoil_variables.temp_tf_cryo
* heat_transport_variables.helpow**expcry
)
diff --git a/process/hcpb.py b/process/hcpb.py
index 6c24187791..95201f7de5 100644
--- a/process/hcpb.py
+++ b/process/hcpb.py
@@ -483,7 +483,7 @@ def nuclear_heating_magnets(self, output: bool):
e
* np.exp(-a * ccfe_hcpb_module.x_blanket)
* np.exp(-b * ccfe_hcpb_module.x_shield)
- * tfcoil_variables.whttf
+ * tfcoil_variables.m_tf_coils_total
)
# Total heating (MW)
@@ -528,8 +528,8 @@ def nuclear_heating_magnets(self, output: bool):
po.ovarre(
self.outfile,
"total mass of the TF coils (kg)",
- "(whttf)",
- tfcoil_variables.whttf,
+ "(m_tf_coils_total)",
+ tfcoil_variables.m_tf_coils_total,
)
def nuclear_heating_fw(self):
@@ -865,7 +865,7 @@ def powerflow_calc(self, output: bool):
"OP ",
)
- def st_cp_angle_fraction(self, h_cp_top, r_cp_mid, r_cp_top, rmajor):
+ def st_cp_angle_fraction(self, z_cp_top, r_cp_mid, r_cp_top, rmajor):
"""Author : S. Kahn, CCFE, Culham science centre
Estimates the CP angular solid angle coverage fration
Equation (1-3) from
@@ -873,7 +873,7 @@ def st_cp_angle_fraction(self, h_cp_top, r_cp_mid, r_cp_top, rmajor):
Initial, but undocumented calculation kept as commented section
without any talor expansion approximation
- :param h_cp_top: Centrepost shield half height [m]
+ :param z_cp_top: Centrepost shield half height [m]
:param r_cp_top: Centrepost top radius [m]
:param r_cp_mid: Centrepost mid-plane radius [m]
:param rmajor: Plasma major radius [m]
@@ -911,7 +911,7 @@ def st_cp_angle_fraction(self, h_cp_top, r_cp_mid, r_cp_top, rmajor):
int_calc_3 = 0.0
int_calc_1 = 1.0 / np.sqrt(
- h_cp_top**2 + (rho_maj * np.cos(phy_cp_calc) - np.sqrt(int_calc_3)) ** 2
+ z_cp_top**2 + (rho_maj * np.cos(phy_cp_calc) - np.sqrt(int_calc_3)) ** 2
)
phy_cp_calc = phy_cp_calc + d_phy_cp
@@ -922,12 +922,12 @@ def st_cp_angle_fraction(self, h_cp_top, r_cp_mid, r_cp_top, rmajor):
int_calc_3 = 0.0
int_calc_2 = 1.0 / np.sqrt(
- h_cp_top**2 + (rho_maj * np.cos(phy_cp_calc) - np.sqrt(int_calc_3)) ** 2
+ z_cp_top**2 + (rho_maj * np.cos(phy_cp_calc) - np.sqrt(int_calc_3)) ** 2
)
cp_sol_angle = cp_sol_angle + d_phy_cp * 0.5 * (int_calc_1 + int_calc_2)
- cp_sol_angle = cp_sol_angle * 4.0 * h_cp_top
+ cp_sol_angle = cp_sol_angle * 4.0 * z_cp_top
# Solid angle fraction covered by the CP (OUTPUT) [-]
return 0.25 * cp_sol_angle / np.pi
diff --git a/process/init.py b/process/init.py
index 654efc4627..a53c2ae5d2 100644
--- a/process/init.py
+++ b/process/init.py
@@ -815,7 +815,7 @@ def check_process(inputs): # noqa: ARG001
)
# If TFC sidewall has not been set by user
- if fortran.tfcoil_variables.casths < 0.1e-10:
+ if fortran.tfcoil_variables.dx_tf_side_case < 0.1e-10:
fortran.tfcoil_variables.tfc_sidewall_is_fraction = True
# If inboard TF coil case plasma side thickness has not been set by user
@@ -1110,8 +1110,8 @@ def check_process(inputs): # noqa: ARG001
)
# Cold end of the cryocooler should be colder than the TF
- if fortran.tfcoil_variables.tmpcry > fortran.tfcoil_variables.tftmp:
- raise ProcessValidationError("tmpcry should be lower than tftmp")
+ if fortran.tfcoil_variables.temp_tf_cryo > fortran.tfcoil_variables.tftmp:
+ raise ProcessValidationError("temp_tf_cryo should be lower than tftmp")
# Cannot use TF coil strain limit if i_str_wp is off:
if (
diff --git a/process/input.py b/process/input.py
index 68f0ae6dfe..b857859c08 100644
--- a/process/input.py
+++ b/process/input.py
@@ -237,7 +237,7 @@ def __post_init__(self):
),
"casthi": InputVariable(fortran.tfcoil_variables, float, range=(0.0, 1.0)),
"casthi_fraction": InputVariable(fortran.tfcoil_variables, float, range=(0.0, 1.0)),
- "casths": InputVariable(fortran.tfcoil_variables, float, range=(0.0, 1.0)),
+ "dx_tf_side_case": InputVariable(fortran.tfcoil_variables, float, range=(0.0, 1.0)),
"casths_fraction": InputVariable(fortran.tfcoil_variables, float, range=(0.0, 1.0)),
"cboot": InputVariable(fortran.current_drive_variables, float, range=(0.0, 10.0)),
"cconfix": InputVariable(fortran.cost_variables, float, range=(50.0, 200.0)),
@@ -1237,7 +1237,7 @@ def __post_init__(self):
"theta1_coil": InputVariable(fortran.tfcoil_variables, float, range=(0.1, 60.0)),
"theta1_vv": InputVariable(fortran.tfcoil_variables, float, range=(0.1, 60.0)),
"thicndut": InputVariable(fortran.tfcoil_variables, float, range=(0.0, 0.1)),
- "thkcas": InputVariable(fortran.tfcoil_variables, float, range=(0.0, 1.0)),
+ "dr_tf_nose_case": InputVariable(fortran.tfcoil_variables, float, range=(0.0, 1.0)),
"dz_shld_thermal": InputVariable(fortran.build_variables, float, range=(0.0, 10.0)),
"thwcndut": InputVariable(fortran.tfcoil_variables, float, range=(0.0, 0.1)),
"ti": InputVariable(fortran.physics_variables, float, range=(5.0, 50.0)),
@@ -1249,7 +1249,7 @@ def __post_init__(self):
"tmargmin_tf": InputVariable(fortran.tfcoil_variables, float, range=(0.0, 20.0)),
"tmax_croco": InputVariable(fortran.tfcoil_variables, float, range=(4.0, 1000.0)),
"tmaxpro": InputVariable(fortran.tfcoil_variables, float, range=(0.0, 1000.0)),
- "tmpcry": InputVariable(fortran.tfcoil_variables, float, range=(0.01, 293.0)),
+ "temp_tf_cryo": InputVariable(fortran.tfcoil_variables, float, range=(0.01, 293.0)),
"tn": InputVariable(fortran.vacuum_variables, float, range=(1.0, 1000.0)),
"i_t_current_ramp_up": InputVariable(fortran.times_variables, int, choices=[0, 1]),
"transp_clrnc": InputVariable(
diff --git a/process/io/mfile_comparison.py b/process/io/mfile_comparison.py
index c99fe35613..0fb27f9025 100644
--- a/process/io/mfile_comparison.py
+++ b/process/io/mfile_comparison.py
@@ -184,7 +184,7 @@
"vssoft",
"vs_cs_pf_total_pulse",
"t_burn",
- "bmaxtf",
+ "b_tf_inboard_peak",
"iooic",
"tmarg",
"tftmp",
diff --git a/process/io/obsolete_vars.py b/process/io/obsolete_vars.py
index 958843343c..16770c25ea 100644
--- a/process/io/obsolete_vars.py
+++ b/process/io/obsolete_vars.py
@@ -18,7 +18,8 @@
"itfsup": "i_tf_sup",
"r_tf_inleg_mid": "r_tf_inboard_mid",
"rtot": "r_tf_outboard_mid",
- "a_tf_inboard": "tfareain",
+ "a_tf_inboard": "a_tf_coil_inboard",
+ "tfareain": "a_tf_coil_inboard",
"r_tf_inleg_in": "r_tf_inleg_in",
"r_tf_inleg_out": "r_tf_inleg_out",
"a_tf_wp": "awpc",
@@ -40,7 +41,7 @@
"isumattf": "i_tf_sc_mat",
"turnstf": "n_tf_turn",
"awptf": "a_tf_wp",
- "dr_tf_case_in": "thkcas",
+ "dr_tf_case_in": "dr_tf_nose_case",
"f_tf_case_out": "casthi_fraction",
"dr_tf_case_out": "casthi",
"eyoung_reinforced_al": "eyoung_nibron",
@@ -291,6 +292,9 @@
"xparain": None,
"zeffdiv": None,
"divdum": None,
+ "casths": "dx_tf_side_case",
+ "thkcas": "dr_tf_nose_case",
+ "tmpcry": "temp_tf_cryo",
}
OBS_VARS_HELP = {
diff --git a/process/io/plot_proc.py b/process/io/plot_proc.py
index 5f054266fb..88050d24d5 100644
--- a/process/io/plot_proc.py
+++ b/process/io/plot_proc.py
@@ -1915,16 +1915,16 @@ def plot_tf_wp(axis, mfile_data, scan: int) -> None:
wp_toridal_dxbig = mfile_data.data["wwp1"].get_scan(scan)
wp_toridal_dxsmall = mfile_data.data["wwp2"].get_scan(scan)
dr_tf_wp = mfile_data.data["dr_tf_wp"].get_scan(scan)
- side_case_dx = mfile_data.data["casths"].get_scan(scan)
+ side_case_dx = mfile_data.data["dx_tf_side_case"].get_scan(scan)
wp_inner = mfile_data.data["r_wp_inner"].get_scan(scan)
tinstf = mfile_data.data["tinstf"].get_scan(scan)
turns = round(mfile_data.data["n_tf_turn"].get_scan(scan))
wp_shape = round(mfile_data.data["i_tf_wp_geom"].get_scan(scan))
cond_type = round(mfile_data.data["i_tf_sup"].get_scan(scan))
- nose_thickness = mfile_data.data["thkcas"].get_scan(scan)
- side_thickness = mfile_data.data["casths"].get_scan(scan)
+ nose_thickness = mfile_data.data["dr_tf_nose_case"].get_scan(scan)
+ side_thickness = mfile_data.data["dx_tf_side_case"].get_scan(scan)
case_plasma = mfile_data.data["i_tf_case_geom"].get_scan(scan)
- jwptf = round(mfile_data.data["jwptf"].get_scan(scan)) / 1e6
+ j_tf_wp = round(mfile_data.data["j_tf_wp"].get_scan(scan)) / 1e6
tf_thickness = mfile_data.data["dr_tf_inboard"].get_scan(scan)
integer_turns = mfile_data.data["i_tf_turns_integer"].get_scan(scan)
@@ -2103,7 +2103,7 @@ def plot_tf_wp(axis, mfile_data, scan: int) -> None:
(wp_toridal_dxbig - (2 * tinstf)),
color="blue",
label=(
- f"Winding pack: \n{turns} turns \n{jwptf:.4f} MA/m$^2$ \n$"
+ f"Winding pack: \n{turns} turns \n{j_tf_wp:.4f} MA/m$^2$ \n$"
f"\\Delta$R= {dr_tf_wp:.4f} m \n "
),
)
@@ -2175,7 +2175,7 @@ def plot_tf_wp(axis, mfile_data, scan: int) -> None:
wp_toridal_dxbig - (2 * tinstf),
color="blue",
label=(
- f"Winding pack: \n{turns} turns \n{jwptf:.4f} MA/m$^2$ \n$"
+ f"Winding pack: \n{turns} turns \n{j_tf_wp:.4f} MA/m$^2$ \n$"
f"\\Delta$R= {dr_tf_wp:.4f} m \n "
),
),
@@ -2229,7 +2229,7 @@ def plot_tf_wp(axis, mfile_data, scan: int) -> None:
xy=list(zip(x, y, strict=False)),
color="blue",
label=(
- f"Winding pack: \n{turns} turns \n{jwptf:.4f} MA/m$^2$ \n"
+ f"Winding pack: \n{turns} turns \n{j_tf_wp:.4f} MA/m$^2$ \n"
f"$\\Delta$R= {dr_tf_wp:.4f} m \n "
),
)
@@ -2882,7 +2882,7 @@ def plot_magnetics_info(axis, mfile_data, scan):
("temp_cs_margin", "CS Temperature margin", "K"),
(sig_cond, "TF Cond max TRESCA stress", "MPa"),
(sig_case, "TF Case max TRESCA stress", "MPa"),
- ("whttf/n_tf_coils", "Mass per TF coil", "kg"),
+ ("m_tf_coils_total/n_tf_coils", "Mass per TF coil", "kg"),
]
else:
@@ -2902,7 +2902,7 @@ def plot_magnetics_info(axis, mfile_data, scan):
(t_burn, "Burn time", "hrs"),
("", "", ""),
(f"#TF coil type is {tftype}", "", ""),
- ("bmaxtf", "Peak field at conductor (w. rip.)", "T"),
+ ("b_tf_inboard_peak", "Peak field at conductor (w. rip.)", "T"),
("c_tf_total", "TF coil currents sum", "A"),
("", "", ""),
("#TF coil forces/stresses", "", ""),
@@ -3772,7 +3772,7 @@ def main(args=None):
global wwp2
global dr_tf_wp
global tinstf
- global thkcas
+ global dr_tf_nose_case
global casthi
n_tf_coils = m_file.data["n_tf_coils"].get_scan(scan)
@@ -3782,7 +3782,7 @@ def main(args=None):
wwp2 = m_file.data["wwp2"].get_scan(scan)
dr_tf_wp = m_file.data["dr_tf_wp"].get_scan(scan)
tinstf = m_file.data["tinstf"].get_scan(scan)
- thkcas = m_file.data["thkcas"].get_scan(scan)
+ dr_tf_nose_case = m_file.data["dr_tf_nose_case"].get_scan(scan)
# To be re-inergrated to resistives when in-plane stresses is integrated
casthi = m_file.data["casthi"].get_scan(scan)
diff --git a/process/io/plot_radial_build.py b/process/io/plot_radial_build.py
index e61dd3ec54..145f3a7adf 100644
--- a/process/io/plot_radial_build.py
+++ b/process/io/plot_radial_build.py
@@ -164,7 +164,7 @@ def main(args=None):
"fiooic",
"fjprot",
"rmajor",
- "bmaxtf", # bmxlim the maximum T field upper limit is the scan variable
+ "b_tf_inboard_peak", # bmxlim the maximum T field upper limit is the scan variable
"gammax",
"boundl(16)",
"cnstv.t_burn_min",
diff --git a/process/io/plot_scans.py b/process/io/plot_scans.py
index de7a962208..c3174acb57 100644
--- a/process/io/plot_scans.py
+++ b/process/io/plot_scans.py
@@ -306,7 +306,7 @@ def main(args=None):
14: "fiooic",
15: "fjprot",
16: "rmajor",
- 17: "bmaxtf", # bmxlim the maximum T field upper limit is the scan variable
+ 17: "b_tf_inboard_peak", # bmxlim the maximum T field upper limit is the scan variable
18: "gammax",
19: "boundl(16)",
20: "cnstv.t_burn_min",
diff --git a/process/io/variable_metadata.py b/process/io/variable_metadata.py
index 33015d752d..0f5c71ab54 100644
--- a/process/io/variable_metadata.py
+++ b/process/io/variable_metadata.py
@@ -74,12 +74,12 @@ class VariableMetadata:
description="TF coil vertical force",
units="N",
),
- "thkcas": VariableMetadata(
+ "dr_tf_nose_case": VariableMetadata(
latex=r"$\Delta R_\mathrm{TF}^\mathrm{buck}$ [$m$]",
description="Inboard TF coil case outer (non-plasma side) thickness",
units="m",
),
- "bmaxtf": VariableMetadata(
+ "b_tf_inboard_peak": VariableMetadata(
latex=r"$B_\mathrm{TF}^\mathrm{max}$ [$T$]",
description="Mean peak field at TF coil",
units="T",
diff --git a/process/iteration_variables.py b/process/iteration_variables.py
index 5d7f73f298..3dcc36d71b 100644
--- a/process/iteration_variables.py
+++ b/process/iteration_variables.py
@@ -90,7 +90,7 @@ class IterationVariable:
53: IterationVariable("fjprot", fortran.constraint_variables, 0.001, 1.0),
54: IterationVariable("ftmargtf", fortran.constraint_variables, 0.001, 1.0),
56: IterationVariable("tdmptf", fortran.tfcoil_variables, 0.1, 100.0),
- 57: IterationVariable("thkcas", fortran.tfcoil_variables, 0.05, 1.0),
+ 57: IterationVariable("dr_tf_nose_case", fortran.tfcoil_variables, 0.05, 1.0),
58: IterationVariable("thwcndut", fortran.tfcoil_variables, 0.001, 0.1),
59: IterationVariable("fcutfsu", fortran.tfcoil_variables, 0.001, 1.0),
60: IterationVariable("cpttf", fortran.tfcoil_variables, 0.001, 4.0e4),
@@ -293,7 +293,7 @@ class IterationVariable:
),
170: IterationVariable("beta_div", fortran.divertor_variables, 0.49, 5.01),
171: IterationVariable("casths_fraction", fortran.tfcoil_variables, 0.01, 0.99),
- 172: IterationVariable("casths", fortran.tfcoil_variables, 0.001, 1.0),
+ 172: IterationVariable("dx_tf_side_case", fortran.tfcoil_variables, 0.001, 1.0),
173: IterationVariable("f_tritium", fortran.physics_variables, 0.000, 1.000),
174: IterationVariable("triang", fortran.physics_variables, 0.00, 1.00),
175: IterationVariable("kappa", fortran.physics_variables, 0.00, 10.00),
diff --git a/process/power.py b/process/power.py
index 4e443bc130..39ac8ff457 100644
--- a/process/power.py
+++ b/process/power.py
@@ -827,11 +827,11 @@ def power1(self):
# Use 13% of ideal Carnot efficiency to fit J. Miller estimate
# Rem SK : This ITER efficiency is very low compare to the Strowbridge curve
# any reasons why?
- # Calculate electric power requirement for cryogenic plant at tfcoil_variables.tmpcry (MW)
+ # Calculate electric power requirement for cryogenic plant at tfcoil_variables.temp_tf_cryo (MW)
heat_transport_variables.crypmw = (
1.0e-6
- * (293.0e0 - tfcoil_variables.tmpcry)
- / (tfcoil_variables.eff_tf_cryo * tfcoil_variables.tmpcry)
+ * (293.0e0 - tfcoil_variables.temp_tf_cryo)
+ / (tfcoil_variables.eff_tf_cryo * tfcoil_variables.temp_tf_cryo)
* heat_transport_variables.helpow
)
@@ -865,7 +865,7 @@ def power1(self):
# Calculate cryo cooling requirement at 4.5K (kW)
tfcoil_variables.cryo_cool_req = (
heat_transport_variables.helpow
- * ((293 / tfcoil_variables.tmpcry) - 1)
+ * ((293 / tfcoil_variables.temp_tf_cryo) - 1)
/ ((293 / 4.5) - 1)
+ heat_transport_variables.helpow_cryal
* ((293 / tfcoil_variables.tcoolin) - 1)
@@ -1004,7 +1004,7 @@ def power2(self, output: bool):
po.ovarre(
self.outfile,
- "Sum = Total heat removal at cryogenic temperatures (tmpcry & tcoolin) (MW)",
+ "Sum = Total heat removal at cryogenic temperatures (temp_tf_cryo & tcoolin) (MW)",
"(helpow + helpow_cryal/1.0d6)",
(heat_transport_variables.helpow + heat_transport_variables.helpow_cryal)
* 1.0e-6,
@@ -1013,8 +1013,8 @@ def power2(self, output: bool):
po.ovarre(
self.outfile,
"Temperature of cryogenic superconducting components (K)",
- "(tmpcry)",
- tfcoil_variables.tmpcry,
+ "(temp_tf_cryo)",
+ tfcoil_variables.temp_tf_cryo,
)
po.ovarre(
self.outfile,
@@ -1027,8 +1027,8 @@ def power2(self, output: bool):
self.outfile,
"Efficiency (figure of merit) of cryogenic plant is 13% of ideal Carnot value:",
"",
- (tfcoil_variables.eff_tf_cryo * tfcoil_variables.tmpcry)
- / (293.0e0 - tfcoil_variables.tmpcry),
+ (tfcoil_variables.eff_tf_cryo * tfcoil_variables.temp_tf_cryo)
+ / (293.0e0 - tfcoil_variables.temp_tf_cryo),
"OP ",
)
po.ovarre(
diff --git a/process/resistive_tf_coil.py b/process/resistive_tf_coil.py
index a643bef834..5426dd60d9 100644
--- a/process/resistive_tf_coil.py
+++ b/process/resistive_tf_coil.py
@@ -29,18 +29,18 @@ def run(self, output: bool):
self.iprint = 0
self.tf_global_geometry()
self.tf_current()
- self.coilshap()
+ self.tf_coil_shape_inner()
self.res_tf_internal_geom()
self.tf_res_heating()
if physics_variables.itart == 0 and tfcoil_variables.i_tf_shape == 1:
- tfcoil_variables.tfind = self.tfcind(
+ tfcoil_variables.ind_tf_coil = self.tfcind(
build_variables.dr_tf_inboard,
tfcoil_variables.xarc,
tfcoil_variables.yarc,
)
else:
- tfcoil_variables.tfind = (
+ tfcoil_variables.ind_tf_coil = (
(build_variables.hmax + build_variables.dr_tf_outboard)
* RMU0
/ constants.pi
@@ -50,12 +50,12 @@ def run(self, output: bool):
)
# Total TF coil stored magnetic energy [J]
- sctfcoil_module.estotft = (
- 0.5e0 * tfcoil_variables.tfind * tfcoil_variables.c_tf_total**2
+ sctfcoil_module.e_tf_magnetic_stored_total = (
+ 0.5e0 * tfcoil_variables.ind_tf_coil * tfcoil_variables.c_tf_total**2
)
# Total TF coil stored magnetic energy [Gigajoule]
- tfcoil_variables.estotftgj = 1.0e-9 * sctfcoil_module.estotft
+ tfcoil_variables.estotftgj = 1.0e-9 * sctfcoil_module.e_tf_magnetic_stored_total
self.tf_field_and_force()
@@ -138,7 +138,7 @@ def run(self, output: bool):
tfcoil_variables.eyoung_res_tf_buck,
sctfcoil_module.r_wp_inner,
sctfcoil_module.tan_theta_coil,
- sctfcoil_module.theta_coil,
+ sctfcoil_module.rad_tf_coil_toroidal,
sctfcoil_module.r_wp_outer,
sctfcoil_module.a_tf_steel,
sctfcoil_module.a_case_front,
@@ -244,7 +244,7 @@ def res_tf_internal_geom(self):
"""
sctfcoil_module.r_wp_inner = (
- build_variables.r_tf_inboard_in + tfcoil_variables.thkcas
+ build_variables.r_tf_inboard_in + tfcoil_variables.dr_tf_nose_case
)
sctfcoil_module.r_wp_outer = (
build_variables.r_tf_inboard_out - tfcoil_variables.casthi
@@ -255,7 +255,7 @@ def res_tf_internal_geom(self):
sctfcoil_module.dr_tf_wp_top = (
build_variables.r_cp_top
- tfcoil_variables.casthi
- - tfcoil_variables.thkcas
+ - tfcoil_variables.dr_tf_nose_case
- build_variables.r_tf_inboard_in
)
@@ -320,25 +320,27 @@ def res_tf_internal_geom(self):
a_tf_cond = a_tf_cond * (1.0e0 - tfcoil_variables.fcoolcp)
# Inter turn insulation area per coil [m2]
- tfcoil_variables.aiwp = sctfcoil_module.awptf - a_tf_cond / (
- 1.0e0 - tfcoil_variables.fcoolcp
+ tfcoil_variables.a_tf_coil_wp_turn_insulation = (
+ sctfcoil_module.awptf - a_tf_cond / (1.0e0 - tfcoil_variables.fcoolcp)
)
# Total insulation cross-section per coil [m2]
- sctfcoil_module.a_tf_ins = tfcoil_variables.aiwp + sctfcoil_module.a_ground_ins
+ sctfcoil_module.a_tf_ins = (
+ tfcoil_variables.a_tf_coil_wp_turn_insulation + sctfcoil_module.a_ground_ins
+ )
# Insulation fraction [-]
sctfcoil_module.f_tf_ins = (
tfcoil_variables.n_tf_coils
* sctfcoil_module.a_tf_ins
- / tfcoil_variables.tfareain
+ / tfcoil_variables.a_tf_coil_inboard
)
# Total cross-sectional area of the bucking cylindre and the outer support
# support structure per coil [m2]
# physics_variables.itart = 1 : Only valid at mid-plane
tfcoil_variables.acasetf = (
- tfcoil_variables.tfareain / tfcoil_variables.n_tf_coils
+ tfcoil_variables.a_tf_coil_inboard / tfcoil_variables.n_tf_coils
) - sctfcoil_module.awpc
# Current per turn
@@ -350,7 +352,7 @@ def res_tf_internal_geom(self):
tfcoil_variables.cdtfleg = tfcoil_variables.c_tf_total / (
(1.0e0 - tfcoil_variables.fcoolcp)
* (
- tfcoil_variables.tftort
+ tfcoil_variables.dx_tf_inboard_out_toroidal
- 2.0e0
* (
tfcoil_variables.n_tf_turn * tfcoil_variables.thicndut
@@ -457,9 +459,9 @@ def tf_res_heating(self) -> None:
build_variables.r_tf_inboard_in,
build_variables.r_tf_inboard_out,
build_variables.r_cp_top,
- sctfcoil_module.h_cp_top,
+ sctfcoil_module.z_cp_top,
build_variables.hmax + build_variables.dr_tf_outboard,
- tfcoil_variables.thkcas,
+ tfcoil_variables.dr_tf_nose_case,
tfcoil_variables.casthi,
tfcoil_variables.tinstf,
tfcoil_variables.thicndut,
@@ -475,12 +477,14 @@ def tf_res_heating(self) -> None:
# ---
# Leg ground insulation area per coil [m2]
sctfcoil_module.a_leg_gr_ins = tfcoil_variables.a_tf_leg_outboard - (
- tfcoil_variables.tftort - 2.0e0 * tfcoil_variables.tinstf
+ tfcoil_variables.dx_tf_inboard_out_toroidal
+ - 2.0e0 * tfcoil_variables.tinstf
) * (build_variables.dr_tf_outboard - 2.0e0 * tfcoil_variables.tinstf)
# Outboard leg turns insulation area per coil [m2]
sctfcoil_module.a_leg_ins = 2.0e0 * tfcoil_variables.thicndut * (
- tfcoil_variables.tftort - 2.0e0 * tfcoil_variables.tinstf
+ tfcoil_variables.dx_tf_inboard_out_toroidal
+ - 2.0e0 * tfcoil_variables.tinstf
) + 2.0e0 * tfcoil_variables.thicndut * tfcoil_variables.n_tf_turn * (
build_variables.dr_tf_outboard
- 2.0e0 * (tfcoil_variables.thicndut + tfcoil_variables.tinstf)
diff --git a/process/stellarator.py b/process/stellarator.py
index c0bbc2af93..ec462e38c5 100644
--- a/process/stellarator.py
+++ b/process/stellarator.py
@@ -782,7 +782,7 @@ def ststrc(self, output):
# The following line is correct AS LONG AS we do not scale the coil sizes
intercoil_surface = (
stellarator_configuration.stella_config_coilsurface * st.f_r**2
- - tfcoil_variables.tftort
+ - tfcoil_variables.dx_tf_inboard_out_toroidal
* stellarator_configuration.stella_config_coillength
* st.f_r
* st.f_n
@@ -801,7 +801,7 @@ def ststrc(self, output):
# Total mass of cooled components
structure_variables.coldmass = (
- tfcoil_variables.whttf
+ tfcoil_variables.m_tf_coils_total
+ structure_variables.aintmass
+ fwbs_variables.dewmkg
)
@@ -1050,7 +1050,7 @@ def blanket_neutronics(self):
# Rough estimate of TF coil volume used, assuming 25% of the total
# TF coil perimeter is inboard, 75% outboard
tf_volume = (
- 0.25 * tfcoil_variables.len_tf_coil * tfcoil_variables.tfareain
+ 0.25 * tfcoil_variables.len_tf_coil * tfcoil_variables.a_tf_coil_inboard
+ 0.75
* tfcoil_variables.len_tf_coil
* tfcoil_variables.a_tf_leg_outboard
@@ -2577,7 +2577,7 @@ def stcoil(self, output: bool):
tfcoil_variables.t_crit_nbti,
tfcoil_variables.tcritsc,
tfcoil_variables.vftf,
- tfcoil_variables.jwptf,
+ tfcoil_variables.j_tf_wp,
) # Get here a temperature margin of 1.5K.
# The operation current density weighted with the global iop/icrit fraction
@@ -2611,8 +2611,8 @@ def stcoil(self, output: bool):
# Maximum field at superconductor surface (T)
wp_width_r_min = max(tfcoil_variables.t_turn_tf**2, wp_width_r_min)
- # Recalculate tfcoil_variables.bmaxtf at the found awp_min:
- tfcoil_variables.bmaxtf = self.bmax_from_awp(
+ # Recalculate tfcoil_variables.b_tf_inboard_peak at the found awp_min:
+ tfcoil_variables.b_tf_inboard_peak = self.bmax_from_awp(
wp_width_r_min,
coilcurrent,
tfcoil_variables.n_tf_coils,
@@ -2638,7 +2638,7 @@ def stcoil(self, output: bool):
)
awptf = awp_tor * awp_rad # [m^2] winding-pack cross sectional area
- tfcoil_variables.jwptf = (
+ tfcoil_variables.j_tf_wp = (
coilcurrent * 1.0e6 / awptf
) # [A/m^2] winding pack current density
tfcoil_variables.n_tf_turn = (
@@ -2658,7 +2658,7 @@ def stcoil(self, output: bool):
tfcoil_variables.acstf * tfcoil_variables.n_tf_turn * tfcoil_variables.vftf
)
# [m^2] Insulation area (not including ground-wall)
- tfcoil_variables.aiwp = tfcoil_variables.n_tf_turn * (
+ tfcoil_variables.a_tf_coil_wp_turn_insulation = tfcoil_variables.n_tf_turn * (
tfcoil_variables.t_turn_tf**2
- tfcoil_variables.acndttf
- tfcoil_variables.acstf
@@ -2673,15 +2673,15 @@ def stcoil(self, output: bool):
#
# Coil case thickness (m). Here assumed to be constant
# until something better comes up.
- # case_thickness_constant = tfcoil_variables.thkcas #0.2e0 # #? Leave this constant for now... Check this## Should be scaled with forces I think.
+ # case_thickness_constant = tfcoil_variables.dr_tf_nose_case #0.2e0 # #? Leave this constant for now... Check this## Should be scaled with forces I think.
# For now assumed to be constant in a bolted plate model.
#
tfcoil_variables.casthi = (
- tfcoil_variables.thkcas
+ tfcoil_variables.dr_tf_nose_case
) # [m] coil case thickness outboard distance (radial)
- # thkcas = case_thickness_constant/2.0e0 # [m] coil case thickness inboard distance (radial).
- tfcoil_variables.casths = (
- tfcoil_variables.thkcas
+ # dr_tf_nose_case = case_thickness_constant/2.0e0 # [m] coil case thickness inboard distance (radial).
+ tfcoil_variables.dx_tf_side_case = (
+ tfcoil_variables.dr_tf_nose_case
) # [m] coil case thickness toroidal distance (toroidal)
# End of casing calculations
@@ -2734,43 +2734,43 @@ def stcoil(self, output: bool):
#######################################################################################
# General Coil Geometry values
#
- tfcoil_variables.tftort = (
+ tfcoil_variables.dx_tf_inboard_out_toroidal = (
tfcoil_variables.wwp1
- + 2.0e0 * tfcoil_variables.casths
+ + 2.0e0 * tfcoil_variables.dx_tf_side_case
+ 2.0e0 * tfcoil_variables.tinstf
) # [m] Thickness of inboard leg in toroidal direction
build_variables.dr_tf_inboard = (
- tfcoil_variables.thkcas
+ tfcoil_variables.dr_tf_nose_case
+ tfcoil_variables.dr_tf_wp
+ tfcoil_variables.casthi
+ 2.0e0 * tfcoil_variables.tinstf
) # [m] Thickness of inboard leg in radial direction
build_variables.dr_tf_outboard = (
- tfcoil_variables.thkcas
+ tfcoil_variables.dr_tf_nose_case
+ tfcoil_variables.dr_tf_wp
+ tfcoil_variables.casthi
+ 2.0e0 * tfcoil_variables.tinstf
) # [m] Thickness of outboard leg in radial direction (same as inboard)
tfcoil_variables.a_tf_leg_outboard = (
- build_variables.dr_tf_inboard * tfcoil_variables.tftort
+ build_variables.dr_tf_inboard * tfcoil_variables.dx_tf_inboard_out_toroidal
) # [m^2] overall coil cross-sectional area (assuming inboard and
# outboard leg are the same)
tfcoil_variables.acasetf = (
- build_variables.dr_tf_inboard * tfcoil_variables.tftort
+ build_variables.dr_tf_inboard * tfcoil_variables.dx_tf_inboard_out_toroidal
) - awpc # [m^2] Cross-sectional area of surrounding case
tfcoil_variables.tfocrn = (
- 0.5e0 * tfcoil_variables.tftort
+ 0.5e0 * tfcoil_variables.dx_tf_inboard_out_toroidal
) # [m] Half-width of side of coil nearest torus centreline
tfcoil_variables.tficrn = (
- 0.5e0 * tfcoil_variables.tftort
+ 0.5e0 * tfcoil_variables.dx_tf_inboard_out_toroidal
) # [m] Half-width of side of coil nearest plasma
# [m^2] Total surface area of coil side facing plasma: inboard region
tfcoil_variables.tfsai = (
tfcoil_variables.n_tf_coils
- * tfcoil_variables.tftort
+ * tfcoil_variables.dx_tf_inboard_out_toroidal
* 0.5e0
* tfcoil_variables.len_tf_coil
)
@@ -2790,19 +2790,21 @@ def stcoil(self, output: bool):
)
)
# Left-Over coil gap between two coils (m)
- coilcoilgap = tfcoil_variables.toroidalgap - tfcoil_variables.tftort
+ coilcoilgap = (
+ tfcoil_variables.toroidalgap - tfcoil_variables.dx_tf_inboard_out_toroidal
+ )
# Variables for ALL coils.
- tfcoil_variables.tfareain = (
+ tfcoil_variables.a_tf_coil_inboard = (
tfcoil_variables.n_tf_coils * tfcoil_variables.a_tf_leg_outboard
) # [m^2] Total area of all coil legs (midplane)
tfcoil_variables.c_tf_total = (
tfcoil_variables.n_tf_coils * coilcurrent * 1.0e6
) # [A] Total current in ALL coils
tfcoil_variables.oacdcp = (
- tfcoil_variables.c_tf_total / tfcoil_variables.tfareain
+ tfcoil_variables.c_tf_total / tfcoil_variables.a_tf_coil_inboard
) # [A / m^2] overall current density
- tfcoil_variables.rbmax = (
+ tfcoil_variables.r_b_tf_inboard_peak = (
r_coil_major - r_coil_minor + awp_rad
) # [m] radius of peak field occurrence, average
# jlion: not sure what this will be used for. Not very
@@ -2906,29 +2908,29 @@ def stcoil(self, output: bool):
- tfcoil_variables.len_tf_coil * tfcoil_variables.awphec
) * constants.dcopper
# [kg] mass of Steel conduit (sheath)
- tfcoil_variables.whtconsh = (
+ tfcoil_variables.m_tf_turn_steel_conduit = (
tfcoil_variables.len_tf_coil
* tfcoil_variables.n_tf_turn
* tfcoil_variables.acndttf
* fwbs_variables.denstl
)
- # if (i_tf_sc_mat==6) tfcoil_variables.whtconsh = fcondsteel * awptf *tfcoil_variables.len_tf_coil* fwbs_variables.denstl
+ # if (i_tf_sc_mat==6) tfcoil_variables.m_tf_turn_steel_conduit = fcondsteel * awptf *tfcoil_variables.len_tf_coil* fwbs_variables.denstl
# Conduit insulation mass [kg]
- # (tfcoil_variables.aiwp already contains tfcoil_variables.n_tf_turn)
+ # (tfcoil_variables.a_tf_coil_wp_turn_insulation already contains tfcoil_variables.n_tf_turn)
tfcoil_variables.whtconin = (
tfcoil_variables.len_tf_coil
- * tfcoil_variables.aiwp
+ * tfcoil_variables.a_tf_coil_wp_turn_insulation
* tfcoil_variables.dcondins
)
# [kg] Total conductor mass
tfcoil_variables.whtcon = (
tfcoil_variables.whtconsc
+ tfcoil_variables.whtconcu
- + tfcoil_variables.whtconsh
+ + tfcoil_variables.m_tf_turn_steel_conduit
+ tfcoil_variables.whtconin
)
# [kg] Total coil mass
- tfcoil_variables.whttf = (
+ tfcoil_variables.m_tf_coils_total = (
tfcoil_variables.whtcas + tfcoil_variables.whtcon + tfcoil_variables.whtgw
) * tfcoil_variables.n_tf_coils
# End of general coil geometry values
@@ -3012,7 +3014,7 @@ def stcoil(self, output: bool):
tfcoil_variables.t_turn_tf**2,
)
- # print *, "Jmax, comparison: ", jwdgpro, " ", jwdgpro2," ",jwptf/jwdgpro, " , tfcoil_variables.tdmptf: ",tdmptf, " tfcoil_variables.fcutfsu: ",fcutfsu
+ # print *, "Jmax, comparison: ", jwdgpro, " ", jwdgpro2," ",j_tf_wp/jwdgpro, " , tfcoil_variables.tdmptf: ",tdmptf, " tfcoil_variables.fcutfsu: ",fcutfsu
# print *, "acstf: ", tfcoil_variables.acstf
# Also give the copper area for REBCO quench calculations:
rebco_variables.coppera_m2 = (
@@ -3027,7 +3029,7 @@ def stcoil(self, output: bool):
stellarator_configuration.stella_config_max_force_density
* st.f_i
/ st.f_n
- * tfcoil_variables.bmaxtf
+ * tfcoil_variables.b_tf_inboard_peak
/ stellarator_configuration.stella_config_wp_bmax
* stellarator_configuration.stella_config_wp_area
/ awptf
@@ -3043,7 +3045,7 @@ def stcoil(self, output: bool):
stellarator_configuration.stella_config_max_force_density_mnm
* st.f_i
/ st.f_n
- * tfcoil_variables.bmaxtf
+ * tfcoil_variables.b_tf_inboard_peak
/ stellarator_configuration.stella_config_wp_bmax
)
#
@@ -3051,7 +3053,7 @@ def stcoil(self, output: bool):
stellarator_configuration.stella_config_max_lateral_force_density
* st.f_i
/ st.f_n
- * tfcoil_variables.bmaxtf
+ * tfcoil_variables.b_tf_inboard_peak
/ stellarator_configuration.stella_config_wp_bmax
* stellarator_configuration.stella_config_wp_area
/ awptf
@@ -3060,7 +3062,7 @@ def stcoil(self, output: bool):
stellarator_configuration.stella_config_max_radial_force_density
* st.f_i
/ st.f_n
- * tfcoil_variables.bmaxtf
+ * tfcoil_variables.b_tf_inboard_peak
/ stellarator_configuration.stella_config_wp_bmax
* stellarator_configuration.stella_config_wp_area
/ awptf
@@ -3071,7 +3073,7 @@ def stcoil(self, output: bool):
stellarator_configuration.stella_config_centering_force_max_mn
* st.f_i
/ st.f_n
- * tfcoil_variables.bmaxtf
+ * tfcoil_variables.b_tf_inboard_peak
/ stellarator_configuration.stella_config_wp_bmax
* stellarator_configuration.stella_config_coillength
/ tfcoil_variables.n_tf_coils
@@ -3081,7 +3083,7 @@ def stcoil(self, output: bool):
stellarator_configuration.stella_config_centering_force_min_mn
* st.f_i
/ st.f_n
- * tfcoil_variables.bmaxtf
+ * tfcoil_variables.b_tf_inboard_peak
/ stellarator_configuration.stella_config_wp_bmax
* stellarator_configuration.stella_config_coillength
/ tfcoil_variables.n_tf_coils
@@ -3091,7 +3093,7 @@ def stcoil(self, output: bool):
stellarator_configuration.stella_config_centering_force_avg_mn
* st.f_i
/ st.f_n
- * tfcoil_variables.bmaxtf
+ * tfcoil_variables.b_tf_inboard_peak
/ stellarator_configuration.stella_config_wp_bmax
* stellarator_configuration.stella_config_coillength
/ tfcoil_variables.n_tf_coils
@@ -3648,7 +3650,7 @@ def stcoil_output(
self.outfile,
"Cross-sectional area per coil (m2)",
"(tfarea/n_tf_coils)",
- tfcoil_variables.tfareain / tfcoil_variables.n_tf_coils,
+ tfcoil_variables.a_tf_coil_inboard / tfcoil_variables.n_tf_coils,
)
po.ovarre(
self.outfile,
@@ -3677,8 +3679,8 @@ def stcoil_output(
po.ovarre(
self.outfile,
"Outboard leg toroidal thickness (m)",
- "(tftort)",
- tfcoil_variables.tftort,
+ "(dx_tf_inboard_out_toroidal)",
+ tfcoil_variables.dx_tf_inboard_out_toroidal,
)
po.ovarre(
self.outfile, "Minimum coil distance (m)", "(toroidalgap)", toroidalgap
@@ -3716,8 +3718,8 @@ def stcoil_output(
po.ovarre(
self.outfile,
"Winding pack current density (A/m2)",
- "(jwptf)",
- tfcoil_variables.jwptf,
+ "(j_tf_wp)",
+ tfcoil_variables.j_tf_wp,
)
po.ovarre(
self.outfile,
@@ -3734,8 +3736,8 @@ def stcoil_output(
po.ovarre(
self.outfile,
"Maximum field on superconductor (T)",
- "(bmaxtf)",
- tfcoil_variables.bmaxtf,
+ "(b_tf_inboard_peak)",
+ tfcoil_variables.b_tf_inboard_peak,
)
po.ovarre(
self.outfile,
@@ -3747,7 +3749,10 @@ def stcoil_output(
self.outfile, "Inductance of TF Coils (H)", "(inductance)", inductance
)
po.ovarre(
- self.outfile, "Total mass of coils (kg)", "(whttf)", tfcoil_variables.whttf
+ self.outfile,
+ "Total mass of coils (kg)",
+ "(m_tf_coils_total)",
+ tfcoil_variables.m_tf_coils_total,
)
po.osubhd(self.outfile, "Coil Geometry :")
@@ -3793,8 +3798,8 @@ def stcoil_output(
po.ovarre(
self.outfile,
"Steel conduit mass per coil (kg)",
- "(whtconsh)",
- tfcoil_variables.whtconsh,
+ "(m_tf_turn_steel_conduit)",
+ tfcoil_variables.m_tf_turn_steel_conduit,
)
po.ovarre(
self.outfile,
@@ -3851,8 +3856,8 @@ def stcoil_output(
po.ovarre(
self.outfile,
"Insulator fraction of winding pack",
- "(aiwp/ap)",
- tfcoil_variables.aiwp / ap,
+ "(a_tf_coil_wp_turn_insulation/ap)",
+ tfcoil_variables.a_tf_coil_wp_turn_insulation / ap,
)
po.ovarre(
self.outfile,
@@ -4011,14 +4016,14 @@ def stcoil_output(
po.ovarre(
self.outfile,
"Case thickness, outer side (m)",
- "(thkcas)",
- tfcoil_variables.thkcas,
+ "(dr_tf_nose_case)",
+ tfcoil_variables.dr_tf_nose_case,
)
po.ovarre(
self.outfile,
"Case toroidal thickness (m)",
- "(casths)",
- tfcoil_variables.casths,
+ "(dx_tf_side_case)",
+ tfcoil_variables.dx_tf_side_case,
)
po.ovarre(
self.outfile,
diff --git a/process/structure.py b/process/structure.py
index 751f7fb56b..49060ba38c 100644
--- a/process/structure.py
+++ b/process/structure.py
@@ -60,7 +60,7 @@ def run(self, output: bool = False) -> None:
fwbsv.whtshld,
divv.divmas,
total_weight_pf,
- tfv.whttf,
+ tfv.m_tf_coils_total,
fwbsv.m_fw_total,
fwbsv.m_blkt_total,
fwbsv.m_fw_blkt_div_coolant_total,
diff --git a/process/superconducting_tf_coil.py b/process/superconducting_tf_coil.py
index 240b40b311..c16356dbe6 100644
--- a/process/superconducting_tf_coil.py
+++ b/process/superconducting_tf_coil.py
@@ -52,7 +52,7 @@ def run(self, output: bool):
self.iprint = 0
self.tf_global_geometry()
self.tf_current()
- self.coilshap()
+ self.tf_coil_shape_inner()
self.sc_tf_internal_geom(
tfcoil_variables.i_tf_wp_geom,
tfcoil_variables.i_tf_case_geom,
@@ -60,13 +60,13 @@ def run(self, output: bool):
)
if physics_variables.itart == 0 and tfcoil_variables.i_tf_shape == 1:
- tfcoil_variables.tfind = self.tfcind(
+ tfcoil_variables.ind_tf_coil = self.tfcind(
build_variables.dr_tf_inboard,
tfcoil_variables.xarc,
tfcoil_variables.yarc,
)
else:
- tfcoil_variables.tfind = (
+ tfcoil_variables.ind_tf_coil = (
(build_variables.hmax + build_variables.dr_tf_outboard)
* RMU0
/ constants.pi
@@ -76,12 +76,12 @@ def run(self, output: bool):
)
# Total TF coil stored magnetic energy [J]
- sctfcoil_module.estotft = (
- 0.5e0 * tfcoil_variables.tfind * tfcoil_variables.c_tf_total**2
+ sctfcoil_module.e_tf_magnetic_stored_total = (
+ 0.5e0 * tfcoil_variables.ind_tf_coil * tfcoil_variables.c_tf_total**2
)
# Total TF coil stored magnetic energy [Gigajoule]
- tfcoil_variables.estotftgj = 1.0e-9 * sctfcoil_module.estotft
+ tfcoil_variables.estotftgj = 1.0e-9 * sctfcoil_module.e_tf_magnetic_stored_total
self.tf_field_and_force()
@@ -164,7 +164,7 @@ def run(self, output: bool):
tfcoil_variables.eyoung_res_tf_buck,
sctfcoil_module.r_wp_inner,
sctfcoil_module.tan_theta_coil,
- sctfcoil_module.theta_coil,
+ sctfcoil_module.rad_tf_coil_toroidal,
sctfcoil_module.r_wp_outer,
sctfcoil_module.a_tf_steel,
sctfcoil_module.a_case_front,
@@ -273,13 +273,13 @@ def run(self, output: bool):
tfcoil_variables.dr_tf_wp
- 2.0e0 * (tfcoil_variables.tinstf + tfcoil_variables.tfinsgap),
sctfcoil_module.r_wp_centre,
- tfcoil_variables.bmaxtf,
+ tfcoil_variables.b_tf_inboard_peak,
)
- tfes = sctfcoil_module.estotft / tfcoil_variables.n_tf_coils
+ tfes = sctfcoil_module.e_tf_magnetic_stored_total / tfcoil_variables.n_tf_coils
# Cross-sectional area per turn
aturn = tfcoil_variables.c_tf_total / (
- tfcoil_variables.jwptf
+ tfcoil_variables.j_tf_wp
* tfcoil_variables.n_tf_coils
* tfcoil_variables.n_tf_turn
)
@@ -309,7 +309,7 @@ def run(self, output: bool):
tfcoil_variables.vftf,
tfcoil_variables.fcutfsu,
tfcoil_variables.cpttf,
- tfcoil_variables.jwptf,
+ tfcoil_variables.j_tf_wp,
tfcoil_variables.i_tf_sc_mat,
tfcoil_variables.fhts,
tfcoil_variables.tdmptf,
@@ -332,7 +332,10 @@ def croco_voltage(self) -> float:
croco_voltage = (
2.0e0
/ sctfcoil_module.time2
- * (sctfcoil_module.estotft / tfcoil_variables.n_tf_coils)
+ * (
+ sctfcoil_module.e_tf_magnetic_stored_total
+ / tfcoil_variables.n_tf_coils
+ )
/ tfcoil_variables.cpttf
)
elif f2py_compatible_to_string(tfcoil_variables.quench_model) == "exponential":
@@ -340,7 +343,10 @@ def croco_voltage(self) -> float:
croco_voltage = (
2.0e0
/ sctfcoil_module.tau2
- * (sctfcoil_module.estotft / tfcoil_variables.n_tf_coils)
+ * (
+ sctfcoil_module.e_tf_magnetic_stored_total
+ / tfcoil_variables.n_tf_coils
+ )
/ tfcoil_variables.cpttf
)
else:
@@ -1529,12 +1535,12 @@ def vv_stress_on_quench(self):
+ 2.0 * sctfcoil_module.t_lat_case_av,
taud=tfcoil_variables.tdmptf,
# TODO: is this the correct current?
- i_op=sctfcoil_module.tfc_current / tfcoil_variables.n_tf_turn,
+ i_op=sctfcoil_module.c_tf_coil / tfcoil_variables.n_tf_turn,
# VV properties
d_vv=build_variables.dr_vv_shells,
)
- def peak_tf_with_ripple(self, n_tf_coils, wwp1, dr_tf_wp, tfin, bmaxtf):
+ def peak_tf_with_ripple(self, n_tf_coils, wwp1, dr_tf_wp, tfin, b_tf_inboard_peak):
"""Peak toroidal field on the conductor
author: P J Knight, CCFE, Culham Science Centre
This subroutine calculates the peak toroidal field at the
@@ -1556,8 +1562,8 @@ def peak_tf_with_ripple(self, n_tf_coils, wwp1, dr_tf_wp, tfin, bmaxtf):
:type dr_tf_wp: float
:param tfin: major radius of centre of winding pack (m)
:type tfin: float
- :param bmaxtf: nominal (axisymmetric) peak toroidal field (T)
- :type bmaxtf: float
+ :param b_tf_inboard_peak: nominal (axisymmetric) peak toroidal field (T)
+ :type b_tf_inboard_peak: float
:returns: (bmaxtfrp, flag)
* bmaxtfrp: peak toroidal field including ripple (T)
@@ -1590,7 +1596,7 @@ def peak_tf_with_ripple(self, n_tf_coils, wwp1, dr_tf_wp, tfin, bmaxtf):
a[3] = 0.89808e0
else:
- bmaxtfrp = 1.09e0 * bmaxtf
+ bmaxtfrp = 1.09e0 * b_tf_inboard_peak
return bmaxtfrp, flag
# Maximum winding pack width before adjacent packs touch
@@ -1621,7 +1627,7 @@ def peak_tf_with_ripple(self, n_tf_coils, wwp1, dr_tf_wp, tfin, bmaxtf):
+ a[3] * sctfcoil_module.tf_fit_z * sctfcoil_module.tf_fit_t
)
- bmaxtfrp = sctfcoil_module.tf_fit_y * bmaxtf
+ bmaxtfrp = sctfcoil_module.tf_fit_y * b_tf_inboard_peak
return bmaxtfrp, flag
@@ -1653,7 +1659,7 @@ def sc_tf_internal_geom(self, i_tf_wp_geom, i_tf_case_geom, i_tf_turns_integer):
tfcoil_variables.insulation_area,
tfcoil_variables.n_tf_turn,
) = self.tf_averaged_turn_geom(
- tfcoil_variables.jwptf,
+ tfcoil_variables.j_tf_wp,
tfcoil_variables.thwcndut,
tfcoil_variables.thicndut,
tfcoil_variables.i_tf_sc_mat,
@@ -1696,7 +1702,7 @@ def sc_tf_internal_geom(self, i_tf_wp_geom, i_tf_case_geom, i_tf_turns_integer):
)
# Area of inter-turn insulation: total [m2]
- tfcoil_variables.aiwp = (
+ tfcoil_variables.a_tf_coil_wp_turn_insulation = (
tfcoil_variables.n_tf_turn * tfcoil_variables.insulation_area
)
@@ -1710,24 +1716,26 @@ def sc_tf_internal_geom(self, i_tf_wp_geom, i_tf_case_geom, i_tf_turns_integer):
sctfcoil_module.f_tf_steel = (
tfcoil_variables.n_tf_coils
* sctfcoil_module.a_tf_steel
- / tfcoil_variables.tfareain
+ / tfcoil_variables.a_tf_coil_inboard
)
# Inboard coil insulation cross-section [m2]
- sctfcoil_module.a_tf_ins = tfcoil_variables.aiwp + sctfcoil_module.a_ground_ins
+ sctfcoil_module.a_tf_ins = (
+ tfcoil_variables.a_tf_coil_wp_turn_insulation + sctfcoil_module.a_ground_ins
+ )
# Inboard coil insulation fraction [-]
sctfcoil_module.f_tf_ins = (
tfcoil_variables.n_tf_coils
* sctfcoil_module.a_tf_ins
- / tfcoil_variables.tfareain
+ / tfcoil_variables.a_tf_coil_inboard
)
# Negative areas or fractions error reporting
if (
tfcoil_variables.acond <= 0.0e0
or tfcoil_variables.avwp <= 0.0e0
- or tfcoil_variables.aiwp <= 0.0e0
+ or tfcoil_variables.a_tf_coil_wp_turn_insulation <= 0.0e0
or tfcoil_variables.aswp <= 0.0e0
or sctfcoil_module.a_tf_steel <= 0.0e0
or sctfcoil_module.f_tf_steel <= 0.0e0
@@ -1736,7 +1744,7 @@ def sc_tf_internal_geom(self, i_tf_wp_geom, i_tf_case_geom, i_tf_turns_integer):
):
error_handling.fdiags[0] = tfcoil_variables.acond
error_handling.fdiags[1] = tfcoil_variables.avwp
- error_handling.fdiags[2] = tfcoil_variables.aiwp
+ error_handling.fdiags[2] = tfcoil_variables.a_tf_coil_wp_turn_insulation
error_handling.fdiags[3] = tfcoil_variables.aswp
error_handling.fdiags[4] = sctfcoil_module.a_tf_steel
error_handling.fdiags[5] = sctfcoil_module.f_tf_steel
@@ -1750,7 +1758,7 @@ def tf_wp_geom(self, i_tf_wp_geom):
Seting the WP geometry and area for SC magnets
"""
sctfcoil_module.r_wp_inner = (
- build_variables.r_tf_inboard_in + tfcoil_variables.thkcas
+ build_variables.r_tf_inboard_in + tfcoil_variables.dr_tf_nose_case
)
# Radial position of outer edge of winding pack [m]
@@ -1767,7 +1775,9 @@ def tf_wp_geom(self, i_tf_wp_geom):
t_tf_at_wp = 2.0e0 * sctfcoil_module.r_wp_inner * sctfcoil_module.tan_theta_coil
# Minimal toroidal thickness of winding pack [m]
- sctfcoil_module.t_wp_toroidal = t_tf_at_wp - 2.0e0 * tfcoil_variables.casths
+ sctfcoil_module.t_wp_toroidal = (
+ t_tf_at_wp - 2.0e0 * tfcoil_variables.dx_tf_side_case
+ )
# Rectangular WP
# --------------
@@ -1805,13 +1815,13 @@ def tf_wp_geom(self, i_tf_wp_geom):
# Thickness of winding pack section at R > sctfcoil_module.r_wp_centre [m]
tfcoil_variables.wwp1 = 2.0e0 * (
sctfcoil_module.r_wp_centre * sctfcoil_module.tan_theta_coil
- - tfcoil_variables.casths
+ - tfcoil_variables.dx_tf_side_case
)
# Thickness of winding pack section at R < sctfcoil_module.r_wp_centre [m]
tfcoil_variables.wwp2 = 2.0e0 * (
sctfcoil_module.r_wp_inner * sctfcoil_module.tan_theta_coil
- - tfcoil_variables.casths
+ - tfcoil_variables.dx_tf_side_case
)
# Averaged toroidal thickness of of winding pack [m]
@@ -1857,13 +1867,13 @@ def tf_wp_geom(self, i_tf_wp_geom):
# Thickness of winding pack section at sctfcoil_module.r_wp_outer [m]
tfcoil_variables.wwp1 = 2.0e0 * (
sctfcoil_module.r_wp_outer * sctfcoil_module.tan_theta_coil
- - tfcoil_variables.casths
+ - tfcoil_variables.dx_tf_side_case
)
# Thickness of winding pack section at sctfcoil_module.r_wp_inner [m]
tfcoil_variables.wwp2 = 2.0e0 * (
sctfcoil_module.r_wp_inner * sctfcoil_module.tan_theta_coil
- - tfcoil_variables.casths
+ - tfcoil_variables.dx_tf_side_case
)
# Averaged toroidal thickness of of winding pack [m]
@@ -1911,7 +1921,7 @@ def tf_case_geom(self, i_tf_wp_geom, i_tf_case_geom):
Setting the case geometry and area for SC magnets
"""
tfcoil_variables.acasetf = (
- tfcoil_variables.tfareain / tfcoil_variables.n_tf_coils
+ tfcoil_variables.a_tf_coil_inboard / tfcoil_variables.n_tf_coils
) - sctfcoil_module.awpc
# Outboard leg cross-sectional area of surrounding case [m2]
@@ -1923,7 +1933,8 @@ def tf_case_geom(self, i_tf_wp_geom, i_tf_case_geom):
if i_tf_case_geom == 0:
# Circular front case
sctfcoil_module.a_case_front = (
- sctfcoil_module.theta_coil * build_variables.r_tf_inboard_out**2
+ sctfcoil_module.rad_tf_coil_toroidal
+ * build_variables.r_tf_inboard_out**2
- sctfcoil_module.tan_theta_coil * sctfcoil_module.r_wp_outer**2
)
else:
@@ -1936,7 +1947,7 @@ def tf_case_geom(self, i_tf_wp_geom, i_tf_case_geom):
# Nose casing area [m2]
sctfcoil_module.a_case_nose = (
sctfcoil_module.tan_theta_coil * sctfcoil_module.r_wp_inner**2
- - sctfcoil_module.theta_coil * build_variables.r_tf_inboard_in**2
+ - sctfcoil_module.rad_tf_coil_toroidal * build_variables.r_tf_inboard_in**2
)
# Report error if the casing area is negative
@@ -1950,20 +1961,20 @@ def tf_case_geom(self, i_tf_wp_geom, i_tf_case_geom):
# Rectangular casing
if i_tf_wp_geom == 0:
sctfcoil_module.t_lat_case_av = (
- tfcoil_variables.casths
+ tfcoil_variables.dx_tf_side_case
+ 0.5e0 * sctfcoil_module.tan_theta_coil * tfcoil_variables.dr_tf_wp
)
# Double rectangular WP
elif i_tf_wp_geom == 1:
sctfcoil_module.t_lat_case_av = (
- tfcoil_variables.casths
+ tfcoil_variables.dx_tf_side_case
+ 0.25e0 * sctfcoil_module.tan_theta_coil * tfcoil_variables.dr_tf_wp
)
# Trapezoidal WP
else:
- sctfcoil_module.t_lat_case_av = tfcoil_variables.casths
+ sctfcoil_module.t_lat_case_av = tfcoil_variables.dx_tf_side_case
# --------------
@@ -2012,7 +2023,7 @@ def tf_integer_turn_geom(self, n_layer, n_pancake, thwcndut, thicndut):
n_tf_turn = np.double(n_layer * n_pancake)
# Current per turn [A/turn]
- cpttf = sctfcoil_module.tfc_current / n_tf_turn
+ cpttf = sctfcoil_module.c_tf_coil / n_tf_turn
# Radial and toroidal dimension of conductor [m]
sctfcoil_module.t_conductor_radial = (
@@ -2081,7 +2092,7 @@ def tf_wp_currents(self):
Author : S. Kahn, CCFE
Turn engineering turn currents/densities
"""
- tfcoil_variables.jwptf = max(
+ tfcoil_variables.j_tf_wp = max(
1.0e0,
tfcoil_variables.c_tf_total
/ (tfcoil_variables.n_tf_coils * sctfcoil_module.awptf),
@@ -2282,8 +2293,8 @@ def outtf(self, peaktfflag):
po.ovarre(
self.outfile,
"Outboard leg toroidal thickness (m)",
- "(tftort)",
- tfcoil_variables.tftort,
+ "(dx_tf_inboard_out_toroidal)",
+ tfcoil_variables.dx_tf_inboard_out_toroidal,
"OP ",
)
po.ovarre(
@@ -2383,8 +2394,8 @@ def outtf(self, peaktfflag):
po.ovarre(
self.outfile,
"Distance from the midplane to the top of the tapered section (m)",
- "(h_cp_top)",
- sctfcoil_module.h_cp_top,
+ "(z_cp_top)",
+ sctfcoil_module.z_cp_top,
)
po.ovarre(
self.outfile,
@@ -2400,8 +2411,8 @@ def outtf(self, peaktfflag):
po.ovarre(
self.outfile,
"TF cross-section (total) (m2)",
- "(tfareain)",
- tfcoil_variables.tfareain,
+ "(a_tf_coil_inboard)",
+ tfcoil_variables.a_tf_coil_inboard,
)
po.ovarre(
self.outfile,
@@ -2445,14 +2456,14 @@ def outtf(self, peaktfflag):
po.ovarre(
self.outfile,
'Inboard leg case inboard "nose" thickness (m)',
- "(thkcas)",
- tfcoil_variables.thkcas,
+ "(dr_tf_nose_case)",
+ tfcoil_variables.dr_tf_nose_case,
)
po.ovarre(
self.outfile,
"Inboard leg case sidewall thickness at its narrowest point (m)",
- "(casths)",
- tfcoil_variables.casths,
+ "(dx_tf_side_case)",
+ tfcoil_variables.dx_tf_side_case,
)
po.ovarre(
self.outfile,
@@ -2537,14 +2548,18 @@ def outtf(self, peaktfflag):
po.ovarre(
self.outfile,
"Insulation WP fraction",
- "(aiwp/awpc)",
- tfcoil_variables.aiwp / sctfcoil_module.awpc,
+ "(a_tf_coil_wp_turn_insulation/awpc)",
+ tfcoil_variables.a_tf_coil_wp_turn_insulation / sctfcoil_module.awpc,
)
po.ovarre(
self.outfile,
"Cable WP fraction",
- "((awpc-aswp-aiwp)/awpc)",
- (sctfcoil_module.awpc - tfcoil_variables.aswp - tfcoil_variables.aiwp)
+ "((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)",
+ (
+ sctfcoil_module.awpc
+ - tfcoil_variables.aswp
+ - tfcoil_variables.a_tf_coil_wp_turn_insulation
+ )
/ sctfcoil_module.awpc,
)
@@ -2695,13 +2710,13 @@ def outtf(self, peaktfflag):
# TODO
# po.ovarre(self.outfile,'Conductor fraction of winding pack','(tfcoil_variables.acond/ap)',acond/ap, 'OP ')
# po.ovarre(self.outfile,'Conduit fraction of winding pack','(tfcoil_variables.n_tf_turn*tfcoil_variables.acndttf/ap)',n_tf_turn*tfcoil_variables.acndttf/ap, 'OP ')
- # po.ovarre(self.outfile,'Insulator fraction of winding pack','(tfcoil_variables.aiwp/ap)',aiwp/ap, 'OP ')
+ # po.ovarre(self.outfile,'Insulator fraction of winding pack','(tfcoil_variables.a_tf_coil_wp_turn_insulation/ap)',a_tf_coil_wp_turn_insulation/ap, 'OP ')
# po.ovarre(self.outfile,'Helium area fraction of winding pack excluding central channel','(tfcoil_variables.avwp/ap)',avwp/ap, 'OP ')
# po.ovarre(self.outfile,'Central helium channel area as fraction of winding pack','(tfcoil_variables.awphec/ap)',awphec/ap, 'OP ')
ap = (
tfcoil_variables.acond
+ tfcoil_variables.n_tf_turn * tfcoil_variables.acndttf
- + tfcoil_variables.aiwp
+ + tfcoil_variables.a_tf_coil_wp_turn_insulation
+ tfcoil_variables.avwp
+ tfcoil_variables.awphec
)
@@ -2712,7 +2727,7 @@ def outtf(self, peaktfflag):
(
tfcoil_variables.acond
+ tfcoil_variables.n_tf_turn * tfcoil_variables.acndttf
- + tfcoil_variables.aiwp
+ + tfcoil_variables.a_tf_coil_wp_turn_insulation
+ tfcoil_variables.avwp
+ tfcoil_variables.awphec
)
@@ -2777,8 +2792,8 @@ def outtf(self, peaktfflag):
po.ovarre(
self.outfile,
"Inboard leg bucking cylinder thickness (m)",
- "(thkcas)",
- tfcoil_variables.thkcas,
+ "(dr_tf_nose_case)",
+ tfcoil_variables.dr_tf_nose_case,
)
# Conductor layer geometry
@@ -2873,8 +2888,8 @@ def outtf(self, peaktfflag):
po.ovarre(
self.outfile,
"Steel conduit mass per coil (kg)",
- "(whtconsh)",
- tfcoil_variables.whtconsh,
+ "(m_tf_turn_steel_conduit)",
+ tfcoil_variables.m_tf_turn_steel_conduit,
"OP ",
)
po.ovarre(
@@ -2912,15 +2927,15 @@ def outtf(self, peaktfflag):
po.ovarre(
self.outfile,
"Mass of each TF coil (kg)",
- "(whttf/n_tf_coils)",
- tfcoil_variables.whttf / tfcoil_variables.n_tf_coils,
+ "(m_tf_coils_total/n_tf_coils)",
+ tfcoil_variables.m_tf_coils_total / tfcoil_variables.n_tf_coils,
"OP ",
)
po.ovarre(
self.outfile,
"Total TF coil mass (kg)",
- "(whttf)",
- tfcoil_variables.whttf,
+ "(m_tf_coils_total)",
+ tfcoil_variables.m_tf_coils_total,
"OP ",
)
@@ -2929,8 +2944,8 @@ def outtf(self, peaktfflag):
po.ovarre(
self.outfile,
"Nominal peak field assuming toroidal symmetry (T)",
- "(bmaxtf)",
- tfcoil_variables.bmaxtf,
+ "(b_tf_inboard_peak)",
+ tfcoil_variables.b_tf_inboard_peak,
"OP ",
)
po.ovarre(
@@ -2957,8 +2972,8 @@ def outtf(self, peaktfflag):
po.ovarre(
self.outfile,
"Winding pack current density (A/m2)",
- "(jwptf)",
- tfcoil_variables.jwptf,
+ "(j_tf_wp)",
+ tfcoil_variables.j_tf_wp,
"OP ",
)
@@ -3202,13 +3217,13 @@ def outtf(self, peaktfflag):
# Radial build for SC TF coils
if tfcoil_variables.i_tf_sup == 1:
- radius = radius + tfcoil_variables.thkcas
+ radius = radius + tfcoil_variables.dr_tf_nose_case
po.obuild(
self.outfile,
'Coil case ("nose")',
- tfcoil_variables.thkcas,
+ tfcoil_variables.dr_tf_nose_case,
radius,
- "(thkcas)",
+ "(dr_tf_nose_case)",
)
radius = radius + tfcoil_variables.tfinsgap
@@ -3299,13 +3314,13 @@ def outtf(self, peaktfflag):
# Radial build for restive coil
else:
- radius = radius + tfcoil_variables.thkcas
+ radius = radius + tfcoil_variables.dr_tf_nose_case
po.obuild(
self.outfile,
"Coil bucking cylindre",
- tfcoil_variables.thkcas,
+ tfcoil_variables.dr_tf_nose_case,
radius,
- "(thkcas)",
+ "(dr_tf_nose_case)",
)
radius = radius + tfcoil_variables.tinstf
@@ -3406,13 +3421,13 @@ def outtf(self, peaktfflag):
radius = build_variables.r_tf_inboard_in
po.obuild(self.outfile, "Innermost edge of TF coil", radius, radius)
- radius = radius + tfcoil_variables.thkcas
+ radius = radius + tfcoil_variables.dr_tf_nose_case
po.obuild(
self.outfile,
"Coil bucking cylindre",
- tfcoil_variables.thkcas,
+ tfcoil_variables.dr_tf_nose_case,
radius,
- "(thkcas)",
+ "(dr_tf_nose_case)",
)
radius = radius + tfcoil_variables.tinstf
@@ -3477,7 +3492,7 @@ def outtf(self, peaktfflag):
)
po.oblnkl(self.outfile)
- def tf_averaged_turn_geom(self, jwptf, thwcndut, thicndut, i_tf_sc_mat):
+ def tf_averaged_turn_geom(self, j_tf_wp, thwcndut, thicndut, i_tf_sc_mat):
"""
subroutine straight from Python, see comments in tf_averaged_turn_geom_wrapper
Authors : J. Morris, CCFE
@@ -3495,7 +3510,7 @@ def tf_averaged_turn_geom(self, jwptf, thwcndut, thicndut, i_tf_sc_mat):
a_turn = tfcoil_variables.t_turn_tf**2
# Current per turn [A]
- tfcoil_variables.cpttf = a_turn * jwptf
+ tfcoil_variables.cpttf = a_turn * j_tf_wp
# Turn cable dimension is an input
elif tfcoil_variables.t_cable_tf_is_input:
@@ -3508,14 +3523,14 @@ def tf_averaged_turn_geom(self, jwptf, thwcndut, thicndut, i_tf_sc_mat):
a_turn = tfcoil_variables.t_turn_tf**2
# Current per turn [A]
- tfcoil_variables.cpttf = a_turn * jwptf
+ tfcoil_variables.cpttf = a_turn * j_tf_wp
# Current per turn is an input
else:
# Turn area [m2]
# Allow for additional inter-layer insulation MDK 13/11/18
# Area of turn including conduit and inter-layer insulation
- a_turn = tfcoil_variables.cpttf / jwptf
+ a_turn = tfcoil_variables.cpttf / j_tf_wp
# Dimension of square cross-section of each turn including inter-turn insulation [m]
tfcoil_variables.t_turn_tf = np.sqrt(a_turn)
@@ -3836,14 +3851,14 @@ def init_sctfcoil_module():
sctfcoil_module.tf_fit_t = 0.0
sctfcoil_module.tf_fit_z = 0.0
sctfcoil_module.tf_fit_y = 0.0
- sctfcoil_module.tfc_current = 0.0
+ sctfcoil_module.c_tf_coil = 0.0
sctfcoil_module.awpc = 0.0
sctfcoil_module.awptf = 0.0
sctfcoil_module.a_tf_steel = 0.0
sctfcoil_module.a_tf_ins = 0.0
sctfcoil_module.f_tf_steel = 0.0
sctfcoil_module.f_tf_ins = 0.0
- sctfcoil_module.h_cp_top = 0.0
+ sctfcoil_module.z_cp_top = 0.0
sctfcoil_module.r_tf_outboard_in = 0.0
sctfcoil_module.r_tf_outboard_out = 0.0
sctfcoil_module.r_wp_inner = 0.0
@@ -3862,7 +3877,7 @@ def init_sctfcoil_module():
sctfcoil_module.a_leg_ins = 0.0
sctfcoil_module.a_leg_gr_ins = 0.0
sctfcoil_module.a_leg_cond = 0.0
- sctfcoil_module.theta_coil = 0.0
+ sctfcoil_module.rad_tf_coil_toroidal = 0.0
sctfcoil_module.tan_theta_coil = 0.0
sctfcoil_module.t_conductor_radial = 0.0
sctfcoil_module.t_conductor_toroidal = 0.0
@@ -3875,7 +3890,7 @@ def init_sctfcoil_module():
sctfcoil_module.t1 = 0.0
sctfcoil_module.time2 = 0.0
sctfcoil_module.tau2 = 0.0
- sctfcoil_module.estotft = 0.0
+ sctfcoil_module.e_tf_magnetic_stored_total = 0.0
def init_rebco_variables():
diff --git a/process/tf_coil.py b/process/tf_coil.py
index df3f6a0be7..63dd10e94b 100644
--- a/process/tf_coil.py
+++ b/process/tf_coil.py
@@ -44,16 +44,16 @@ def run(self, output):
self.iprint = 0
self.tf_global_geometry()
self.tf_current()
- self.coilshap()
+ self.tf_coil_shape_inner()
if physics_variables.itart == 0 and tfcoil_variables.i_tf_shape == 1:
- tfcoil_variables.tfind = self.tfcind(
+ tfcoil_variables.ind_tf_coil = self.tfcind(
build_variables.dr_tf_inboard,
tfcoil_variables.xarc,
tfcoil_variables.yarc,
)
else:
- tfcoil_variables.tfind = (
+ tfcoil_variables.ind_tf_coil = (
(build_variables.hmax + build_variables.dr_tf_outboard)
* RMU0
/ constants.pi
@@ -63,12 +63,12 @@ def run(self, output):
)
# Total TF coil stored magnetic energy [J]
- sctfcoil_module.estotft = (
- 0.5e0 * tfcoil_variables.tfind * tfcoil_variables.c_tf_total**2
+ sctfcoil_module.e_tf_magnetic_stored_total = (
+ 0.5e0 * tfcoil_variables.ind_tf_coil * tfcoil_variables.c_tf_total**2
)
# Total TF coil stored magnetic energy [Gigajoule]
- tfcoil_variables.estotftgj = 1.0e-9 * sctfcoil_module.estotft
+ tfcoil_variables.estotftgj = 1.0e-9 * sctfcoil_module.e_tf_magnetic_stored_total
self.tf_field_and_force()
@@ -151,7 +151,7 @@ def run(self, output):
tfcoil_variables.eyoung_res_tf_buck,
sctfcoil_module.r_wp_inner,
sctfcoil_module.tan_theta_coil,
- sctfcoil_module.theta_coil,
+ sctfcoil_module.rad_tf_coil_toroidal,
sctfcoil_module.r_wp_outer,
sctfcoil_module.a_tf_steel,
sctfcoil_module.a_case_front,
@@ -262,28 +262,28 @@ def tf_global_geometry(self):
- Winding Pack NOT included
"""
- sctfcoil_module.theta_coil = np.pi / tfcoil_variables.n_tf_coils
- sctfcoil_module.tan_theta_coil = np.tan(sctfcoil_module.theta_coil)
+ sctfcoil_module.rad_tf_coil_toroidal = np.pi / tfcoil_variables.n_tf_coils
+ sctfcoil_module.tan_theta_coil = np.tan(sctfcoil_module.rad_tf_coil_toroidal)
# TF coil inboard legs mid-plane cross-section area (WP + casing ) [m2]
if tfcoil_variables.i_tf_case_geom == 0:
# Circular front case
- tfcoil_variables.tfareain = np.pi * (
+ tfcoil_variables.a_tf_coil_inboard = np.pi * (
build_variables.r_tf_inboard_out**2 - build_variables.r_tf_inboard_in**2
)
else:
# Straight front case
- tfcoil_variables.tfareain = (
+ tfcoil_variables.a_tf_coil_inboard = (
tfcoil_variables.n_tf_coils
- * np.sin(sctfcoil_module.theta_coil)
- * np.cos(sctfcoil_module.theta_coil)
+ * np.sin(sctfcoil_module.rad_tf_coil_toroidal)
+ * np.cos(sctfcoil_module.rad_tf_coil_toroidal)
* build_variables.r_tf_inboard_out**2
- np.pi * build_variables.r_tf_inboard_in**2
)
# Vertical distance from the midplane to the top of the tapered section [m]
if physics_variables.itart == 1:
- sctfcoil_module.h_cp_top = (
+ sctfcoil_module.z_cp_top = (
build_variables.z_plasma_xpoint_upper + tfcoil_variables.dztop
)
# ---
@@ -303,27 +303,29 @@ def tf_global_geometry(self):
# ***
# Sliding joints geometry
if physics_variables.itart == 1 and tfcoil_variables.i_tf_sup != 1:
- tfcoil_variables.tftort = (
- 2.0e0 * build_variables.r_cp_top * np.sin(sctfcoil_module.theta_coil)
+ tfcoil_variables.dx_tf_inboard_out_toroidal = (
+ 2.0e0
+ * build_variables.r_cp_top
+ * np.sin(sctfcoil_module.rad_tf_coil_toroidal)
)
# Default thickness, initially written for DEMO SC magnets
elif physics_variables.itart == 1 and tfcoil_variables.i_tf_sup == 1:
- tfcoil_variables.tftort = (
+ tfcoil_variables.dx_tf_inboard_out_toroidal = (
2.0e0
* build_variables.r_tf_inboard_out
- * np.sin(sctfcoil_module.theta_coil)
+ * np.sin(sctfcoil_module.rad_tf_coil_toroidal)
)
else:
- tfcoil_variables.tftort = (
+ tfcoil_variables.dx_tf_inboard_out_toroidal = (
2.0e0
* build_variables.r_tf_inboard_out
- * np.sin(sctfcoil_module.theta_coil)
+ * np.sin(sctfcoil_module.rad_tf_coil_toroidal)
)
# Area of rectangular cross-section TF outboard leg [m2]
tfcoil_variables.a_tf_leg_outboard = (
- tfcoil_variables.tftort * build_variables.dr_tf_outboard
+ tfcoil_variables.dx_tf_inboard_out_toroidal * build_variables.dr_tf_outboard
)
# ---
@@ -338,9 +340,9 @@ def tf_current(self):
# Case thickness of side wall [m]
if tfcoil_variables.tfc_sidewall_is_fraction:
- tfcoil_variables.casths = (
+ tfcoil_variables.dx_tf_side_case = (
tfcoil_variables.casths_fraction
- * (build_variables.r_tf_inboard_in + tfcoil_variables.thkcas)
+ * (build_variables.r_tf_inboard_in + tfcoil_variables.dr_tf_nose_case)
* np.tan(np.pi / tfcoil_variables.n_tf_coils)
)
@@ -348,8 +350,9 @@ def tf_current(self):
if tfcoil_variables.i_tf_sup == 1:
# SC : conservative assumption as the radius is calculated with the
# WP radial distances defined at the TF middle (cos)
- tfcoil_variables.rbmax = (
- build_variables.r_tf_inboard_out * np.cos(sctfcoil_module.theta_coil)
+ tfcoil_variables.r_b_tf_inboard_peak = (
+ build_variables.r_tf_inboard_out
+ * np.cos(sctfcoil_module.rad_tf_coil_toroidal)
- tfcoil_variables.casthi
- tfcoil_variables.tinstf
- tfcoil_variables.tfinsgap
@@ -357,7 +360,7 @@ def tf_current(self):
else:
# Resistive coils : No approx necessary as the symmetry is cylindrical
# The turn insulation th (tfcoil_variables.thicndut) is also subtracted too here
- tfcoil_variables.rbmax = (
+ tfcoil_variables.r_b_tf_inboard_peak = (
build_variables.r_tf_inboard_out
- tfcoil_variables.casthi
- tfcoil_variables.thicndut
@@ -365,27 +368,31 @@ def tf_current(self):
)
# Calculation of the maximum B field on the magnet [T]
- tfcoil_variables.bmaxtf = (
- physics_variables.bt * physics_variables.rmajor / tfcoil_variables.rbmax
+ tfcoil_variables.b_tf_inboard_peak = (
+ physics_variables.bt
+ * physics_variables.rmajor
+ / tfcoil_variables.r_b_tf_inboard_peak
)
# Total current in TF coils [A]
# rem SK : ritcf is no longer an input
tfcoil_variables.c_tf_total = (
- tfcoil_variables.bmaxtf * tfcoil_variables.rbmax * 5.0e6
+ tfcoil_variables.b_tf_inboard_peak
+ * tfcoil_variables.r_b_tf_inboard_peak
+ * 5.0e6
)
# Current per TF coil [A]
- sctfcoil_module.tfc_current = (
+ sctfcoil_module.c_tf_coil = (
tfcoil_variables.c_tf_total / tfcoil_variables.n_tf_coils
)
# Global inboard leg average current in TF coils [A/m2]
tfcoil_variables.oacdcp = (
- tfcoil_variables.c_tf_total / tfcoil_variables.tfareain
+ tfcoil_variables.c_tf_total / tfcoil_variables.a_tf_coil_inboard
)
- def coilshap(self):
+ def tf_coil_shape_inner(self):
"""Calculates the TF coil shape
Calculates the shape of the INSIDE of the TF coil. The coil is
approximated by a straight inboard section and four elliptical arcs
@@ -891,7 +898,7 @@ def tf_field_and_force(self):
# Centering force = net inwards radial force per meters per TF coil [N/m]
tfcoil_variables.cforce = (
0.5e0
- * tfcoil_variables.bmaxtf
+ * tfcoil_variables.b_tf_inboard_peak
* tfcoil_variables.c_tf_total
/ tfcoil_variables.n_tf_coils
)
@@ -1231,7 +1238,7 @@ def tfcind(tfthk, xarc, yarc):
# Initialise major radius
r = x0 - dr / 2.0e0
- tfind = 0
+ ind_tf_coil = 0
for _ in range(NINTERVALS):
# Field in the dr_bore for unit current
@@ -1247,7 +1254,7 @@ def tfcind(tfthk, xarc, yarc):
# Assume B in TF coil = 1/2 B in dr_bore
# Multiply by 2 for upper and lower halves of coil
- tfind += b * dr * (2.0e0 * h_bore + h_thick)
+ ind_tf_coil += b * dr * (2.0e0 * h_bore + h_thick)
r = r - dr
# Outboard arc
@@ -1272,10 +1279,10 @@ def tfcind(tfthk, xarc, yarc):
# Assume B in TF coil = 1/2 B in dr_bore
# Multiply by 2 for upper and lower halves of coil
- tfind += b * dr * (2.0e0 * h_bore + h_thick)
+ ind_tf_coil += b * dr * (2.0e0 * h_bore + h_thick)
r = r + dr
- return tfind
+ return ind_tf_coil
def tf_coil_area_and_masses(self):
"""Subroutine to calculate the TF coil areas and masses"""
@@ -1290,7 +1297,8 @@ def tf_coil_area_and_masses(self):
# Surface areas (for cryo system) [m2]
wbtf = (
- build_variables.r_tf_inboard_out * np.sin(sctfcoil_module.theta_coil)
+ build_variables.r_tf_inboard_out
+ * np.sin(sctfcoil_module.rad_tf_coil_toroidal)
- build_variables.r_tf_inboard_in * sctfcoil_module.tan_theta_coil
)
tfcoil_variables.tfocrn = (
@@ -1380,7 +1388,7 @@ def tf_coil_area_and_masses(self):
tfcoil_variables.whtconcu = 0.0e0
# Steel conduit (sheath) mass [kg]
- tfcoil_variables.whtconsh = (
+ tfcoil_variables.m_tf_turn_steel_conduit = (
tfcoil_variables.len_tf_coil
* tfcoil_variables.n_tf_turn
* tfcoil_variables.acndttf
@@ -1388,10 +1396,10 @@ def tf_coil_area_and_masses(self):
)
# Conduit insulation mass [kg]
- # (tfcoil_variables.aiwp already contains tfcoil_variables.n_tf_turn)
+ # (tfcoil_variables.a_tf_coil_wp_turn_insulation already contains tfcoil_variables.n_tf_turn)
tfcoil_variables.whtconin = (
tfcoil_variables.len_tf_coil
- * tfcoil_variables.aiwp
+ * tfcoil_variables.a_tf_coil_wp_turn_insulation
* tfcoil_variables.dcondins
)
@@ -1399,13 +1407,13 @@ def tf_coil_area_and_masses(self):
tfcoil_variables.whtcon = (
tfcoil_variables.whtconsc
+ tfcoil_variables.whtconcu
- + tfcoil_variables.whtconsh
+ + tfcoil_variables.m_tf_turn_steel_conduit
+ tfcoil_variables.whtconin
)
# ---------------------------------
# Total TF coil mass [kg] (all coils)
- tfcoil_variables.whttf = (
+ tfcoil_variables.m_tf_coils_total = (
tfcoil_variables.whtcas
+ tfcoil_variables.whtcon
+ tfcoil_variables.whtgw
@@ -1415,10 +1423,10 @@ def tf_coil_area_and_masses(self):
# (in this case, total TF coil length = inboard `cplen` + outboard `len_tf_coil`)
if physics_variables.itart == 1:
tfleng_sph = tfcoil_variables.cplen + tfcoil_variables.len_tf_coil
- tfcoil_variables.whtcp = tfcoil_variables.whttf * (
+ tfcoil_variables.whtcp = tfcoil_variables.m_tf_coils_total * (
tfcoil_variables.cplen / tfleng_sph
)
- tfcoil_variables.whttflgs = tfcoil_variables.whttf * (
+ tfcoil_variables.whttflgs = tfcoil_variables.m_tf_coils_total * (
tfcoil_variables.len_tf_coil / tfleng_sph
)
@@ -1568,7 +1576,7 @@ def tf_coil_area_and_masses(self):
)
# Total weight
- tfcoil_variables.whttf = (
+ tfcoil_variables.m_tf_coils_total = (
tfcoil_variables.whtcas
+ tfcoil_variables.whtconcu
+ tfcoil_variables.whtconal
@@ -1614,7 +1622,7 @@ def stresscl(
eyoung_res_tf_buck,
r_wp_inner,
tan_theta_coil,
- theta_coil,
+ rad_tf_coil_toroidal,
r_wp_outer,
a_tf_steel,
a_case_front,
@@ -1937,11 +1945,11 @@ def stresscl(
if i_tf_sup == 1:
# Inner/outer radii of the layer representing the WP in stress calculations [m]
# These radii are chosen to preserve the true WP area; see Issue #1048
- r_wp_inner_eff = r_wp_inner * np.sqrt(tan_theta_coil / theta_coil)
- r_wp_outer_eff = r_wp_outer * np.sqrt(tan_theta_coil / theta_coil)
+ r_wp_inner_eff = r_wp_inner * np.sqrt(tan_theta_coil / rad_tf_coil_toroidal)
+ r_wp_outer_eff = r_wp_outer * np.sqrt(tan_theta_coil / rad_tf_coil_toroidal)
# Area of the cylinder representing the WP in stress calculations [m2]
- a_wp_eff = (r_wp_outer_eff**2 - r_wp_inner_eff**2) * theta_coil
+ a_wp_eff = (r_wp_outer_eff**2 - r_wp_inner_eff**2) * rad_tf_coil_toroidal
# Steel cross-section under the area representing the WP in stress calculations [m2]
a_wp_steel_eff = a_tf_steel - a_case_front - a_case_nose
@@ -2075,7 +2083,7 @@ def stresscl(
poisson_wp_trans = np.double(poisson_cond)
# WP area using the stress model circular geometry (per coil) [m2]
- a_wp_eff = (r_wp_outer**2 - r_wp_inner**2) * theta_coil
+ a_wp_eff = (r_wp_outer**2 - r_wp_inner**2) * rad_tf_coil_toroidal
# Effective conductor region young modulus in the vertical direction [Pa]
# Parallel-composite conductor and insulator
@@ -2144,7 +2152,7 @@ def stresscl(
# front case, and that considered by the plane strain solver
f_tf_stress_front_case = (
a_case_front
- / theta_coil
+ / rad_tf_coil_toroidal
/ (radtf[n_tf_layer] ** 2 - radtf[n_tf_layer - 1] ** 2)
)
@@ -3719,7 +3727,7 @@ def init_tfcoil_variables():
tfv.acond = 0.0
tfv.acstf = 0.0
tfv.insulation_area = 0.0
- tfv.aiwp = 0.0
+ tfv.a_tf_coil_wp_turn_insulation = 0.0
tfv.sig_tf_case_max = 6.0e8
tfv.sig_tf_wp_max = 6.0e8
tfv.a_tf_leg_outboard = 0.0
@@ -3727,13 +3735,13 @@ def init_tfcoil_variables():
tfv.avwp = 0.0
tfv.awphec = 0.0
tfv.bcritsc = 24.0
- tfv.bmaxtf = 0.0
+ tfv.b_tf_inboard_peak = 0.0
tfv.bmaxtfrp = 0.0
tfv.casestr = 0.0
tfv.casthi = 0.0
tfv.casthi_fraction = 0.05
tfv.casthi_is_fraction = False
- tfv.casths = 0.0
+ tfv.dx_tf_side_case = 0.0
tfv.casths_fraction = 0.06
tfv.t_conductor = 0.0
tfv.t_cable_tf = 0.0
@@ -3791,7 +3799,7 @@ def init_tfcoil_variables():
]
tfv.jwdgcrt = 0.0
tfv.jwdgpro = 0.0
- tfv.jwptf = 0.0
+ tfv.j_tf_wp = 0.0
tfv.oacdcp = 0.0
tfv.eyoung_ins = 1.0e8
tfv.eyoung_steel = 2.05e11
@@ -3806,7 +3814,7 @@ def init_tfcoil_variables():
tfv.poisson_ins = 0.34
tfv.poisson_cond_axial = 0.3
tfv.poisson_cond_trans = 0.3
- tfv.rbmax = 0.0
+ tfv.r_b_tf_inboard_peak = 0.0
tfv.res_tf_leg = 0.0
tfv.toroidalgap = 1.0 # [m]
tfv.ftoroidalgap = 1.0
@@ -3833,7 +3841,7 @@ def init_tfcoil_variables():
tfv.time1 = 0
tfv.tcritsc = 16.0
tfv.tdmptf = 10.0
- tfv.tfareain = 0.0
+ tfv.a_tf_coil_inboard = 0.0
tfv.len_tf_bus = 300.0
tfv.m_tf_bus = 0.0
tfv.tfckw = 0.0
@@ -3842,7 +3850,7 @@ def init_tfcoil_variables():
tfv.tfjtsmw = 0.0
tfv.tfcryoarea = 0.0
tfv.tficrn = 0.0
- tfv.tfind = 0.0
+ tfv.ind_tf_coil = 0.0
tfv.tfinsgap = 0.01
tfv.tflegmw = 0.0
tfv.rho_cp = 0.0
@@ -3862,10 +3870,10 @@ def init_tfcoil_variables():
tfv.tfsai = 0.0
tfv.tfsao = 0.0
tfv.tftmp = 4.5
- tfv.tftort = 1.0
+ tfv.dx_tf_inboard_out_toroidal = 1.0
tfv.thicndut = 8e-4
tfv.layer_ins = 0.0
- tfv.thkcas = 0.3
+ tfv.dr_tf_nose_case = 0.3
tfv.dr_tf_wp = 0.0
tfv.thwcndut = 8e-3
tfv.tinstf = 0.018
@@ -3877,7 +3885,7 @@ def init_tfcoil_variables():
tfv.tmaxpro = 150.0
tfv.tmax_croco = 200.0
tfv.croco_quench_temperature = 0.0
- tfv.tmpcry = 4.5
+ tfv.temp_tf_cryo = 4.5
tfv.n_tf_turn = 0.0
tfv.vdalw = 20.0
tfv.vforce = 0.0
@@ -3893,9 +3901,9 @@ def init_tfcoil_variables():
tfv.whtconal = 0.0
tfv.whtconin = 0.0
tfv.whtconsc = 0.0
- tfv.whtconsh = 0.0
+ tfv.m_tf_turn_steel = 0.0
tfv.whtgw = 0.0
- tfv.whttf = 0.0
+ tfv.m_tf_coils_total = 0.0
tfv.wwp1 = 0.0
tfv.wwp2 = 0.0
tfv.dthet[:] = 0.0
diff --git a/process/utilities/errorlist.json b/process/utilities/errorlist.json
index 790e476653..0cf872f366 100644
--- a/process/utilities/errorlist.json
+++ b/process/utilities/errorlist.json
@@ -248,7 +248,7 @@
{
"no": 48,
"level": 3,
- "message": "LOADXC: Do not use thkcas as an iteration variable if istell=1"
+ "message": "LOADXC: Do not use dr_tf_nose_case as an iteration variable if istell=1"
},
{
"no": 49,
@@ -263,7 +263,7 @@
{
"no": 51,
"level": 3,
- "message": "LOADXC: Do not use tftort as an iteration variable if irfp=0"
+ "message": "LOADXC: Do not use dx_tf_inboard_out_toroidal as an iteration variable if irfp=0"
},
{
"no": 52,
@@ -1373,7 +1373,7 @@
{
"no": 273,
"level": 3,
- "message": "[tfcoil]: tmpcry should be lower than tftmp"
+ "message": "[tfcoil]: temp_tf_cryo should be lower than tftmp"
},
{
"no": 274,
diff --git a/source/fortran/constraint_equations.f90 b/source/fortran/constraint_equations.f90
index e9032293e8..acac493def 100755
--- a/source/fortran/constraint_equations.f90
+++ b/source/fortran/constraint_equations.f90
@@ -807,8 +807,8 @@ subroutine constraint_eqn_010(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
!! #=#=# consistency
!! rmajor | plasma major radius (m)
!! bt | toroidal field on axis (T)
- !! rbmax | radius of maximum toroidal field (m)
- !! bmaxtf | peak field at toroidal field coil (T)
+ !! r_b_tf_inboard_peak | radius of maximum toroidal field (m)
+ !! b_tf_inboard_peak | peak field at toroidal field coil (T)
!! This constraint is depreciated
@@ -1331,9 +1331,9 @@ subroutine constraint_eqn_025(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
!! Logic change during pre-factoring: err, symbol, units will be assigned only if present.
!! fpeakb : input real : f-value for maximum toroidal field
!! bmxlim : input real : maximum peak toroidal field (T)
- !! bmaxtf : input real : mean peak field at TF coil (T)
+ !! b_tf_inboard_peak : input real : mean peak field at TF coil (T)
use constraint_variables, only: fpeakb, bmxlim
- use tfcoil_variables, only: bmaxtf
+ use tfcoil_variables, only: b_tf_inboard_peak
implicit none
real(dp), intent(out) :: tmp_cc
real(dp), intent(out) :: tmp_con
@@ -1341,9 +1341,9 @@ subroutine constraint_eqn_025(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 = bmaxtf/bmxlim - 1.0D0 * fpeakb
+ tmp_cc = b_tf_inboard_peak/bmxlim - 1.0D0 * fpeakb
tmp_con = bmxlim * (1.0D0 - tmp_cc)
- tmp_err = bmaxtf * tmp_cc
+ tmp_err = b_tf_inboard_peak * tmp_cc
tmp_symbol = '<'
tmp_units = 'T'
@@ -1590,9 +1590,9 @@ subroutine constraint_eqn_033(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
!! Logic change during pre-factoring: err, symbol, units will be assigned only if present.
!! fiooic : input real : f-value for TF coil operating current / critical
!! jwdgcrt : input real : critical current density for winding pack (A/m2)
- !! jwptf : input real : winding pack current density (A/m2)
+ !! j_tf_wp : input real : winding pack current density (A/m2)
use constraint_variables, only: fiooic
- use tfcoil_variables, only: jwdgcrt, jwptf
+ use tfcoil_variables, only: jwdgcrt, j_tf_wp
implicit none
real(dp), intent(out) :: tmp_cc
real(dp), intent(out) :: tmp_con
@@ -1601,9 +1601,9 @@ subroutine constraint_eqn_033(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
character(len=10), intent(out) :: tmp_units
if (fiooic > 0.7D0) call report_error(285)
- tmp_cc = jwptf/jwdgcrt - 1.0D0 * fiooic
+ tmp_cc = j_tf_wp/jwdgcrt - 1.0D0 * fiooic
tmp_con = jwdgcrt * (1.0D0 - tmp_cc)
- tmp_err = jwptf * tmp_cc
+ tmp_err = j_tf_wp * tmp_cc
tmp_symbol = '<'
tmp_units = 'A/m2'
@@ -1651,9 +1651,9 @@ subroutine constraint_eqn_035(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
!! Logic change during pre-factoring: err, symbol, units will be assigned only if present.
!! fjprot : input real : f-value for TF coil winding pack current density
!! jwdgpro : input real : allowable TF coil winding pack current density, for dump temperature rise protection (A/m2)
- !! jwptf : input real : winding pack current density (A/m2)
+ !! j_tf_wp : input real : winding pack current density (A/m2)
use constraint_variables, only: fjprot
- use tfcoil_variables, only: jwdgpro, jwptf
+ use tfcoil_variables, only: jwdgpro, j_tf_wp
implicit none
real(dp), intent(out) :: tmp_cc
real(dp), intent(out) :: tmp_con
@@ -1661,9 +1661,9 @@ subroutine constraint_eqn_035(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 = jwptf/jwdgpro - 1.0D0 * fjprot
+ tmp_cc = j_tf_wp/jwdgpro - 1.0D0 * fjprot
tmp_con = jwdgpro
- tmp_err = jwptf - jwdgpro
+ tmp_err = j_tf_wp - jwdgpro
tmp_symbol = '<'
tmp_units = 'A/m2'
@@ -3096,14 +3096,14 @@ subroutine constraint_eqn_082(tmp_cc, tmp_con, tmp_err, tmp_symbol, tmp_units)
!! author: J Lion, IPP Greifswald
!! args : output structure : residual error; constraint value;
!! residual error in physical units; output string; units string
- !! toroidalgap > tftort
+ !! toroidalgap > dx_tf_inboard_out_toroidal
!! #=# tfcoil
- !! #=#=# tftort, ftoroidalgap
+ !! #=#=# dx_tf_inboard_out_toroidal, ftoroidalgap
!! Logic change during pre-factoring: err, symbol, units will be assigned only if present.
- !! ftoroidalgap : input real : f-value for constraint toroidalgap > tftort
+ !! ftoroidalgap : input real : f-value for constraint toroidalgap > dx_tf_inboard_out_toroidal
!! toroidalgap : input real : minimal gap between two stellarator coils
- !! tftort : input real : total toroidal width of a tf coil
- use tfcoil_variables, only: tftort,ftoroidalgap,toroidalgap
+ !! dx_tf_inboard_out_toroidal : input real : total toroidal width of a tf coil
+ use tfcoil_variables, only: dx_tf_inboard_out_toroidal,ftoroidalgap,toroidalgap
implicit none
real(dp), intent(out) :: tmp_cc
real(dp), intent(out) :: tmp_con
@@ -3111,9 +3111,9 @@ subroutine constraint_eqn_082(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 - ftoroidalgap * toroidalgap/tftort
+ tmp_cc = 1.0D0 - ftoroidalgap * toroidalgap/dx_tf_inboard_out_toroidal
tmp_con = toroidalgap
- tmp_err = toroidalgap - tftort/ftoroidalgap
+ tmp_err = toroidalgap - dx_tf_inboard_out_toroidal/ftoroidalgap
tmp_symbol = '<'
tmp_units = 'm'
diff --git a/source/fortran/heat_transport_variables.f90 b/source/fortran/heat_transport_variables.f90
index 04781a0d27..4406089039 100644
--- a/source/fortran/heat_transport_variables.f90
+++ b/source/fortran/heat_transport_variables.f90
@@ -71,7 +71,7 @@ module heat_transport_variables
!! Minimum total electrical power for primary coolant pumps (MW) (NOT RECOMMENDED)
real(dp) :: helpow
- !! Heat removal at cryogenic temperature tmpcry (W)
+ !! Heat removal at cryogenic temperature temp_tf_cryo (W)
real(dp) :: helpow_cryal
!! Heat removal at cryogenic temperature tcoolin (W)
diff --git a/source/fortran/numerics.f90 b/source/fortran/numerics.f90
index d81af5588e..22f02f8072 100755
--- a/source/fortran/numerics.f90
+++ b/source/fortran/numerics.f90
@@ -186,7 +186,7 @@ module numerics
!! (79) Peak CS field upper limit (itv 149 fb_cs_limit_max)
!! (80) Divertor power lower limit pdivt (itv 153 fpdivlim)
!! (81) Ne(0) > ne(ped) constraint (itv 154 fne0)
- !! (82) toroidalgap > tftort constraint (itv 171 ftoroidalgap)
+ !! (82) toroidalgap > dx_tf_inboard_out_toroidal constraint (itv 171 ftoroidalgap)
!! (83) Radial build consistency for stellarators (itv 172 f_avspace)
!! (84) Lower limit for beta (itv 173 fbeta_min)
!! (85) Constraint for CP lifetime
@@ -262,7 +262,7 @@ module numerics
!! (54) ftmargtf (f-value for equation 36)
!! (55) NOT USED
!! (56) tdmptf
- !! (57) thkcas
+ !! (57) dr_tf_nose_case
!! (58) thwcndut
!! (59) fcutfsu
!! (60) cpttf
@@ -364,7 +364,7 @@ module numerics
!! (156) rrin : Input IFE repetition rate (Hz) (ifedrv=3 only)
!! (157) fvs_cs_pf_total_ramp : F-value for available to required start up flux (con. 51)
!! (158) croco_thick : Thickness of CroCo copper tube (m)
- !! (159) ftoroidalgap : F-value for toroidalgap > tftort constraint (con. 82)
+ !! (159) ftoroidalgap : F-value for toroidalgap > dx_tf_inboard_out_toroidal constraint (con. 82)
!! (160) f_avspace (f-value for equation 83)
!! (161) fbeta_min (f-value for equation 84)
!! (162) r_cp_top : Top outer radius of the centropost (ST only) (m)
@@ -377,7 +377,7 @@ module numerics
!! (169) te0_ecrh_achievable: Max. achievable electron temperature at ignition point
!! (170) beta_div : field line angle wrt divertor target plate (degrees)
!! (171) casths_fraction : TF side case thickness as fraction of toridal case thickness
- !! (172) casths : TF side case thickness [m]
+ !! (172) dx_tf_side_case : TF side case thickness [m]
!! (173) f_deuterium : Deuterium fraction in fuel
!! (174) EMPTY : Description
!! (175) EMPTY : Description
@@ -551,7 +551,7 @@ subroutine init_numerics()
'Peak CS field upper limit ', &
'pdivt lower limit ', &
'ne0 > neped ', &
- 'toroidalgap > tftort ', &
+ 'toroidalgap > dx_tf_inboard_out_t', &
'available_space > required_space ', &
'beta > beta_min ', &
'CP lifetime ', &
diff --git a/source/fortran/sctfcoil.f90 b/source/fortran/sctfcoil.f90
index 9dbf89823b..8943fd266b 100755
--- a/source/fortran/sctfcoil.f90
+++ b/source/fortran/sctfcoil.f90
@@ -31,7 +31,7 @@ module sctfcoil_module
real(dp) :: tf_fit_y
!! Ratio of peak field with ripple to nominal axisymmetric peak field
- real(dp) :: tfc_current
+ real(dp) :: c_tf_coil
!! Current in each TF coil
real(dp) :: awpc
@@ -54,7 +54,7 @@ module sctfcoil_module
real(dp) :: f_tf_ins
!! Inboard coil insulation fraction [-]
- real(dp) :: h_cp_top
+ real(dp) :: z_cp_top
!! Vertical distance from the midplane to the top of the tapered section [m]
real(dp) :: r_tf_outboard_in
@@ -112,7 +112,7 @@ module sctfcoil_module
real(dp) :: a_leg_cond
!! Exact TF ouboard leg conductor area [m2]
- real(dp) :: theta_coil
+ real(dp) :: rad_tf_coil_toroidal
!! Half toroidal angular extent of a single TF coil inboard leg
real(dp) :: tan_theta_coil
@@ -162,7 +162,7 @@ module sctfcoil_module
real(dp) :: conductor_area
!! Area of cable space inside jacket
- real(dp):: T1, time2, tau2, estotft
+ real(dp):: T1, time2, tau2, e_tf_magnetic_stored_total
! (OBSOLETE, but leave for moment)
! real (kind(1.0D0)) ::croco_quench_factor
! real(dp):: jwdgpro_1, jwdgpro_2, etamax
diff --git a/source/fortran/tfcoil_variables.f90 b/source/fortran/tfcoil_variables.f90
index 0073c5155b..8d86377da8 100644
--- a/source/fortran/tfcoil_variables.f90
+++ b/source/fortran/tfcoil_variables.f90
@@ -35,7 +35,7 @@ module tfcoil_variables
real(dp) :: insulation_area
!! single turn insulation area (m2)
- real(dp) :: aiwp
+ real(dp) :: a_tf_coil_wp_turn_insulation
!! winding pack turn insulation area per coil (m2)
real(dp) :: sig_tf_case_max
@@ -64,7 +64,7 @@ module tfcoil_variables
!! upper critical field (T) for Nb3Sn superconductor at zero temperature and
!! strain (`i_tf_sc_mat=4, =bc20m`)
- real(dp) :: bmaxtf
+ real(dp) :: b_tf_inboard_peak
!! mean peak field at TF coil (T)
real(dp) :: bmaxtfrp
@@ -82,14 +82,14 @@ module tfcoil_variables
logical :: casthi_is_fraction
!! logical switch to make casthi a fraction of TF coil thickness (`casthi_fraction`)
- real(dp) :: casths
+ real(dp) :: dx_tf_side_case
!! inboard TF coil sidewall case thickness (m) (calculated for stellarators)
real(dp) :: casths_fraction
- !! inboard TF coil sidewall case thickness as a fraction of tftort
+ !! inboard TF coil sidewall case thickness as a fraction of dx_tf_inboard_out_toroidal
logical :: tfc_sidewall_is_fraction
- !! logical switch to make casths a fraction of TF coil thickness (`casths_fraction`)
+ !! logical switch to make dx_tf_side_case a fraction of TF coil thickness (`casths_fraction`)
real(dp) :: t_conductor
!! Conductor (cable + steel conduit) area averaged dimension [m]
@@ -322,7 +322,7 @@ module tfcoil_variables
real(dp) :: jwdgpro
!! allowable TF coil winding pack current density, for dump temperature rise protection (A/m2)
- real(dp) :: jwptf
+ real(dp) :: j_tf_wp
!! winding pack engineering current density (A/m2)
real(dp) :: oacdcp
@@ -378,7 +378,7 @@ module tfcoil_variables
real(dp) :: poisson_cond_trans
!! SC TF coil conductor Poisson's ratio in the transverse-transverse direction
- real(dp) :: rbmax
+ real(dp) :: r_b_tf_inboard_peak
!! Radius of maximum TF B-field (m)
real(dp) :: res_tf_leg
@@ -388,7 +388,7 @@ module tfcoil_variables
!! Minimal distance between two toroidal coils. (m)
real(dp) :: ftoroidalgap
- !! F-value for minimum tftort (`constraint equation 82`)
+ !! F-value for minimum dx_tf_inboard_out_toroidal (`constraint equation 82`)
real(dp) :: ripmax
!! aximum allowable toroidal field ripple amplitude at plasma edge (%)
@@ -499,7 +499,7 @@ module tfcoil_variables
!! - exponential quench : e-folding time (s)`
!! - linear quench : discharge time (s)
- real(dp) :: tfareain
+ real(dp) :: a_tf_coil_inboard
!! Area of inboard midplane TF legs (m2)
real(dp) :: len_tf_bus
@@ -526,7 +526,7 @@ module tfcoil_variables
real(dp) :: tficrn
!! TF coil half-width - inner dr_bore (m)
- real(dp) :: tfind
+ real(dp) :: ind_tf_coil
!! TF coil inductance (H)
real(dp) :: tfinsgap
@@ -601,7 +601,7 @@ module tfcoil_variables
real(dp) :: tftmp
!! peak helium coolant temperature in TF coils and PF coils (K)
- real(dp) :: tftort
+ real(dp) :: dx_tf_inboard_out_toroidal
!! TF coil toroidal thickness (m)
real(dp) :: thicndut
@@ -610,7 +610,7 @@ module tfcoil_variables
real(dp) :: layer_ins
!! Additional insulation thickness between layers (m)
- real(dp) :: thkcas
+ real(dp) :: dr_tf_nose_case
!! inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)
!! (calculated for stellarators)
@@ -650,7 +650,7 @@ module tfcoil_variables
real(dp) :: croco_quench_temperature
!! CroCo strand: Actual temp reached during a quench (K)
- real(dp) :: tmpcry
+ real(dp) :: temp_tf_cryo
!! coil temperature for cryogenic plant power calculation (K)
real(dp) :: n_tf_turn
@@ -702,13 +702,13 @@ module tfcoil_variables
real(dp) :: whtconsc
!! superconductor mass in TF coil cable (kg/coil)
- real(dp) :: whtconsh
+ real(dp) :: m_tf_turn_steel_conduit
!! steel conduit mass in TF coil conductor (kg/coil)
real(dp) :: whtgw
!! mass of ground-wall insulation layer per coil (kg/coil)
- real(dp) :: whttf
+ real(dp) :: m_tf_coils_total
!! total mass of the TF coils (kg)
real(dp) :: wwp1
diff --git a/tests/integration/data/large_tokamak_1_MFILE.DAT b/tests/integration/data/large_tokamak_1_MFILE.DAT
index 6dcf14a86a..66ad7139ba 100644
--- a/tests/integration/data/large_tokamak_1_MFILE.DAT
+++ b/tests/integration/data/large_tokamak_1_MFILE.DAT
@@ -670,7 +670,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 9.1597E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 9.1597E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7937E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -684,15 +684,15 @@
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)____________________ 1.8229E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.8229E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2853E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0508E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 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)______________________ 2.8216E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.8216E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
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
@@ -703,8 +703,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 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
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.7934E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.3656E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
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
@@ -725,16 +725,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
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
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 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_coils)__________________ 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
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 7.1402E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.1424E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.2178E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.1176E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 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
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 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
@@ -936,7 +936,7 @@
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
fusion_power__________________________________________________________________ (fusion_power.)_____________________ 1.6202E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1424E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 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
@@ -1094,7 +1094,7 @@
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_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1433,9 +1433,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -1772,7 +1772,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/tests/integration/data/large_tokamak_2_MFILE.DAT b/tests/integration/data/large_tokamak_2_MFILE.DAT
index 5ec61ea4f0..3a1650544f 100644
--- a/tests/integration/data/large_tokamak_2_MFILE.DAT
+++ b/tests/integration/data/large_tokamak_2_MFILE.DAT
@@ -671,7 +671,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 9.1597E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 9.1597E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7937E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -685,15 +685,15 @@
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)____________________ 1.8229E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.8229E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2853E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0508E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 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)______________________ 2.8216E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.8216E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
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
@@ -704,8 +704,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 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
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.7934E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.3656E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
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
@@ -726,16 +726,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
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
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 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_coils)__________________ 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
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 7.1402E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.1424E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.2178E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.1176E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 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
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 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
@@ -937,7 +937,7 @@
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
fusion_power__________________________________________________________________ (fusion_power.)_____________________ 1.6202E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1424E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 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
@@ -1095,7 +1095,7 @@
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_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1434,9 +1434,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -1773,7 +1773,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/tests/integration/data/large_tokamak_3_MFILE.DAT b/tests/integration/data/large_tokamak_3_MFILE.DAT
index 32602809ae..10d9065b2a 100644
--- a/tests/integration/data/large_tokamak_3_MFILE.DAT
+++ b/tests/integration/data/large_tokamak_3_MFILE.DAT
@@ -671,7 +671,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 9.1597E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 9.1597E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7937E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -685,15 +685,15 @@
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)____________________ 1.8229E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.8229E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2853E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0508E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 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)______________________ 2.8216E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.8216E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
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
@@ -704,8 +704,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 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
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.7934E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.3656E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
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
@@ -726,16 +726,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
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
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 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_coils)__________________ 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
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 7.1402E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.1424E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.2178E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.1176E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 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
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 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
@@ -937,7 +937,7 @@
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
fusion_power__________________________________________________________________ (fusion_power.)_____________________ 1.6202E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1424E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 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
@@ -1095,7 +1095,7 @@
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_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1434,9 +1434,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -1773,7 +1773,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/tests/integration/data/large_tokamak_4_MFILE.DAT b/tests/integration/data/large_tokamak_4_MFILE.DAT
index 247974b715..9d7b41d9da 100644
--- a/tests/integration/data/large_tokamak_4_MFILE.DAT
+++ b/tests/integration/data/large_tokamak_4_MFILE.DAT
@@ -671,7 +671,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4985E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 9.1597E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 9.1597E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7937E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -685,15 +685,15 @@
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)____________________ 1.8229E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.8229E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2853E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0508E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 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)______________________ 2.8216E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.8216E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
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
@@ -704,8 +704,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 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
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.7934E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.3656E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
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
@@ -726,16 +726,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
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
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 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_coils)__________________ 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
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 7.1402E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.1424E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.2178E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.1176E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 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
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 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
@@ -937,7 +937,7 @@
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
fusion_power__________________________________________________________________ (fusion_power.)_____________________ 1.6202E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1424E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 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
@@ -1095,7 +1095,7 @@
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_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1434,9 +1434,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -1773,7 +1773,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/tests/integration/data/large_tokamak_IN.DAT b/tests/integration/data/large_tokamak_IN.DAT
index ff04ea734f..3ce1fa730d 100644
--- a/tests/integration/data/large_tokamak_IN.DAT
+++ b/tests/integration/data/large_tokamak_IN.DAT
@@ -244,9 +244,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -583,7 +583,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/tests/integration/data/large_tokamak_MFILE.DAT b/tests/integration/data/large_tokamak_MFILE.DAT
index ed3b8847e3..eec61a63c9 100644
--- a/tests/integration/data/large_tokamak_MFILE.DAT
+++ b/tests/integration/data/large_tokamak_MFILE.DAT
@@ -674,7 +674,7 @@
Outboard_leg_nose_case_type_____________________________________________ (i_tf_case_geom)______________ 0.0000E+00
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 9.2950E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 9.2950E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7969E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -688,15 +688,15 @@
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)____________________ 1.8459E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.8459E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.3045E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0671E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.5858E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.6514E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.7164E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8843E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.8843E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.6337E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8202E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2394E-01
@@ -707,8 +707,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.8986E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.1865E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8392E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.3296E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8392E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.3296E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5197E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8716E-02 OP
@@ -729,16 +729,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.9062E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.7969E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.1170E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 9.1170E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4319E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5648E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 7.2486E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1598E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2296E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 7.2486E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.1598E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.2296E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.1381E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.1381E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2760E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5505E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.5505E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1583E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2410E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1322E+08 OP
@@ -940,7 +940,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.5092E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4413E-02
fusion_power__________________________________________________________________ (fusion_power.)_____________________ 1.6176E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1598E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.1598E+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
@@ -1098,7 +1098,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9134E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2978E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.4042E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1435,9 +1435,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -1774,7 +1774,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/tests/integration/data/large_tokamak_once_through.IN.DAT b/tests/integration/data/large_tokamak_once_through.IN.DAT
index 10c6508b65..c7d9f28a27 100644
--- a/tests/integration/data/large_tokamak_once_through.IN.DAT
+++ b/tests/integration/data/large_tokamak_once_through.IN.DAT
@@ -60,7 +60,7 @@ ixc = 37 * j_cs_flat_top_end
ixc = 41 * f_j_cs_start_pulse_end_flat_top
ixc = 44 * fvsbrnni
ixc = 56 * tdmptf
-ixc = 57 * thkcas
+ixc = 57 * dr_tf_nose_case
ixc = 58 * thwcndut
boundl(58) = 0.008
ixc = 59 * fcutfsu
@@ -408,7 +408,7 @@ i_pulsed_plant = 1 * Switch for reactor model;
sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa)
sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa)
casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators)
-casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators)
+dx_tf_side_case = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators)
cpttf = 85462.67500253802 * TF coil current per turn (A); (calculated for stellarators) (calculated for
dhecoil = 0.01 * diameter of central helium channel in TF winding (m)
fcutfsu = 0.8231999768826475 * copper fraction of cable conductor (TF coils)
@@ -417,7 +417,7 @@ ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge
tdmptf = 17.97282589344206 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`)
n_tf_coils = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST
tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K)
-thkcas = 0.2816873221155309 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)
+dr_tf_nose_case = 0.2816873221155309 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)
dr_tf_wp = 0.5153787768966674 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514)
thwcndut = 0.008012110032981922 * TF coil conduit case thickness (m) (`iteration variable 58`)
tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m)
diff --git a/tests/integration/data/ref_IN.DAT b/tests/integration/data/ref_IN.DAT
index ea70bb398b..7550c0e1c9 100644
--- a/tests/integration/data/ref_IN.DAT
+++ b/tests/integration/data/ref_IN.DAT
@@ -64,7 +64,7 @@ boundu(50) = 1.0
ixc = 51 * fvdump
ixc = 53 * fjprot
ixc = 56 * tdmptf
-ixc = 57 * thkcas
+ixc = 57 * dr_tf_nose_case
ixc = 58 * thwcndut
boundl(58) = 8.0d-3
ixc = 61 * dr_shld_vv_gap_inboard
@@ -301,7 +301,7 @@ t_precharge = 500.0
fpeakb = 1.0
bmxlim = 11.2
casthi = 0.06 * Inboard tf coil case inner \(plasma side) thickness (m)
-casths = 0.05 * Inboard tf coil sidewall case thickness (m)
+dx_tf_side_case = 0.05 * Inboard tf coil sidewall case thickness (m)
cpttf = 6.5e+04 * Tf coil current per turn (a);
ripmax = 0.6 * Maximum allowable toroidal field ripple amplitude
tdmptf = 30.0 * Dump time for tf coil (s)
@@ -310,7 +310,7 @@ alstrtf = 5.8E8 * allowable stress in TF coil (Pa)
dhecoil = 0.010 * diameter of He coil in TF winding (m)
tftmp = 4.750 * Peak helium coolant temperature in tf coils and pf coils (k)
thicndut = 2.0d-3 * Conduit insulation thickness (m)
-thkcas = 0.495 * Inboard tf coil case outer (non-plasma side) thickness (m)
+dr_tf_nose_case = 0.495 * Inboard tf coil case outer (non-plasma side) thickness (m)
thwcndut = 0.008 * Tf coil conduit case thickness (m)
tinstf = 0.008 * Ground insulation thickness surrounding winding pack (m)
tmargmin = 1.500 * Minimum allowable temperature margin (cs and tf coils) (k)
@@ -359,7 +359,7 @@ t_burn = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
vdalw = 1.0000E+01
fjprot = 1.0000E+00
tdmptf = 2.5829E+01
- thkcas = 5.2465E-01
+ dr_tf_nose_case = 5.2465E-01
thwcndut = 8.0000E-03
dr_shld_vv_gap_inboard = 2.0000E-02
fl_h_threshold = 1.4972E+00
diff --git a/tests/integration/data/scan_2D_MFILE.DAT b/tests/integration/data/scan_2D_MFILE.DAT
index 189bd0bd4c..aaa2aca428 100644
--- a/tests/integration/data/scan_2D_MFILE.DAT
+++ b/tests/integration/data/scan_2D_MFILE.DAT
@@ -672,7 +672,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.7479E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.7479E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7838E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -686,15 +686,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7522E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7522E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2447E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1032E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.3156E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7457E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.4632E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.6707E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.6707E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.3122E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4883E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9159E-01
@@ -705,8 +705,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.7055E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2197E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8925E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2910E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8925E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2910E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4728E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.7774E-02 OP
@@ -727,16 +727,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.1902E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3501E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.6415E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.6415E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3121E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4642E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.8257E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0921E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1962E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.8257E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0921E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1962E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0800E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0800E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2407E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6445E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6445E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1870E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1644E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0147E+08 OP
@@ -938,7 +938,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4211E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2725E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.5991E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0921E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0921E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -1096,7 +1096,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9207E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2817E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3522E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1835,7 +1835,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.5817E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.5817E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7798E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -1849,15 +1849,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7234E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7234E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2248E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1070E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.2321E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7766E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.3536E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5744E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.5744E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1884E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4179E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8472E-01
@@ -1868,8 +1868,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.6827E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2483E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8742E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2643E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8742E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2643E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4446E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.7926E-02 OP
@@ -1890,16 +1890,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.7215E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2837E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.5813E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.5813E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2720E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4464E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.6839E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0694E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1732E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.6839E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0694E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1732E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0400E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0400E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2167E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6304E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6304E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1837E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1183E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.9375E+08 OP
@@ -2101,7 +2101,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3916E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2457E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6138E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0694E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0694E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -2259,7 +2259,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9205E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2709E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3173E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -2998,7 +2998,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.4468E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.4468E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7766E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -3012,15 +3012,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.6999E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.6999E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2093E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1139E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.1642E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.8027E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.2777E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5098E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.5098E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.0995E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.3467E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.7778E-01
@@ -3031,8 +3031,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.6486E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2651E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8744E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2475E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8744E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2475E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4275E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.7852E-02 OP
@@ -3053,16 +3053,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.2683E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2246E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.4962E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.4962E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2408E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4272E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.5756E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0521E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1502E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.5756E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0521E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1502E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0000E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0000E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1927E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6163E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6163E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1765E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.0721E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.8617E+08 OP
@@ -3264,7 +3264,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3690E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2200E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6215E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0521E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0521E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -3422,7 +3422,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9054E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2566E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2712E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -4161,7 +4161,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.4602E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.4602E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7769E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -4175,15 +4175,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7023E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7023E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2109E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1136E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.1709E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.8000E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.2827E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5136E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.5136E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1061E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.3564E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.7873E-01
@@ -4194,8 +4194,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.6570E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2670E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8713E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2458E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8713E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2458E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4281E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.7899E-02 OP
@@ -4216,16 +4216,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.2652E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2369E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.5162E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.5162E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2436E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4304E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.5855E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0537E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1502E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.5855E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0537E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1502E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0000E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0000E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1927E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6111E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6111E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1749E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.0724E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.8618E+08 OP
@@ -4427,7 +4427,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3711E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2271E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6243E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0537E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0537E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -4585,7 +4585,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9047E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2548E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2654E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -5324,7 +5324,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.5817E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.5817E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7798E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -5338,15 +5338,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7234E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7234E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2244E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1042E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.2348E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7782E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.3358E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5568E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.5568E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1735E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4356E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8645E-01
@@ -5357,8 +5357,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.7063E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2616E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8578E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2526E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8578E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2526E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4390E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8141E-02 OP
@@ -5379,16 +5379,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.7328E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2934E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.6364E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.6364E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2718E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4530E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.6756E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0681E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1732E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.6756E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0681E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1732E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0400E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0400E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2167E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6210E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6210E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1837E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1183E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.9378E+08 OP
@@ -5590,7 +5590,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3899E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2612E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6269E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0681E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0681E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -5748,7 +5748,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9280E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2722E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3215E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -6487,7 +6487,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.7538E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.7538E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7840E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -6501,15 +6501,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7533E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7533E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2448E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0998E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.3058E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7373E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.4242E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.6314E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.6314E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.2805E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.5336E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9601E-01
@@ -6520,8 +6520,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.7690E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2569E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8321E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2599E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8321E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2599E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4469E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8549E-02 OP
@@ -6542,16 +6542,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.2408E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3770E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.7899E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.7899E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3025E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4821E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.8120E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0899E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1962E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.8120E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0899E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1962E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0800E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0800E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2408E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6209E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6209E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1864E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1645E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0154E+08 OP
@@ -6753,7 +6753,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4183E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.3001E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6218E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0899E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0899E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -6911,7 +6911,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9550E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2905E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3806E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -7650,7 +7650,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.7704E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.7704E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7844E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -7664,15 +7664,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7561E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7561E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2467E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0990E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.3152E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7350E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.4300E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.6359E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.6359E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.2885E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.5458E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9720E-01
@@ -7683,8 +7683,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.7788E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2586E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8296E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2584E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8296E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2584E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4484E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8590E-02 OP
@@ -7705,16 +7705,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.2351E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3931E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.8136E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.8136E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3066E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4861E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.8240E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0918E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1962E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.8240E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0918E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1962E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0800E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0800E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2408E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6147E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6147E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1844E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1649E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0155E+08 OP
@@ -7916,7 +7916,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4208E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.3088E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6251E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0918E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0918E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -8074,7 +8074,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9531E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2883E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3735E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -8813,7 +8813,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.6229E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.6229E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7808E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -8827,15 +8827,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7306E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7306E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2293E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1031E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.2402E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7615E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.3537E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5713E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.5713E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1963E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4625E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8907E-01
@@ -8846,8 +8846,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.7266E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2639E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8345E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2527E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8345E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2527E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4315E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8451E-02 OP
@@ -8868,16 +8868,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.7437E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3382E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.6855E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.6855E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2726E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4625E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.7080E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0733E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1732E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.7080E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0733E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1732E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0400E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0400E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2168E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6070E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6070E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1788E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1191E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.9381E+08 OP
@@ -9079,7 +9079,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3966E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2727E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6273E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0733E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0733E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -9237,7 +9237,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9381E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2756E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3323E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -9976,7 +9976,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.4832E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.4832E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7775E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -9990,15 +9990,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7063E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7063E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2127E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1075E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.1680E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7870E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.2844E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5136E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.5136E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1119E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.3798E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8101E-01
@@ -10009,8 +10009,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.6723E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2663E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8421E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2495E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8421E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2495E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4163E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8278E-02 OP
@@ -10031,16 +10031,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.2927E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2820E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.5529E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.5529E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2401E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4388E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.5997E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0560E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1502E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.5997E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0560E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1502E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0000E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0000E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1928E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5987E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.5987E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1721E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.0729E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.8621E+08 OP
@@ -10242,7 +10242,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3741E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2277E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6212E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0560E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0560E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -10400,7 +10400,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9205E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2615E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2872E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -11139,7 +11139,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.4911E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.4911E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7777E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -11153,15 +11153,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7077E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7077E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2137E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1073E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.1713E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7851E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.2875E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5159E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.5159E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1159E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.3854E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8155E-01
@@ -11172,8 +11172,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.6770E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2673E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8397E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2487E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8397E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2487E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4162E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8312E-02 OP
@@ -11194,16 +11194,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.2917E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2896E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.5641E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.5641E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2414E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4407E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.6056E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0569E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1502E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.6056E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0569E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1502E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0000E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0000E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1928E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5958E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.5958E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1712E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.0730E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.8622E+08 OP
@@ -11405,7 +11405,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3753E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2441E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6318E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0569E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0569E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -11563,7 +11563,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9206E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2611E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.2858E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -12302,7 +12302,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.6318E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.6318E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7810E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -12316,15 +12316,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7321E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7321E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2302E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1023E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.2448E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7599E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.3536E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5705E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.5705E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1979E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4722E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9002E-01
@@ -12335,8 +12335,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.7364E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2674E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8292E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2496E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8292E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2496E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4306E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8526E-02 OP
@@ -12357,16 +12357,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.7517E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3474E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.7086E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.7086E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2742E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4659E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.7129E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0741E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1732E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.7129E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0741E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1732E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0400E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0400E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2168E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6019E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6019E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1777E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1193E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.9382E+08 OP
@@ -12568,7 +12568,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3976E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2941E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6414E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0741E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0741E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -12726,7 +12726,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9393E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2761E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3340E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -13465,7 +13465,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.7762E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.7762E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7845E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -13479,15 +13479,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7571E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7571E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2466E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0947E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.3158E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7326E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.4262E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.6317E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.6317E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.2865E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.5559E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9817E-01
@@ -13498,8 +13498,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.7844E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2573E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8196E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2608E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8196E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2608E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4446E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8724E-02 OP
@@ -13520,16 +13520,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.2545E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.4117E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.8270E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.8270E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3061E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4895E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.8254E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0921E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1962E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.8254E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0921E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1962E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0800E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0800E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2409E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6095E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6095E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1837E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1650E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0157E+08 OP
@@ -13731,7 +13731,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4211E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.3316E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6408E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0921E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0921E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -13889,7 +13889,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9582E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2904E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3801E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -14628,7 +14628,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.7862E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.7862E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7847E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -14642,15 +14642,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7588E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7588E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2478E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0945E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.3202E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7305E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.4299E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.6346E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.6346E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.2915E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.5629E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9886E-01
@@ -14661,8 +14661,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.7903E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2585E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8170E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2598E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8170E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2598E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4447E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8762E-02 OP
@@ -14683,16 +14683,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.2524E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.4211E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.8412E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.8412E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.3079E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4918E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.8328E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0933E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1962E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.8328E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0933E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1962E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0800E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0800E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2409E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6060E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6060E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1826E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1652E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.0158E+08 OP
@@ -14894,7 +14894,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.4226E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.3467E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6496E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0933E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0933E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -15052,7 +15052,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9580E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2897E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3778E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -15791,7 +15791,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.6375E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.6375E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7812E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -15805,15 +15805,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7331E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7331E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2304E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0994E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.2421E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7556E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.3582E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5747E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.5747E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.2028E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.4737E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.9017E-01
@@ -15824,8 +15824,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.7308E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2599E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8245E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2576E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8245E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2576E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4281E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8585E-02 OP
@@ -15846,16 +15846,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.7633E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.3629E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.6959E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.6959E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2727E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4662E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.7183E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0749E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1732E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.7183E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0749E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1732E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0400E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0400E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2168E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.6012E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.6012E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1771E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.1194E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.9382E+08 OP
@@ -16057,7 +16057,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3988E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.3195E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6583E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0749E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0749E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -16215,7 +16215,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9427E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2783E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3412E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -16954,7 +16954,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.4984E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 8.4888E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 8.4888E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7776E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -16968,15 +16968,15 @@
TF_coil_arc_point_3_Z_(m)_______________________________________________ (yarc(4))_____________________ -8.8182E+00
TF_coil_arc_point_4_R_(m)_______________________________________________ (xarc(5))_____________________ 3.6253E+00
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.2909E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 1.7073E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.7073E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.2128E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.1039E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.1641E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.7820E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.2861E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.5148E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.5148E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.1143E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.3842E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 4.8144E-01
@@ -16987,8 +16987,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.6704E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.2606E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8326E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.2561E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8326E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.2561E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.4117E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8398E-02 OP
@@ -17009,16 +17009,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 3.3149E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.2992E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 8.5488E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 8.5488E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.2376E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.4403E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 6.6037E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.0566E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1502E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 6.6037E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.0566E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1502E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.0000E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.0000E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1928E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5964E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.5964E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1715E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.0730E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 1.8621E+08 OP
@@ -17220,7 +17220,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.3749E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.2925E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6674E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.0566E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.0566E+07
# Pumping for primary coolant (helium) #
Pressure_drop_in_FW_and_blanket_coolant_incl._hx_and_pipes_(Pa)_________ (dp_he)_______________________ 5.5000E+05
Fraction_of_FW_and_blanket_thermal_power_required_for_pumping___________ (fpump)_______________________ 8.9463E-02 OP
@@ -17378,7 +17378,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9267E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2667E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.3038E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -17720,9 +17720,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -18060,7 +18060,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/tests/integration/data/scan_MFILE.DAT b/tests/integration/data/scan_MFILE.DAT
index bfc24b7742..c32050fc23 100644
--- a/tests/integration/data/scan_MFILE.DAT
+++ b/tests/integration/data/scan_MFILE.DAT
@@ -518,7 +518,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -532,15 +532,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4635E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4102E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3627E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1070E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5346E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7026E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7026E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -550,8 +550,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3795E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2140E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0145E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7714E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0145E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7714E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -574,16 +574,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5743E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3757E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3757E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4640E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -924,7 +924,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5632E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -1513,7 +1513,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -1527,15 +1527,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4635E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4102E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3627E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1069E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5347E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7026E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7026E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -1545,8 +1545,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3792E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2139E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0145E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7716E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0145E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7716E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -1569,16 +1569,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5748E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3757E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3757E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4640E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -1919,7 +1919,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5632E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -2508,7 +2508,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -2522,15 +2522,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4101E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1069E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5347E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7027E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7027E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -2540,8 +2540,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3789E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2137E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0145E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7717E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0145E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7717E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -2564,16 +2564,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5751E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3756E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3756E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4640E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -2914,7 +2914,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5632E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -3503,7 +3503,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -3517,15 +3517,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4101E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1069E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5348E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7028E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7028E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -3535,8 +3535,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3786E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2136E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7718E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7718E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -3559,16 +3559,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5755E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3755E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3755E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4639E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -3909,7 +3909,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5632E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -4498,7 +4498,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -4512,15 +4512,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4100E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1069E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5349E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7029E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7029E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -4530,8 +4530,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3783E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2135E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7719E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7719E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -4554,16 +4554,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5759E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3755E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3755E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4639E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -4904,7 +4904,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5633E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -5493,7 +5493,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -5507,15 +5507,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4100E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1068E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5349E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7029E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7029E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -5525,8 +5525,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3781E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2134E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7721E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7721E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -5549,16 +5549,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5762E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3754E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3754E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4639E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -5899,7 +5899,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5633E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -6488,7 +6488,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -6502,15 +6502,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4099E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1068E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5350E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7030E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7030E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -6520,8 +6520,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3779E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2133E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7722E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7722E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -6544,16 +6544,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5765E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3753E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3753E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4638E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -6894,7 +6894,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5633E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -7483,7 +7483,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -7497,15 +7497,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4099E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1068E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5350E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7030E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7030E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0480E+00
@@ -7515,8 +7515,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3776E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2132E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7723E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7723E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -7539,16 +7539,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5768E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3753E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3753E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4638E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -7889,7 +7889,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5633E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -8478,7 +8478,7 @@
Outboard_leg_centre_radius_(m)__________________________________________ (r_tf_outboard_mid)___________ 1.7061E+01 OP
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 1.4000E+00 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 1.4000E+00
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.7477E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.7477E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 9.2447E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 5.1957E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -8492,15 +8492,15 @@
TF_coil_arc_point_4_Z_(m)_______________________________________________ (yarc(4))_____________________ -9.2447E+00
TF_coil_arc_point_5_R_(m)_______________________________________________ (xarc(5))_____________________ 4.4793E+00
TF_coil_arc_point_5_Z_(m)_______________________________________________ (yarc(5))_____________________ -5.5468E+00
- TF_cross-section_(total)_(m2)___________________________________________ (tfareain)____________________ 3.3244E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 3.3244E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 2.4634E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.4098E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 2.3626E+00
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 7.1068E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 9.5351E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 3.7031E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 3.7031E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 1.2094E+06 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 1.1243E+00
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 1.0479E+00
@@ -8510,8 +8510,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 9.3774E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 5.2131E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 1.0146E-01
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 3.7723E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 1.0146E-01
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 3.7723E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 1
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 2.0000E+02 OP
Number_of_TF_pancakes___________________________________________________ (n_pancake)___________________ 20
@@ -8534,16 +8534,16 @@
TF_conductor_temperature_margin_(K)_____________________________________ (tmargtf)_____________________ 1.5000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 1.2418E+04 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 8.5771E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 2.3752E+05 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 2.3752E+05 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 1.0668E+04 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 3.4638E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 1.5629E+06 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 2.5007E+07
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.1200E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 1.5629E+06 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 2.5007E+07
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.1200E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.4165E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.4165E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.1982E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 1.4412E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 1.4412E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 7.2690E+06
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.6312E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.5976E+08 OP
@@ -8884,7 +8884,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0D6)___________________ 1.6432E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0D6)_________________ 2.5633E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(W)__________________ (helpow/1.0D6)________________ 8.2594E-02 OP
- Temperature_of_cryogenic_components_(K)_________________________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_components_(K)_________________________________ (temp_tf_cryo)______________________ 4.5000E+00
Efficiency_(figure_of_merit)_of_cryogenic_plant_is_13%_of_ideal_Carnot_v ______________________________ 2.0277E-03 OP
Electric_power_for_cryogenic_plant_(MW)_________________________________ (crypmw)______________________ 4.0732E+01 OP
# Plant Power / Heat Transport Balance #
@@ -9043,7 +9043,7 @@ ixc = 52 * vdalw
boundu(52) = 10.0
ixc = 53 * fjprot
ixc = 56 * tdmptf
-ixc = 57 * thkcas
+ixc = 57 * dr_tf_nose_case
ixc = 58 * thwcndut
boundl(58) = 8.0d-3
ixc = 61 * dr_shld_vv_gap_inboard
@@ -9280,7 +9280,7 @@ t_precharge = 500.0
fpeakb = 1.0
bmxlim = 11.2
casthi = 0.06 * Inboard tf coil case inner \(plasma side) thickness (m)
-casths = 0.05 * Inboard tf coil sidewall case thickness (m)
+dx_tf_side_case = 0.05 * Inboard tf coil sidewall case thickness (m)
cpttf = 6.5e+04 * Tf coil current per turn (a);
ripmax = 0.6 * Maximum allowable toroidal field ripple amplitude
tdmptf = 30.0 * Dump time for tf coil (s)
@@ -9290,7 +9290,7 @@ sig_tf_wp_max = 5.8E8 * Allowable maximum shear stress in TF coil conduit (Tr
dhecoil = 0.010 * diameter of He coil in TF winding (m)
tftmp = 4.750 * Peak helium coolant temperature in tf coils and pf coils (k)
thicndut = 2.0d-3 * Conduit insulation thickness (m)
-thkcas = 0.495 * Inboard tf coil case outer (non-plasma side) thickness (m)
+dr_tf_nose_case = 0.495 * Inboard tf coil case outer (non-plasma side) thickness (m)
thwcndut = 0.008 * Tf coil conduit case thickness (m)
tinstf = 0.008 * Ground insulation thickness surrounding winding pack (m)
tmargmin = 1.500 * Minimum allowable temperature margin (cs and tf coils) (k)
@@ -9339,7 +9339,7 @@ t_burn = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
vdalw = 1.0000E+01
fjprot = 1.0000E+00
tdmptf = 2.5829E+01
- thkcas = 5.2465E-01
+ dr_tf_nose_case = 5.2465E-01
thwcndut = 8.0000E-03
dr_shld_vv_gap_inboard = 2.0000E-02
fl_h_threshold = 1.4972E+00
diff --git a/tests/integration/data/uncertainties_nonopt_ref_IN.DAT b/tests/integration/data/uncertainties_nonopt_ref_IN.DAT
index d0f7a92d4d..9cb3d0124a 100644
--- a/tests/integration/data/uncertainties_nonopt_ref_IN.DAT
+++ b/tests/integration/data/uncertainties_nonopt_ref_IN.DAT
@@ -64,7 +64,7 @@ boundu(50) = 1.0
ixc = 51 * fvdump
ixc = 53 * fjprot
ixc = 56 * tdmptf
-ixc = 57 * thkcas
+ixc = 57 * dr_tf_nose_case
ixc = 58 * thwcndut
boundl(58) = 8.0d-3
ixc = 61 * dr_shld_vv_gap_inboard
@@ -301,7 +301,7 @@ t_precharge = 500.0
fpeakb = 1.0
bmxlim = 11.2
casthi = 0.06 * Inboard tf coil case inner \(plasma side) thickness (m)
-casths = 0.05 * Inboard tf coil sidewall case thickness (m)
+dx_tf_side_case = 0.05 * Inboard tf coil sidewall case thickness (m)
cpttf = 6.5e+04 * Tf coil current per turn (a);
ripmax = 0.6 * Maximum allowable toroidal field ripple amplitude
tdmptf = 30.0 * Dump time for tf coil (s)
@@ -310,7 +310,7 @@ alstrtf = 5.8E8 * allowable stress in TF coil (Pa)
dhecoil = 0.010 * diameter of He coil in TF winding (m)
tftmp = 4.750 * Peak helium coolant temperature in tf coils and pf coils (k)
thicndut = 2.0d-3 * Conduit insulation thickness (m)
-thkcas = 0.495 * Inboard tf coil case outer (non-plasma side) thickness (m)
+dr_tf_nose_case = 0.495 * Inboard tf coil case outer (non-plasma side) thickness (m)
thwcndut = 0.008 * Tf coil conduit case thickness (m)
tinstf = 0.008 * Ground insulation thickness surrounding winding pack (m)
tmargmin = 1.500 * Minimum allowable temperature margin (cs and tf coils) (k)
@@ -359,7 +359,7 @@ t_burn = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
vdalw = 1.0000E+01
fjprot = 1.0000E+00
tdmptf = 2.5829E+01
- thkcas = 5.2465E-01
+ dr_tf_nose_case = 5.2465E-01
thwcndut = 8.0000E-03
dr_shld_vv_gap_inboard = 2.0000E-02
fl_h_threshold = 1.4972E+00
diff --git a/tests/integration/data/uncertainties_ref_IN.DAT b/tests/integration/data/uncertainties_ref_IN.DAT
index 9d022ffb48..c03898ed21 100644
--- a/tests/integration/data/uncertainties_ref_IN.DAT
+++ b/tests/integration/data/uncertainties_ref_IN.DAT
@@ -64,7 +64,7 @@ boundu(50) = 1.0
ixc = 51 * fvdump
ixc = 53 * fjprot
ixc = 56 * tdmptf
-ixc = 57 * thkcas
+ixc = 57 * dr_tf_nose_case
ixc = 58 * thwcndut
boundl(58) = 8.0d-3
ixc = 61 * dr_shld_vv_gap_inboard
@@ -301,7 +301,7 @@ t_precharge = 500.0
fpeakb = 1.0
bmxlim = 11.2
casthi = 0.06 * Inboard tf coil case inner \(plasma side) thickness (m)
-casths = 0.05 * Inboard tf coil sidewall case thickness (m)
+dx_tf_side_case = 0.05 * Inboard tf coil sidewall case thickness (m)
cpttf = 6.5e+04 * Tf coil current per turn (a);
ripmax = 0.6 * Maximum allowable toroidal field ripple amplitude
tdmptf = 30.0 * Dump time for tf coil (s)
@@ -310,7 +310,7 @@ alstrtf = 5.8E8 * allowable stress in TF coil (Pa)
dhecoil = 0.010 * diameter of He coil in TF winding (m)
tftmp = 4.750 * Peak helium coolant temperature in tf coils and pf coils (k)
thicndut = 2.0d-3 * Conduit insulation thickness (m)
-thkcas = 0.495 * Inboard tf coil case outer (non-plasma side) thickness (m)
+dr_tf_nose_case = 0.495 * Inboard tf coil case outer (non-plasma side) thickness (m)
thwcndut = 0.008 * Tf coil conduit case thickness (m)
tinstf = 0.008 * Ground insulation thickness surrounding winding pack (m)
tmargmin = 1.500 * Minimum allowable temperature margin (cs and tf coils) (k)
@@ -359,7 +359,7 @@ t_burn = 1.0d4 * Burn time (s) (calculated if i_pulsed_plant=1)
vdalw = 1.0000E+01
fjprot = 1.0000E+00
tdmptf = 2.5829E+01
- thkcas = 5.2465E-01
+ dr_tf_nose_case = 5.2465E-01
thwcndut = 8.0000E-03
dr_shld_vv_gap_inboard = 2.0000E-02
fl_h_threshold = 1.4972E+00
diff --git a/tests/integration/ref_dicts.json b/tests/integration/ref_dicts.json
index ef037bbfab..6888a04a82 100644
--- a/tests/integration/ref_dicts.json
+++ b/tests/integration/ref_dicts.json
@@ -225,7 +225,7 @@
"aintmass": 0.0,
"m_ions_total_amu": 0.0,
"airtemp": 15.0,
- "aiwp": 0.0,
+ "a_tf_coil_wp_turn_insulation": 0.0,
"alam": null,
"alfapf": 5e-10,
"all_array_hotfix_len": 100.0,
@@ -407,7 +407,7 @@
"b_cs_limit_max": 13.0,
"b_cs_peak_flat_top_end": 0.0,
"b_cs_peak_pulse_start": 0.0,
- "bmaxtf": 0.0,
+ "b_tf_inboard_peak": 0.0,
"bmaxtfrp": 0.0,
"bmn": 0.001,
"bmxlim": 12.0,
@@ -1275,7 +1275,7 @@
"casthi": 0.0,
"casthi_fraction": 0.05,
"casthi_is_fraction": ".false.",
- "casths": 0.0,
+ "dx_tf_side_case": 0.0,
"casths_fraction": 0.06,
"cboot": 1.0,
"ccl0": [
@@ -1761,7 +1761,7 @@
"error_type": null,
"errors_on": ".false.",
"esbldgm3": 1000.0,
- "estotft": 0.0,
+ "e_tf_magnetic_stored_total": 0.0,
"estotftgj": 0.0,
"eta": null,
"etacd": 0.0,
@@ -2183,7 +2183,7 @@
"gsmass": 0.0,
"gtscale": 0.0,
"h": null,
- "h_cp_top": 0.0,
+ "z_cp_top": 0.0,
"h_ib": 0.0,
"h_ob": 0.0,
"harnum": 1.0,
@@ -2853,7 +2853,7 @@
"jcableoh_eof": 0.0,
"jwdgcrt": 0.0,
"jwdgpro": 0.0,
- "jwptf": 0.0,
+ "j_tf_wp": 0.0,
"k": null,
"k_copper": 330.0,
"kallenbach_scan_end": 10.0,
@@ -2954,7 +2954,7 @@
"PeakCSfieldupperlimit",
"pdivtlowerlimit",
"ne0>neped",
- "toroidalgap>tftort",
+ "toroidalgap>dx_tf_inboard_out_toroidal",
"available_space>required_space",
"beta>beta_min",
"CPlifetime",
@@ -3734,7 +3734,7 @@
"rat": 1.3e-08,
"r_pf_coil_outer": 0.0,
"rbld": 0.0,
- "rbmax": 0.0,
+ "r_b_tf_inboard_peak": 0.0,
"rbrt": 1.0,
"rbvfac": 1.6,
"rbvol": 0.0,
@@ -7492,7 +7492,7 @@
],
"tfacmw": 0.0,
"tfacpd": 0.0,
- "tfareain": 0.0,
+ "a_tf_coil_inboard": 0.0,
"tfb": [
0.0,
0.0,
@@ -7501,7 +7501,7 @@
],
"len_tf_bus": 0.0,
"m_tf_bus": 0.0,
- "tfc_current": 0.0,
+ "c_tf_coil": 0.0,
"tfc_nuc_heating": 0.0,
"tfc_sidewall_is_fraction": ".false.",
"tfcbv": 20000.0,
@@ -7511,7 +7511,7 @@
"tfcryoarea": 0.0,
"dr_tf_inboard": 0.0,
"tficrn": 0.0,
- "tfind": 0.0,
+ "ind_tf_coil": 0.0,
"tfinsgap": 0.01,
"tfjtsmw": 0.0,
"tflegmw": 0.0,
@@ -7524,7 +7524,7 @@
"tfsao": 0.0,
"dr_tf_outboard": 0.0,
"tftmp": 4.5,
- "tftort": 1.0,
+ "dx_tf_inboard_out_toroidal": 1.0,
"dr_tf_shld_gap": 0.05,
"temp_fw_max": 823.0,
"tgain": 85.0,
@@ -7532,7 +7532,7 @@
"thcomp": null,
"t_fusion_ramp": 10.0,
"theta": null,
- "theta_coil": 0.0,
+ "rad_tf_coil_toroidal": 0.0,
"thick_bp_ib": 0.0,
"thick_bp_ob": 0.0,
"thick_bss_ib": 0.111,
@@ -7546,7 +7546,7 @@
"thick_sw_ib": 0.025,
"thick_sw_ob": 0.025,
"thicndut": 0.0008,
- "thkcas": 0.3,
+ "dr_tf_nose_case": 0.3,
"thshield": 0.05,
"thwcndut": 0.008,
"ti": 12.9,
@@ -7581,7 +7581,7 @@
"tmargtf": 0.0,
"tmax_croco": 200.0,
"tmaxpro": 150.0,
- "tmpcry": 4.5,
+ "temp_tf_cryo": 4.5,
"tn": 300.0,
"t_current_ramp_up": 30.0,
"tohsin": 0.0,
@@ -8022,13 +8022,13 @@
"whtconcu": 0.0,
"whtconin": 0.0,
"whtconsc": 0.0,
- "whtconsh": 0.0,
+ "m_tf_turn_steel_conduit": 0.0,
"whtcp": 0.0,
"whtgw": 0.0,
"m_pf_coil_conductor_total": 0.0,
"m_pf_coil_structure_total": 0.0,
"whtshld": 0.0,
- "whttf": 0.0,
+ "m_tf_coils_total": 0.0,
"whttflgs": 0.0,
"width": 110.0,
"windspeed": 4.0,
@@ -8760,7 +8760,7 @@
"aintmass": "intercoil structure mass (kg)",
"m_ions_total_amu": "average mass of all ions (amu)",
"airtemp": "ambient air temperature (degrees Celsius)",
- "aiwp": "winding pack turn insulation area per coil (m2)",
+ "a_tf_coil_wp_turn_insulation": "winding pack turn insulation area per coil (m2)",
"alam": "",
"alfapf": "smoothing parameter used in PF coil current calculation at the beginning of pulse (BoP)",
"all_array_hotfix_len": "",
@@ -8886,7 +8886,7 @@
"b_cs_limit_max": "Central solenoid max field limit [T]",
"b_cs_peak_flat_top_end": "maximum field in central solenoid at end of flat-top (EoF) (T)",
"b_cs_peak_pulse_start": "maximum field in central solenoid at beginning of pulse (T)",
- "bmaxtf": "mean peak field at TF coil (T)",
+ "b_tf_inboard_peak": "mean peak field at TF coil (T)",
"bmaxtfrp": "peak field at TF conductor with ripple (T)",
"bmn": "relative radial field perturbation",
"bmxlim": "maximum peak toroidal field (T) (`constraint equation 25`)",
@@ -9027,8 +9027,8 @@
"casthi": "inboard TF coil case plasma side thickness (m) (calculated for stellarators)",
"casthi_fraction": "inboard TF coil case plasma side thickness as a fraction of dr_tf_inboard",
"casthi_is_fraction": "logical switch to make casthi a fraction of TF coil thickness (`casthi_fraction`)",
- "casths": "inboard TF coil sidewall case thickness (m) (calculated for stellarators)",
- "casths_fraction": "inboard TF coil sidewall case thickness as a fraction of tftort",
+ "dx_tf_side_case": "inboard TF coil sidewall case thickness (m) (calculated for stellarators)",
+ "casths_fraction": "inboard TF coil sidewall case thickness as a fraction of dx_tf_inboard_out_toroidal",
"cboot": "bootstrap current fraction multiplier (`i_bootstrap_current=1`)",
"ccl0": "",
"ccl0_ma": "PF group current array, flux-swing cancellation current (MA)\n Input if i_pf_current=0, computed otherwise",
@@ -9365,7 +9365,7 @@
"error_type": "",
"errors_on": "",
"esbldgm3": "volume of energy storage equipment building (m3) (not used if `i_pulsed_plant=0`)",
- "estotft": "",
+ "e_tf_magnetic_stored_total": "",
"estotftgj": "total stored energy in the toroidal field (GJ)",
"eta": "",
"etacd": "auxiliary power wall plug to injector efficiency",
@@ -9586,7 +9586,7 @@
"ftmargtf": "f-value for TF coil temperature margin (`constraint equation 36`, `iteration variable 54`)",
"ft_current_ramp_up": "f-value for plasma current ramp-up time (`constraint equation 41`, `iteration variable 66`)",
"ftol": "ftol /1.0e-4/ : error tolerance for HYBRD",
- "ftoroidalgap": "F-value for minimum tftort (`constraint equation 82`)",
+ "ftoroidalgap": "F-value for minimum dx_tf_inboard_out_toroidal (`constraint equation 82`)",
"ftpeak": "f-value for first wall peak temperature (`constraint equation 39`, `iteration variable 63`)",
"f_tritium": "tritium fuel fraction",
"f_tritium_beam": "fraction of beam that is tritium",
@@ -9672,7 +9672,7 @@
"gsmass": "reactor core gravity support mass (kg)",
"gtscale": "switch for a/R scaling of beta_norm_max (`iprofile=0` only):\n\n- =0 do not scale beta_norm_max with eps
\n- =1 scale beta_norm_max with eps, original scaling
\n- =2 scale beta_norm_max with eps, Menard scaling
\n
",
"h": "",
- "h_cp_top": "Vertical distance from the midplane to the top of the tapered section [m]",
+ "z_cp_top": "Vertical distance from the midplane to the top of the tapered section [m]",
"h_ib": "",
"h_ob": "",
"harnum": "cyclotron harmonic frequency number, used in EBW cut-off",
@@ -9691,7 +9691,7 @@
"heat_sink_l": "heat sinks length, width, height (m)",
"heat_sink_w": "heat sinks length, width, height (m)",
"helium": "",
- "helpow": "Heat removal at cryogenic temperature tmpcry (W)",
+ "helpow": "Heat removal at cryogenic temperature temp_tf_cryo (W)",
"helpow_cryal": "Heat removal at cryogenic temperature tcoolin (W)",
"hfac": "H factors for an ignited plasma for each energy confinement time scaling law",
"hfact": "H factor on energy confinement times, radiation corrected (`iteration variable 10`)",
@@ -9879,7 +9879,7 @@
"jcableoh_eof": "central solenoid cable critical current density (A/m2) at end-of-flattop",
"jwdgcrt": "critical current density for winding pack (A/m2)",
"jwdgpro": "allowable TF coil winding pack current density, for dump temperature rise protection (A/m2)",
- "jwptf": "winding pack engineering current density (A/m2)",
+ "j_tf_wp": "winding pack engineering current density (A/m2)",
"k": "",
"k_copper": "Copper thermal conductivity (W/m/K)",
"kallenbach_scan_end": "end value for kallenbach scan parameter",
@@ -9898,10 +9898,10 @@
"kh2o": "thermal conductivity of water (W/m/K)",
"ki": "",
"kron": "",
- "lablcc": "lablcc(ipeqns) : labels describing constraint equations (corresponding itvs)\n
\n- ( 1) Beta (consistency equation) (itv 5)\n
- ( 2) Global power balance (consistency equation) (itv 10,1,2,3,4,6,11)\n
- ( 3) Ion power balance DEPRECATED (itv 10,1,2,3,4,6,11)\n
- ( 4) Electron power balance DEPRECATED (itv 10,1,2,3,4,6,11)\n
- ( 5) Density upper limit (itv 9,1,2,3,4,5,6)\n
- ( 6) (Epsilon x beta poloidal) upper limit (itv 8,1,2,3,4,6)\n
- ( 7) Beam ion density (NBI) (consistency equation) (itv 7)\n
- ( 8) Neutron wall load upper limit (itv 14,1,2,3,4,6)\n
- ( 9) Fusion power upper limit (itv 26,1,2,3,4,6)\n
- (10) Toroidal field 1/R (consistency equation) (itv 12,1,2,3,13 )\n
- (11) Radial build (consistency equation) (itv 3,1,13,16,29,42,61)\n
- (12) Volt second lower limit (STEADY STATE) (itv 15,1,2,3)\n
- (13) Burn time lower limit (PULSE) (itv 21,1,16,17,29,42,44,61)\n (itv 19,1,2,3,6)\n
- (14) Neutral beam decay lengths to plasma centre (NBI) (consistency equation)\n
- (15) LH power threshold limit (itv 103)\n
- (16) Net electric power lower limit (itv 25,1,2,3)\n
- (17) Radiation fraction upper limit (itv 28)\n
- (18) Divertor heat load upper limit (itv 27)\n
- (19) MVA upper limit (itv 30)\n
- (20) Neutral beam tangency radius upper limit (NBI) (itv 33,31,3,13)\n
- (21) Plasma minor radius lower limit (itv 32)\n
- (22) Divertor collisionality upper limit (itv 34,43)\n
- (23) Conducting shell to plasma minor radius ratio upper limit\n (itv 104,1,74)\n
- (24) Beta upper limit (itv 36,1,2,3,4,6,18)\n
- (25) Peak toroidal field upper limit (itv 35,3,13,29)\n
- (26) Central solenoid EOF current density upper limit (i_pf_conductor=0)\n (itv 38,37,41,12)\n
- (27) Central solenoid BOP current density upper limit (i_pf_conductor=0)\n (itv 39,37,41,12)\n
- (28) Fusion gain Q lower limit (itv 45,47,40)\n
- (29) Inboard radial build consistency (itv 3,1,13,16,29,42,61)\n
- (30) Injection power upper limit (itv 46,47,11)\n
- (31) TF coil case stress upper limit (SCTF) (itv 48,56,57,58,59,60,24)\n
- (32) TF coil conduit stress upper limit (SCTF) (itv 49,56,57,58,59,60,24)\n
- (33) I_op / I_critical (TF coil) (SCTF) (itv 50,56,57,58,59,60,24)\n
- (34) Dump voltage upper limit (SCTF) (itv 51,52,56,57,58,59,60,24)\n
- (35) J_winding pack/J_protection upper limit (SCTF) (itv 53,56,57,58,59,60,24)\n
- (36) TF coil temperature margin lower limit (SCTF) (itv 54,55,56,57,58,59,60,24)\n
- (37) Current drive gamma upper limit (itv 40,47)\n
- (38) First wall coolant temperature rise upper limit (itv 62)\n
- (39) First wall peak temperature upper limit (itv 63)\n
- (40) Start-up injection power lower limit (PULSE) (itv 64)\n
- (41) Plasma current ramp-up time lower limit (PULSE) (itv 66,65)\n
- (42) Cycle time lower limit (PULSE) (itv 17,67,65)\n
- (43) Average centrepost temperature\n (TART) (consistency equation) (itv 13,20,69,70)\n
- (44) Peak centrepost temperature upper limit (TART) (itv 68,69,70)\n
- (45) Edge safety factor lower limit (TART) (itv 71,1,2,3)\n
- (46) Equation for Ip/Irod upper limit (TART) (itv 72,2,60)\n
- (47) NOT USED\n
- (48) Poloidal beta upper limit (itv 79,2,3,18)\n
- (49) NOT USED\n
- (50) IFE repetition rate upper limit (IFE)\n
- (51) Startup volt-seconds consistency (PULSE) (itv 16,29,3,1)\n
- (52) Tritium breeding ratio lower limit (itv 89,90,91)\n
- (53) Neutron fluence on TF coil upper limit (itv 92,93,94)\n
- (54) Peak TF coil nuclear heating upper limit (itv 95,93,94)\n
- (55) Vacuum vessel helium concentration upper limit i_blanket_type =2 (itv 96,93,94)\n
- (56) Pseparatrix/Rmajor upper limit (itv 97,1,3)\n
- (57) NOT USED\n
- (58) NOT USED\n
- (59) Neutral beam shine-through fraction upper limit (NBI) (itv 105,6,19,4 )\n
- (60) Central solenoid temperature margin lower limit (SCTF) (itv 106)\n
- (61) Minimum availability value (itv 107)\n
- (62) f_alpha_energy_confinement the ratio of particle to energy confinement times (itv 110)\n
- (63) The number of ITER-like vacuum pumps niterpump < tfno (itv 111)\n
- (64) Zeff less than or equal to zeffmax (itv 112)\n
- (65) Dump time set by VV loads (itv 56, 113)\n
- (66) Limit on rate of change of energy in poloidal field\n (Use iteration variable 65(t_current_ramp_up), 115)\n
- (67) Simple Radiation Wall load limit (itv 116, 4,6)\n
- (68) Psep * Bt / qAR upper limit (itv 117)\n
- (69) ensure separatrix power = the value from Kallenbach divertor (itv 118)\n
- (70) ensure that teomp = separatrix temperature in the pedestal profile,\n (itv 119 (tesep))\n
- (71) ensure that neomp = separatrix density (nesep) x neratio\n
- (72) central solenoid shear stress limit (Tresca yield criterion) (itv 123 foh_stress)\n
- (73) Psep >= Plh + Paux (itv 137 (fplhsep))\n
- (74) TFC quench < tmax_croco (itv 141 (fcqt))\n
- (75) TFC current/copper area < Maximum (itv 143 f_coppera_m2)\n
- (76) Eich critical separatrix density\n
- (77) TF coil current per turn upper limit\n
- (78) Reinke criterion impurity fraction lower limit (itv 147 freinke)\n
- (79) Peak CS field upper limit (itv 149 fb_cs_limit_max)\n
- (80) Divertor power lower limit pdivt (itv 153 fpdivlim)\n
- (81) Ne(0) > ne(ped) constraint (itv 154 fne0)\n
- (82) toroidalgap > tftort constraint (itv 171 ftoroidalgap)\n
- (83) Radial build consistency for stellarators (itv 172 f_avspace)\n
- (84) Lower limit for beta (itv 173 fbeta_min)\n
- (85) Constraint for CP lifetime\n
- (86) Constraint for TF coil turn dimension\n
- (87) Constraint for cryogenic power\n
- (88) Constraint for TF coil strain absolute value\n
- (89) Constraint for CS coil quench protection\n
- (90) Checking if the design point is ECRH ignitable (itv 164 fecrh_ignition)
\n\n\n\n",
+ "lablcc": "lablcc(ipeqns) : labels describing constraint equations (corresponding itvs)\n
\n- ( 1) Beta (consistency equation) (itv 5)\n
- ( 2) Global power balance (consistency equation) (itv 10,1,2,3,4,6,11)\n
- ( 3) Ion power balance DEPRECATED (itv 10,1,2,3,4,6,11)\n
- ( 4) Electron power balance DEPRECATED (itv 10,1,2,3,4,6,11)\n
- ( 5) Density upper limit (itv 9,1,2,3,4,5,6)\n
- ( 6) (Epsilon x beta poloidal) upper limit (itv 8,1,2,3,4,6)\n
- ( 7) Beam ion density (NBI) (consistency equation) (itv 7)\n
- ( 8) Neutron wall load upper limit (itv 14,1,2,3,4,6)\n
- ( 9) Fusion power upper limit (itv 26,1,2,3,4,6)\n
- (10) Toroidal field 1/R (consistency equation) (itv 12,1,2,3,13 )\n
- (11) Radial build (consistency equation) (itv 3,1,13,16,29,42,61)\n
- (12) Volt second lower limit (STEADY STATE) (itv 15,1,2,3)\n
- (13) Burn time lower limit (PULSE) (itv 21,1,16,17,29,42,44,61)\n (itv 19,1,2,3,6)\n
- (14) Neutral beam decay lengths to plasma centre (NBI) (consistency equation)\n
- (15) LH power threshold limit (itv 103)\n
- (16) Net electric power lower limit (itv 25,1,2,3)\n
- (17) Radiation fraction upper limit (itv 28)\n
- (18) Divertor heat load upper limit (itv 27)\n
- (19) MVA upper limit (itv 30)\n
- (20) Neutral beam tangency radius upper limit (NBI) (itv 33,31,3,13)\n
- (21) Plasma minor radius lower limit (itv 32)\n
- (22) Divertor collisionality upper limit (itv 34,43)\n
- (23) Conducting shell to plasma minor radius ratio upper limit\n (itv 104,1,74)\n
- (24) Beta upper limit (itv 36,1,2,3,4,6,18)\n
- (25) Peak toroidal field upper limit (itv 35,3,13,29)\n
- (26) Central solenoid EOF current density upper limit (i_pf_conductor=0)\n (itv 38,37,41,12)\n
- (27) Central solenoid BOP current density upper limit (i_pf_conductor=0)\n (itv 39,37,41,12)\n
- (28) Fusion gain Q lower limit (itv 45,47,40)\n
- (29) Inboard radial build consistency (itv 3,1,13,16,29,42,61)\n
- (30) Injection power upper limit (itv 46,47,11)\n
- (31) TF coil case stress upper limit (SCTF) (itv 48,56,57,58,59,60,24)\n
- (32) TF coil conduit stress upper limit (SCTF) (itv 49,56,57,58,59,60,24)\n
- (33) I_op / I_critical (TF coil) (SCTF) (itv 50,56,57,58,59,60,24)\n
- (34) Dump voltage upper limit (SCTF) (itv 51,52,56,57,58,59,60,24)\n
- (35) J_winding pack/J_protection upper limit (SCTF) (itv 53,56,57,58,59,60,24)\n
- (36) TF coil temperature margin lower limit (SCTF) (itv 54,55,56,57,58,59,60,24)\n
- (37) Current drive gamma upper limit (itv 40,47)\n
- (38) First wall coolant temperature rise upper limit (itv 62)\n
- (39) First wall peak temperature upper limit (itv 63)\n
- (40) Start-up injection power lower limit (PULSE) (itv 64)\n
- (41) Plasma current ramp-up time lower limit (PULSE) (itv 66,65)\n
- (42) Cycle time lower limit (PULSE) (itv 17,67,65)\n
- (43) Average centrepost temperature\n (TART) (consistency equation) (itv 13,20,69,70)\n
- (44) Peak centrepost temperature upper limit (TART) (itv 68,69,70)\n
- (45) Edge safety factor lower limit (TART) (itv 71,1,2,3)\n
- (46) Equation for Ip/Irod upper limit (TART) (itv 72,2,60)\n
- (47) NOT USED\n
- (48) Poloidal beta upper limit (itv 79,2,3,18)\n
- (49) NOT USED\n
- (50) IFE repetition rate upper limit (IFE)\n
- (51) Startup volt-seconds consistency (PULSE) (itv 16,29,3,1)\n
- (52) Tritium breeding ratio lower limit (itv 89,90,91)\n
- (53) Neutron fluence on TF coil upper limit (itv 92,93,94)\n
- (54) Peak TF coil nuclear heating upper limit (itv 95,93,94)\n
- (55) Vacuum vessel helium concentration upper limit i_blanket_type =2 (itv 96,93,94)\n
- (56) Pseparatrix/Rmajor upper limit (itv 97,1,3)\n
- (57) NOT USED\n
- (58) NOT USED\n
- (59) Neutral beam shine-through fraction upper limit (NBI) (itv 105,6,19,4 )\n
- (60) Central solenoid temperature margin lower limit (SCTF) (itv 106)\n
- (61) Minimum availability value (itv 107)\n
- (62) f_alpha_energy_confinement the ratio of particle to energy confinement times (itv 110)\n
- (63) The number of ITER-like vacuum pumps niterpump < tfno (itv 111)\n
- (64) Zeff less than or equal to zeffmax (itv 112)\n
- (65) Dump time set by VV loads (itv 56, 113)\n
- (66) Limit on rate of change of energy in poloidal field\n (Use iteration variable 65(t_current_ramp_up), 115)\n
- (67) Simple Radiation Wall load limit (itv 116, 4,6)\n
- (68) Psep * Bt / qAR upper limit (itv 117)\n
- (69) ensure separatrix power = the value from Kallenbach divertor (itv 118)\n
- (70) ensure that teomp = separatrix temperature in the pedestal profile,\n (itv 119 (tesep))\n
- (71) ensure that neomp = separatrix density (nesep) x neratio\n
- (72) central solenoid shear stress limit (Tresca yield criterion) (itv 123 foh_stress)\n
- (73) Psep >= Plh + Paux (itv 137 (fplhsep))\n
- (74) TFC quench < tmax_croco (itv 141 (fcqt))\n
- (75) TFC current/copper area < Maximum (itv 143 f_coppera_m2)\n
- (76) Eich critical separatrix density\n
- (77) TF coil current per turn upper limit\n
- (78) Reinke criterion impurity fraction lower limit (itv 147 freinke)\n
- (79) Peak CS field upper limit (itv 149 fb_cs_limit_max)\n
- (80) Divertor power lower limit pdivt (itv 153 fpdivlim)\n
- (81) Ne(0) > ne(ped) constraint (itv 154 fne0)\n
- (82) toroidalgap > dx_tf_inboard_out_toroidal constraint (itv 171 ftoroidalgap)\n
- (83) Radial build consistency for stellarators (itv 172 f_avspace)\n
- (84) Lower limit for beta (itv 173 fbeta_min)\n
- (85) Constraint for CP lifetime\n
- (86) Constraint for TF coil turn dimension\n
- (87) Constraint for cryogenic power\n
- (88) Constraint for TF coil strain absolute value\n
- (89) Constraint for CS coil quench protection\n
- (90) Checking if the design point is ECRH ignitable (itv 164 fecrh_ignition)
\n\n\n\n",
"lablmm": "lablmm(ipnfoms) : labels describing figures of merit:\n
\n- ( 1) major radius\n
- ( 2) not used\n
- ( 3) neutron wall load\n
- ( 4) P_tf + P_pf\n
- ( 5) fusion gain Q\n
- ( 6) cost of electricity\n
- ( 7) capital cost (direct cost if ireactor=0,\n constructed cost otherwise)\n
- ( 8) aspect ratio\n
- ( 9) divertor heat load\n
- (10) toroidal field\n
- (11) total injected power\n
- (12) hydrogen plant capital cost OBSOLETE\n
- (13) hydrogen production rate OBSOLETE\n
- (14) pulse length\n
- (15) plant availability factor (N.B. requires\n iavail=1 to be set)\n
- (16) linear combination of major radius (minimised) and pulse length (maximised)\n note: FoM should be minimised only!\n
- (17) net electrical output\n
- (18) Null Figure of Merit\n
- (19) linear combination of big Q and pulse length (maximised)\n note: FoM should be minimised only!
\n\n\n",
- "lablxc": "lablxc(ipnvars) : labels describing iteration variables\n
\n- ( 1) aspect\n
- ( 2) bt\n
- ( 3) rmajor\n
- ( 4) te\n
- ( 5) beta\n
- ( 6) dene\n
- ( 7) f_nd_beam_electron\n
- ( 8) fbeta_poloidal_eps (f-value for equation 6)\n
- ( 9) fdene (f-value for equation 5)\n
- (10) hfact\n
- (11) pheat\n
- (12) oacdcp\n
- (13) dr_tf_inboard (NOT RECOMMENDED)\n
- (14) fwalld (f-value for equation 8)\n
- (15) fvs (f-value for equation 12)\n
- (16) dr_cs\n
- (17) tdwell\n
- (18) q\n
- (19) beam_energy\n
- (20) temp_cp_average\n
- (21) ftburn (f-value for equation 13)\n
- (22) NOT USED\n
- (23) fcoolcp\n
- (24) NOT USED\n
- (25) fpnetel (f-value for equation 16)\n
- (26) ffuspow (f-value for equation 9)\n
- (27) fhldiv (f-value for equation 18)\n
- (28) fradpwr (f-value for equation 17), total radiation fraction\n
- (29) dr_bore\n
- (30) fmva (f-value for equation 19)\n
- (31) gapomin\n
- (32) frminor (f-value for equation 21)\n
- (33) fportsz (f-value for equation 20)\n
- (34) fdivcol (f-value for equation 22)\n
- (35) fpeakb (f-value for equation 25)\n
- (36) fbeta_max (f-value for equation 24)\n
- (37) j_cs_flat_top_end\n
- (38) fjohc (f-value for equation 26)\n
- (39) fjohc0 (f-value for equation 27)\n
- (40) fgamcd (f-value for equation 37)\n
- (41) f_j_cs_start_pulse_end_flat_top\n
- (42) dr_cs_tf_gap\n
- (43) NOT USED\n
- (44) fvsbrnni\n
- (45) fqval (f-value for equation 28)\n
- (46) fpinj (f-value for equation 30)\n
- (47) feffcd\n
- (48) fstrcase (f-value for equation 31)\n
- (49) fstrcond (f-value for equation 32)\n
- (50) fiooic (f-value for equation 33)\n
- (51) fvdump (f-value for equation 34)\n
- (52) vdalw\n
- (53) fjprot (f-value for equation 35)\n
- (54) ftmargtf (f-value for equation 36)\n
- (55) NOT USED\n
- (56) tdmptf\n
- (57) thkcas\n
- (58) thwcndut\n
- (59) fcutfsu\n
- (60) cpttf\n
- (61) dr_shld_vv_gap_inboard\n
- (62) fdtmp (f-value for equation 38)\n
- (63) ftpeak (f-value for equation 39)\n
- (64) fauxmn (f-value for equation 40)\n
- (65) tohs\n
- (66) ftohs (f-value for equation 41)\n
- (67) ftcycl (f-value for equation 42)\n
- (68) fptemp (f-value for equation 44)\n
- (69) rcool\n
- (70) vcool\n
- (71) fq (f-value for equation 45)\n
- (72) fipir (f-value for equation 46)\n
- (73) dr_fw_plasma_gap_inboard\n
- (74) dr_fw_plasma_gap_outboard\n
- (75) tfootfi\n
- (76) NOT USED\n
- (77) NOT USED\n
- (78) NOT USED\n
- (79) fbeta_poloidal (f-value for equation 48)\n
- (80) NOT USED\n
- (81) edrive\n
- (82) drveff\n
- (83) tgain\n
- (84) chrad\n
- (85) pdrive\n
- (86) frrmax (f-value for equation 50)\n
- (87) NOT USED\n
- (88) NOT USED\n
- (89) ftbr (f-value for equation 52)\n
- (90) blbuith\n
- (91) blbuoth\n
- (92) fflutf (f-value for equation 53)\n
- (93) dr_shld_inboard\n
- (94) dr_shld_outboard\n
- (95) fptfnuc (f-value for equation 54)\n
- (96) fvvhe (f-value for equation 55)\n
- (97) fpsepr (f-value for equation 56)\n
- (98) f_blkt_li6_enrichment\n
- (99) NOT USED\n
- (100) NOT USED\n
- (101) NOT USED\n
- (102) fimpvar\n
- (103) fl_h_threshold (f-value for equation 15)\n
- (104)fr_conducting_wall (f-value for equation 23)\n
- (105) fnbshinef (f-value for equation 59)\n
- (106) ftmargoh (f-value for equation 60)\n
- (107) favail (f-value for equation 61)\n
- (108) breeder_f: Volume of Li4SiO4 / (Volume of Be12Ti + Li4SiO4)\n
- (109) f_nd_alpha_electron: thermal alpha density / electron density\n
- (110) falpha_energy_confinement: Lower limit on f_alpha_energy_confinement the ratio of alpha\n
- (111) fniterpump: f-value for constraint that number\n
- (112) fzeffmax: f-value for max Zeff (f-value for equation 64)\n
- (113) ftaucq: f-value for minimum quench time (f-value for equation 65)\n
- (114) len_fw_channel: Length of a single first wall channel\n
- (115) fpoloidalpower: f-value for max rate of change of\n
- (116) fradwall: f-value for radiation wall load limit (eq. 67)\n
- (117) fpsepbqar: f-value for Psep*Bt/qar upper limit (eq. 68)\n
- (118) fpsep: f-value to ensure separatrix power is less than\n
- (119) tesep: separatrix temperature calculated by the Kallenbach divertor model\n
- (120) ttarget: Plasma temperature adjacent to divertor sheath [eV]\n
- (121) neratio: ratio of mean SOL density at OMP to separatrix density at OMP\n
- (122) f_a_cs_steel : streel fraction of Central Solenoid\n
- (123) foh_stress : f-value for CS coil Tresca yield criterion (f-value for eq. 72)\n
- (124) qtargettotal : Power density on target including surface recombination [W/m2]\n
- (125) fimp(3) : Beryllium density fraction relative to electron density\n
- (126) fimp(4) : Carbon density fraction relative to electron density\n
- (127) fimp(5) : Nitrogen fraction relative to electron density\n
- (128) fimp(6) : Oxygen density fraction relative to electron density\n
- (129) fimp(7) : Neon density fraction relative to electron density\n
- (130) fimp(8) : Silicon density fraction relative to electron density\n
- (131) fimp(9) : Argon density fraction relative to electron density\n
- (132) fimp(10) : Iron density fraction relative to electron density\n
- (133) fimp(11) : Nickel density fraction relative to electron density\n
- (134) fimp(12) : Krypton density fraction relative to electron density\n
- (135) fimp(13) : Xenon density fraction relative to electron density\n
- (136) fimp(14) : Tungsten density fraction relative to electron density\n
- (137) fplhsep (f-value for equation 73)\n
- (138) rebco_thickness : thickness of REBCO layer in tape (m)\n
- (139) copper_thick : thickness of copper layer in tape (m)\n
- (140) dr_tf_wp : radial thickness of TFC winding pack (m)\n
- (141) fcqt : TF coil quench temperature < tmax_croco (f-value for equation 74)\n
- (142) nesep : electron density at separatrix [m-3]\n
- (143) f_copperA_m2 : TF coil current / copper area < Maximum value\n
- (144) fnesep : Eich critical electron density at separatrix\n
- (145) fgwped : fraction of Greenwald density to set as pedestal-top density\n
- (146) fcpttf : F-value for TF coil current per turn limit (constraint equation 77)\n
- (147) freinke : F-value for Reinke detachment criterion (constraint equation 78)\n
- (148) fzactual : fraction of impurity at SOL with Reinke detachment criterion\n
- (149) fb_cs_limit_max : F-value for max peak CS field (con. 79, itvar 149)\n
- (152) fb_cs_limit_max : Ratio of separatrix density to Greenwald density\n
- (153) fpdivlim : F-value for minimum pdivt (con. 80)\n
- (154) fne0 : F-value for ne(0) > ne(ped) (con. 81)\n
- (155) pfusife : IFE input fusion power (MW) (ifedrv=3 only)\n
- (156) rrin : Input IFE repetition rate (Hz) (ifedrv=3 only)\n
- (157) fvs_cs_pf_total_ramp : F-value for available to required start up flux (con. 51)\n
- (158) croco_thick : Thickness of CroCo copper tube (m)\n
- (159) ftoroidalgap : F-value for toroidalgap > tftort constraint (con. 82)\n
- (160) f_avspace (f-value for equation 83)\n
- (161) fbeta_min (f-value for equation 84)\n
- (162) r_cp_top : Top outer radius of the centropost (ST only) (m)\n
- (163) f_t_turn_tf : f-value for TF coils WP trurn squared dimension constraint\n
- (164) f_crypmw : f-value for cryogenic plant power\n
- (165) fstr_wp : f-value for TF coil strain absolute value\n
- (166) f_copperaoh_m2 : CS coil current /copper area < Maximum value\n
- (167) fecrh_ignition: f-value for equation 90\n
- (168) EMPTY : Description\n
- (169) EMPTY : Description\n
- (170) EMPTY : Description\n
- (171) EMPTY : Description\n
- (172) EMPTY : Description\n
- (173) EMPTY : Description\n
- (174) EMPTY : Description\n
- (175) EMPTY : Description\n\n\n\n",
- "lablxc": "lablxc(ipnvars) : labels describing iteration variables
\n
\n- ( 1) aspect\n
- ( 2) bt\n
- ( 3) rmajor\n
- ( 4) te\n
- ( 5) beta\n
- ( 6) dene\n
- ( 7) f_nd_beam_electron\n
- ( 8) fbeta_poloidal_eps (f-value for equation 6)\n
- ( 9) fdene (f-value for equation 5)\n
- (10) hfact\n
- (11) pheat\n
- (12) oacdcp\n
- (13) dr_tf_inboard (NOT RECOMMENDED)\n
- (14) fwalld (f-value for equation 8)\n
- (15) fvs (f-value for equation 12)\n
- (16) dr_cs\n
- (17) t_between_pulse\n
- (18) q\n
- (19) beam_energy\n
- (20) temp_cp_average\n
- (21) ft_burn (f-value for equation 13)\n
- (22) NOT USED\n
- (23) fcoolcp\n
- (24) NOT USED\n
- (25) fpnetel (f-value for equation 16)\n
- (26) ffuspow (f-value for equation 9)\n
- (27) fhldiv (f-value for equation 18)\n
- (28) fradpwr (f-value for equation 17), total radiation fraction\n
- (29) dr_bore\n
- (30) fmva (f-value for equation 19)\n
- (31) gapomin\n
- (32) frminor (f-value for equation 21)\n
- (33) fportsz (f-value for equation 20)\n
- (34) fdivcol (f-value for equation 22)\n
- (35) fpeakb (f-value for equation 25)\n
- (36) fbeta_max (f-value for equation 24)\n
- (37) j_cs_flat_top_end\n
- (38) fjohc (f-value for equation 26)\n
- (39) fjohc0 (f-value for equation 27)\n
- (40) fgamcd (f-value for equation 37)\n
- (41) f_j_cs_start_pulse_end_flat_top\n
- (42) dr_cs_tf_gap\n
- (43) NOT USED\n
- (44) fvsbrnni\n
- (45) fqval (f-value for equation 28)\n
- (46) fpinj (f-value for equation 30)\n
- (47) feffcd\n
- (48) fstrcase (f-value for equation 31)\n
- (49) fstrcond (f-value for equation 32)\n
- (50) fiooic (f-value for equation 33)\n
- (51) fvdump (f-value for equation 34)\n
- (52) vdalw\n
- (53) fjprot (f-value for equation 35)\n
- (54) ftmargtf (f-value for equation 36)\n
- (55) NOT USED\n
- (56) tdmptf\n
- (57) thkcas\n
- (58) thwcndut\n
- (59) fcutfsu\n
- (60) cpttf\n
- (61) dr_shld_vv_gap_inboard\n
- (62) fdtmp (f-value for equation 38)\n
- (63) ftpeak (f-value for equation 39)\n
- (64) fauxmn (f-value for equation 40)\n
- (65) t_current_ramp_up\n
- (66) ft_current_ramp_up (f-value for equation 41)\n
- (67) ftcycl (f-value for equation 42)\n
- (68) fptemp (f-value for equation 44)\n
- (69) rcool\n
- (70) vcool\n
- (71) fq (f-value for equation 45)\n
- (72) fipir (f-value for equation 46)\n
- (73) dr_fw_plasma_gap_inboard\n
- (74) dr_fw_plasma_gap_outboard\n
- (75) tfootfi\n
- (76) NOT USED\n
- (77) NOT USED\n
- (78) NOT USED\n
- (79) fbetap (f-value for equation 48)\n
- (80) NOT USED\n
- (81) edrive\n
- (82) drveff\n
- (83) tgain\n
- (84) chrad\n
- (85) pdrive\n
- (86) frrmax (f-value for equation 50)\n
- (87) NOT USED\n
- (88) NOT USED\n
- (89) ftbr (f-value for equation 52)\n
- (90) blbuith\n
- (91) blbuoth\n
- (92) fflutf (f-value for equation 53)\n
- (93) dr_shld_inboard\n
- (94) dr_shld_outboard\n
- (95) fptfnuc (f-value for equation 54)\n
- (96) fvvhe (f-value for equation 55)\n
- (97) fpsepr (f-value for equation 56)\n
- (98) f_blkt_li6_enrichment\n
- (99) NOT USED\n
- (100) NOT USED\n
- (101) NOT USED\n
- (102) fimpvar\n
- (103) fl_h_threshold (f-value for equation 15)\n
- (104)fr_conducting_wall (f-value for equation 23)\n
- (105) fnbshinef (f-value for equation 59)\n
- (106) ftmargoh (f-value for equation 60)\n
- (107) favail (f-value for equation 61)\n
- (108) breeder_f: Volume of Li4SiO4 / (Volume of Be12Ti + Li4SiO4)\n
- (109) f_nd_alpha_electron: thermal alpha density / electron density\n
- (110) falpha_energy_confinement: Lower limit on f_alpha_energy_confinement the ratio of alpha\n
- (111) fniterpump: f-value for constraint that number\n
- (112) fzeffmax: f-value for max Zeff (f-value for equation 64)\n
- (113) ftaucq: f-value for minimum quench time (f-value for equation 65)\n
- (114) len_fw_channel: Length of a single first wall channel\n
- (115) fpoloidalpower: f-value for max rate of change of\n
- (116) fradwall: f-value for radiation wall load limit (eq. 67)\n
- (117) fpsepbqar: f-value for Psep*Bt/qar upper limit (eq. 68)\n
- (118) fpsep: f-value to ensure separatrix power is less than\n
- (119) tesep: separatrix temperature calculated by the Kallenbach divertor model\n
- (120) ttarget: Plasma temperature adjacent to divertor sheath [eV]\n
- (121) neratio: ratio of mean SOL density at OMP to separatrix density at OMP\n
- (122) f_a_cs_steel : streel fraction of Central Solenoid\n
- (123) foh_stress : f-value for CS coil Tresca yield criterion (f-value for eq. 72)\n
- (124) qtargettotal : Power density on target including surface recombination [W/m2]\n
- (125) fimp(3) : Beryllium density fraction relative to electron density\n
- (126) fimp(4) : Carbon density fraction relative to electron density\n
- (127) fimp(5) : Nitrogen fraction relative to electron density\n
- (128) fimp(6) : Oxygen density fraction relative to electron density\n
- (129) fimp(7) : Neon density fraction relative to electron density\n
- (130) fimp(8) : Silicon density fraction relative to electron density\n
- (131) fimp(9) : Argon density fraction relative to electron density\n
- (132) fimp(10) : Iron density fraction relative to electron density\n
- (133) fimp(11) : Nickel density fraction relative to electron density\n
- (134) fimp(12) : Krypton density fraction relative to electron density\n
- (135) fimp(13) : Xenon density fraction relative to electron density\n
- (136) fimp(14) : Tungsten density fraction relative to electron density\n
- (137) fplhsep (f-value for equation 73)\n
- (138) rebco_thickness : thickness of REBCO layer in tape (m)\n
- (139) copper_thick : thickness of copper layer in tape (m)\n
- (140) dr_tf_wp : radial thickness of TFC winding pack (m)\n
- (141) fcqt : TF coil quench temperature < tmax_croco (f-value for equation 74)\n
- (142) nesep : electron density at separatrix [m-3]\n
- (143) f_copperA_m2 : TF coil current / copper area < Maximum value\n
- (144) fnesep : Eich critical electron density at separatrix\n
- (145) fgwped : fraction of Greenwald density to set as pedestal-top density\n
- (146) fcpttf : F-value for TF coil current per turn limit (constraint equation 77)\n
- (147) freinke : F-value for Reinke detachment criterion (constraint equation 78)\n
- (148) fzactual : fraction of impurity at SOL with Reinke detachment criterion\n
- (149) fb_cs_limit_max : F-value for max peak CS field (con. 79, itvar 149)\n
- (152) fb_cs_limit_max : Ratio of separatrix density to Greenwald density\n
- (153) fpdivlim : F-value for minimum pdivt (con. 80)\n
- (154) fne0 : F-value for ne(0) > ne(ped) (con. 81)\n
- (155) pfusife : IFE input fusion power (MW) (ifedrv=3 only)\n
- (156) rrin : Input IFE repetition rate (Hz) (ifedrv=3 only)\n
- (157) fvs_cs_pf_total_ramp : F-value for available to required start up flux (con. 51)\n
- (158) croco_thick : Thickness of CroCo copper tube (m)\n
- (159) ftoroidalgap : F-value for toroidalgap > tftort constraint (con. 82)\n
- (160) f_avspace (f-value for equation 83)\n
- (161) fbeta_min (f-value for equation 84)\n
- (162) r_cp_top : Top outer radius of the centropost (ST only) (m)\n
- (163) f_t_turn_tf : f-value for TF coils WP trurn squared dimension constraint\n
- (164) f_crypmw : f-value for cryogenic plant power\n
- (165) fstr_wp : f-value for TF coil strain absolute value\n
- (166) f_copperaoh_m2 : CS coil current /copper area < Maximum value\n
- (167) fecrh_ignition: f-value for equation 90\n
- (168) EMPTY : Description\n
- (169) EMPTY : Description\n
- (170) EMPTY : Description\n
- (171) EMPTY : Description\n
- (172) EMPTY : Description\n
- (173) EMPTY : Description\n
- (174) EMPTY : Description\n
- (175) EMPTY : Description\n\n\n\n",
+ "lablxc": "lablxc(ipnvars) : labels describing iteration variables
\n
\n- ( 1) aspect\n
- ( 2) bt\n
- ( 3) rmajor\n
- ( 4) te\n
- ( 5) beta\n
- ( 6) dene\n
- ( 7) f_nd_beam_electron\n
- ( 8) fbeta_poloidal_eps (f-value for equation 6)\n
- ( 9) fdene (f-value for equation 5)\n
- (10) hfact\n
- (11) pheat\n
- (12) oacdcp\n
- (13) dr_tf_inboard (NOT RECOMMENDED)\n
- (14) fwalld (f-value for equation 8)\n
- (15) fvs (f-value for equation 12)\n
- (16) dr_cs\n
- (17) tdwell\n
- (18) q\n
- (19) beam_energy\n
- (20) temp_cp_average\n
- (21) ftburn (f-value for equation 13)\n
- (22) NOT USED\n
- (23) fcoolcp\n
- (24) NOT USED\n
- (25) fpnetel (f-value for equation 16)\n
- (26) ffuspow (f-value for equation 9)\n
- (27) fhldiv (f-value for equation 18)\n
- (28) fradpwr (f-value for equation 17), total radiation fraction\n
- (29) dr_bore\n
- (30) fmva (f-value for equation 19)\n
- (31) gapomin\n
- (32) frminor (f-value for equation 21)\n
- (33) fportsz (f-value for equation 20)\n
- (34) fdivcol (f-value for equation 22)\n
- (35) fpeakb (f-value for equation 25)\n
- (36) fbeta_max (f-value for equation 24)\n
- (37) j_cs_flat_top_end\n
- (38) fjohc (f-value for equation 26)\n
- (39) fjohc0 (f-value for equation 27)\n
- (40) fgamcd (f-value for equation 37)\n
- (41) f_j_cs_start_pulse_end_flat_top\n
- (42) dr_cs_tf_gap\n
- (43) NOT USED\n
- (44) fvsbrnni\n
- (45) fqval (f-value for equation 28)\n
- (46) fpinj (f-value for equation 30)\n
- (47) feffcd\n
- (48) fstrcase (f-value for equation 31)\n
- (49) fstrcond (f-value for equation 32)\n
- (50) fiooic (f-value for equation 33)\n
- (51) fvdump (f-value for equation 34)\n
- (52) vdalw\n
- (53) fjprot (f-value for equation 35)\n
- (54) ftmargtf (f-value for equation 36)\n
- (55) NOT USED\n
- (56) tdmptf\n
- (57) dr_tf_nose_case\n
- (58) thwcndut\n
- (59) fcutfsu\n
- (60) cpttf\n
- (61) dr_shld_vv_gap_inboard\n
- (62) fdtmp (f-value for equation 38)\n
- (63) ftpeak (f-value for equation 39)\n
- (64) fauxmn (f-value for equation 40)\n
- (65) tohs\n
- (66) ftohs (f-value for equation 41)\n
- (67) ftcycl (f-value for equation 42)\n
- (68) fptemp (f-value for equation 44)\n
- (69) rcool\n
- (70) vcool\n
- (71) fq (f-value for equation 45)\n
- (72) fipir (f-value for equation 46)\n
- (73) dr_fw_plasma_gap_inboard\n
- (74) dr_fw_plasma_gap_outboard\n
- (75) tfootfi\n
- (76) NOT USED\n
- (77) NOT USED\n
- (78) NOT USED\n
- (79) fbeta_poloidal (f-value for equation 48)\n
- (80) NOT USED\n
- (81) edrive\n
- (82) drveff\n
- (83) tgain\n
- (84) chrad\n
- (85) pdrive\n
- (86) frrmax (f-value for equation 50)\n
- (87) NOT USED\n
- (88) NOT USED\n
- (89) ftbr (f-value for equation 52)\n
- (90) blbuith\n
- (91) blbuoth\n
- (92) fflutf (f-value for equation 53)\n
- (93) dr_shld_inboard\n
- (94) dr_shld_outboard\n
- (95) fptfnuc (f-value for equation 54)\n
- (96) fvvhe (f-value for equation 55)\n
- (97) fpsepr (f-value for equation 56)\n
- (98) f_blkt_li6_enrichment\n
- (99) NOT USED\n
- (100) NOT USED\n
- (101) NOT USED\n
- (102) fimpvar\n
- (103) fl_h_threshold (f-value for equation 15)\n
- (104)fr_conducting_wall (f-value for equation 23)\n
- (105) fnbshinef (f-value for equation 59)\n
- (106) ftmargoh (f-value for equation 60)\n
- (107) favail (f-value for equation 61)\n
- (108) breeder_f: Volume of Li4SiO4 / (Volume of Be12Ti + Li4SiO4)\n
- (109) f_nd_alpha_electron: thermal alpha density / electron density\n
- (110) falpha_energy_confinement: Lower limit on f_alpha_energy_confinement the ratio of alpha\n
- (111) fniterpump: f-value for constraint that number\n
- (112) fzeffmax: f-value for max Zeff (f-value for equation 64)\n
- (113) ftaucq: f-value for minimum quench time (f-value for equation 65)\n
- (114) len_fw_channel: Length of a single first wall channel\n
- (115) fpoloidalpower: f-value for max rate of change of\n
- (116) fradwall: f-value for radiation wall load limit (eq. 67)\n
- (117) fpsepbqar: f-value for Psep*Bt/qar upper limit (eq. 68)\n
- (118) fpsep: f-value to ensure separatrix power is less than\n
- (119) tesep: separatrix temperature calculated by the Kallenbach divertor model\n
- (120) ttarget: Plasma temperature adjacent to divertor sheath [eV]\n
- (121) neratio: ratio of mean SOL density at OMP to separatrix density at OMP\n
- (122) f_a_cs_steel : streel fraction of Central Solenoid\n
- (123) foh_stress : f-value for CS coil Tresca yield criterion (f-value for eq. 72)\n
- (124) qtargettotal : Power density on target including surface recombination [W/m2]\n
- (125) fimp(3) : Beryllium density fraction relative to electron density\n
- (126) fimp(4) : Carbon density fraction relative to electron density\n
- (127) fimp(5) : Nitrogen fraction relative to electron density\n
- (128) fimp(6) : Oxygen density fraction relative to electron density\n
- (129) fimp(7) : Neon density fraction relative to electron density\n
- (130) fimp(8) : Silicon density fraction relative to electron density\n
- (131) fimp(9) : Argon density fraction relative to electron density\n
- (132) fimp(10) : Iron density fraction relative to electron density\n
- (133) fimp(11) : Nickel density fraction relative to electron density\n
- (134) fimp(12) : Krypton density fraction relative to electron density\n
- (135) fimp(13) : Xenon density fraction relative to electron density\n
- (136) fimp(14) : Tungsten density fraction relative to electron density\n
- (137) fplhsep (f-value for equation 73)\n
- (138) rebco_thickness : thickness of REBCO layer in tape (m)\n
- (139) copper_thick : thickness of copper layer in tape (m)\n
- (140) dr_tf_wp : radial thickness of TFC winding pack (m)\n
- (141) fcqt : TF coil quench temperature < tmax_croco (f-value for equation 74)\n
- (142) nesep : electron density at separatrix [m-3]\n
- (143) f_copperA_m2 : TF coil current / copper area < Maximum value\n
- (144) fnesep : Eich critical electron density at separatrix\n
- (145) fgwped : fraction of Greenwald density to set as pedestal-top density\n
- (146) fcpttf : F-value for TF coil current per turn limit (constraint equation 77)\n
- (147) freinke : F-value for Reinke detachment criterion (constraint equation 78)\n
- (148) fzactual : fraction of impurity at SOL with Reinke detachment criterion\n
- (149) fb_cs_limit_max : F-value for max peak CS field (con. 79, itvar 149)\n
- (152) fb_cs_limit_max : Ratio of separatrix density to Greenwald density\n
- (153) fpdivlim : F-value for minimum pdivt (con. 80)\n
- (154) fne0 : F-value for ne(0) > ne(ped) (con. 81)\n
- (155) pfusife : IFE input fusion power (MW) (ifedrv=3 only)\n
- (156) rrin : Input IFE repetition rate (Hz) (ifedrv=3 only)\n
- (157) fvs_cs_pf_total_ramp : F-value for available to required start up flux (con. 51)\n
- (158) croco_thick : Thickness of CroCo copper tube (m)\n
- (159) ftoroidalgap : F-value for toroidalgap > dx_tf_inboard_out_toroidal constraint (con. 82)\n
- (160) f_avspace (f-value for equation 83)\n
- (161) fbeta_min (f-value for equation 84)\n
- (162) r_cp_top : Top outer radius of the centropost (ST only) (m)\n
- (163) f_t_turn_tf : f-value for TF coils WP trurn squared dimension constraint\n
- (164) f_crypmw : f-value for cryogenic plant power\n
- (165) fstr_wp : f-value for TF coil strain absolute value\n
- (166) f_copperaoh_m2 : CS coil current /copper area < Maximum value\n
- (167) fecrh_ignition: f-value for equation 90\n
- (168) EMPTY : Description\n
- (169) EMPTY : Description\n
- (170) EMPTY : Description\n
- (171) EMPTY : Description\n
- (172) EMPTY : Description\n
- (173) EMPTY : Description\n
- (174) EMPTY : Description\n
- (175) EMPTY : Description\n\n\n\n",
+ "lablxc": "lablxc(ipnvars) : labels describing iteration variables
\n
\n- ( 1) aspect\n
- ( 2) bt\n
- ( 3) rmajor\n
- ( 4) te\n
- ( 5) beta\n
- ( 6) dene\n
- ( 7) f_nd_beam_electron\n
- ( 8) fbeta_poloidal_eps (f-value for equation 6)\n
- ( 9) fdene (f-value for equation 5)\n
- (10) hfact\n
- (11) pheat\n
- (12) oacdcp\n
- (13) dr_tf_inboard (NOT RECOMMENDED)\n
- (14) fwalld (f-value for equation 8)\n
- (15) fvs (f-value for equation 12)\n
- (16) dr_cs\n
- (17) t_between_pulse\n
- (18) q\n
- (19) beam_energy\n
- (20) temp_cp_average\n
- (21) ft_burn (f-value for equation 13)\n
- (22) NOT USED\n
- (23) fcoolcp\n
- (24) NOT USED\n
- (25) fpnetel (f-value for equation 16)\n
- (26) ffuspow (f-value for equation 9)\n
- (27) fhldiv (f-value for equation 18)\n
- (28) fradpwr (f-value for equation 17), total radiation fraction\n
- (29) dr_bore\n
- (30) fmva (f-value for equation 19)\n
- (31) gapomin\n
- (32) frminor (f-value for equation 21)\n
- (33) fportsz (f-value for equation 20)\n
- (34) fdivcol (f-value for equation 22)\n
- (35) fpeakb (f-value for equation 25)\n
- (36) fbeta_max (f-value for equation 24)\n
- (37) j_cs_flat_top_end\n
- (38) fjohc (f-value for equation 26)\n
- (39) fjohc0 (f-value for equation 27)\n
- (40) fgamcd (f-value for equation 37)\n
- (41) f_j_cs_start_pulse_end_flat_top\n
- (42) dr_cs_tf_gap\n
- (43) NOT USED\n
- (44) fvsbrnni\n
- (45) fqval (f-value for equation 28)\n
- (46) fpinj (f-value for equation 30)\n
- (47) feffcd\n
- (48) fstrcase (f-value for equation 31)\n
- (49) fstrcond (f-value for equation 32)\n
- (50) fiooic (f-value for equation 33)\n
- (51) fvdump (f-value for equation 34)\n
- (52) vdalw\n
- (53) fjprot (f-value for equation 35)\n
- (54) ftmargtf (f-value for equation 36)\n
- (55) NOT USED\n
- (56) tdmptf\n
- (57) dr_tf_nose_case\n
- (58) thwcndut\n
- (59) fcutfsu\n
- (60) cpttf\n
- (61) dr_shld_vv_gap_inboard\n
- (62) fdtmp (f-value for equation 38)\n
- (63) ftpeak (f-value for equation 39)\n
- (64) fauxmn (f-value for equation 40)\n
- (65) t_current_ramp_up\n
- (66) ft_current_ramp_up (f-value for equation 41)\n
- (67) ftcycl (f-value for equation 42)\n
- (68) fptemp (f-value for equation 44)\n
- (69) rcool\n
- (70) vcool\n
- (71) fq (f-value for equation 45)\n
- (72) fipir (f-value for equation 46)\n
- (73) dr_fw_plasma_gap_inboard\n
- (74) dr_fw_plasma_gap_outboard\n
- (75) tfootfi\n
- (76) NOT USED\n
- (77) NOT USED\n
- (78) NOT USED\n
- (79) fbetap (f-value for equation 48)\n
- (80) NOT USED\n
- (81) edrive\n
- (82) drveff\n
- (83) tgain\n
- (84) chrad\n
- (85) pdrive\n
- (86) frrmax (f-value for equation 50)\n
- (87) NOT USED\n
- (88) NOT USED\n
- (89) ftbr (f-value for equation 52)\n
- (90) blbuith\n
- (91) blbuoth\n
- (92) fflutf (f-value for equation 53)\n
- (93) dr_shld_inboard\n
- (94) dr_shld_outboard\n
- (95) fptfnuc (f-value for equation 54)\n
- (96) fvvhe (f-value for equation 55)\n
- (97) fpsepr (f-value for equation 56)\n
- (98) f_blkt_li6_enrichment\n
- (99) NOT USED\n
- (100) NOT USED\n
- (101) NOT USED\n
- (102) fimpvar\n
- (103) fl_h_threshold (f-value for equation 15)\n
- (104)fr_conducting_wall (f-value for equation 23)\n
- (105) fnbshinef (f-value for equation 59)\n
- (106) ftmargoh (f-value for equation 60)\n
- (107) favail (f-value for equation 61)\n
- (108) breeder_f: Volume of Li4SiO4 / (Volume of Be12Ti + Li4SiO4)\n
- (109) f_nd_alpha_electron: thermal alpha density / electron density\n
- (110) falpha_energy_confinement: Lower limit on f_alpha_energy_confinement the ratio of alpha\n
- (111) fniterpump: f-value for constraint that number\n
- (112) fzeffmax: f-value for max Zeff (f-value for equation 64)\n
- (113) ftaucq: f-value for minimum quench time (f-value for equation 65)\n
- (114) len_fw_channel: Length of a single first wall channel\n
- (115) fpoloidalpower: f-value for max rate of change of\n
- (116) fradwall: f-value for radiation wall load limit (eq. 67)\n
- (117) fpsepbqar: f-value for Psep*Bt/qar upper limit (eq. 68)\n
- (118) fpsep: f-value to ensure separatrix power is less than\n
- (119) tesep: separatrix temperature calculated by the Kallenbach divertor model\n
- (120) ttarget: Plasma temperature adjacent to divertor sheath [eV]\n
- (121) neratio: ratio of mean SOL density at OMP to separatrix density at OMP\n
- (122) f_a_cs_steel : streel fraction of Central Solenoid\n
- (123) foh_stress : f-value for CS coil Tresca yield criterion (f-value for eq. 72)\n
- (124) qtargettotal : Power density on target including surface recombination [W/m2]\n
- (125) fimp(3) : Beryllium density fraction relative to electron density\n
- (126) fimp(4) : Carbon density fraction relative to electron density\n
- (127) fimp(5) : Nitrogen fraction relative to electron density\n
- (128) fimp(6) : Oxygen density fraction relative to electron density\n
- (129) fimp(7) : Neon density fraction relative to electron density\n
- (130) fimp(8) : Silicon density fraction relative to electron density\n
- (131) fimp(9) : Argon density fraction relative to electron density\n
- (132) fimp(10) : Iron density fraction relative to electron density\n
- (133) fimp(11) : Nickel density fraction relative to electron density\n
- (134) fimp(12) : Krypton density fraction relative to electron density\n
- (135) fimp(13) : Xenon density fraction relative to electron density\n
- (136) fimp(14) : Tungsten density fraction relative to electron density\n
- (137) fplhsep (f-value for equation 73)\n
- (138) rebco_thickness : thickness of REBCO layer in tape (m)\n
- (139) copper_thick : thickness of copper layer in tape (m)\n
- (140) dr_tf_wp : radial thickness of TFC winding pack (m)\n
- (141) fcqt : TF coil quench temperature < tmax_croco (f-value for equation 74)\n
- (142) nesep : electron density at separatrix [m-3]\n
- (143) f_copperA_m2 : TF coil current / copper area < Maximum value\n
- (144) fnesep : Eich critical electron density at separatrix\n
- (145) fgwped : fraction of Greenwald density to set as pedestal-top density\n
- (146) fcpttf : F-value for TF coil current per turn limit (constraint equation 77)\n
- (147) freinke : F-value for Reinke detachment criterion (constraint equation 78)\n
- (148) fzactual : fraction of impurity at SOL with Reinke detachment criterion\n
- (149) fb_cs_limit_max : F-value for max peak CS field (con. 79, itvar 149)\n
- (152) fb_cs_limit_max : Ratio of separatrix density to Greenwald density\n
- (153) fpdivlim : F-value for minimum pdivt (con. 80)\n
- (154) fne0 : F-value for ne(0) > ne(ped) (con. 81)\n
- (155) pfusife : IFE input fusion power (MW) (ifedrv=3 only)\n
- (156) rrin : Input IFE repetition rate (Hz) (ifedrv=3 only)\n
- (157) fvs_cs_pf_total_ramp : F-value for available to required start up flux (con. 51)\n
- (158) croco_thick : Thickness of CroCo copper tube (m)\n
- (159) ftoroidalgap : F-value for toroidalgap > dx_tf_inboard_out_toroidal constraint (con. 82)\n
- (160) f_avspace (f-value for equation 83)\n
- (161) fbeta_min (f-value for equation 84)\n
- (162) r_cp_top : Top outer radius of the centropost (ST only) (m)\n
- (163) f_t_turn_tf : f-value for TF coils WP trurn squared dimension constraint\n
- (164) f_crypmw : f-value for cryogenic plant power\n
- (165) fstr_wp : f-value for TF coil strain absolute value\n
- (166) f_copperaoh_m2 : CS coil current /copper area < Maximum value\n
- (167) fecrh_ignition: f-value for equation 90\n
- (168) EMPTY : Description\n
- (169) EMPTY : Description\n
- (170) EMPTY : Description\n
- (171) EMPTY : Description\n
- (172) EMPTY : Description\n
- (173) EMPTY : Description\n
- (174) EMPTY : Description\n
- (175) EMPTY : Description\n\n\n\n",
"lambda_EU": "Decay length in EUROFER [cm]",
"lambda_He_VV": "Decay length [cm]",
"lambda_n_BZ_IB": "Decay length in IB BZ [cm]",
@@ -10423,7 +10423,7 @@
"rat": "plasma chamber wall outgassing rate (Pa-m/s)",
"r_pf_coil_outer": "outer radius of coil i (m)",
"rbld": "sum of thicknesses to the major radius (m)",
- "rbmax": "Radius of maximum TF B-field (m)",
+ "r_b_tf_inboard_peak": "Radius of maximum TF B-field (m)",
"rbrt": "reactor building roof thickness (m)",
"rbvfac": "reactor building volume multiplication factor",
"rbvol": "reactor building volume (m3)",
@@ -10707,13 +10707,13 @@
"tfa": "Horizontal radius of inside edge of TF coil (m)",
"tfacmw": "IFE target factory power (MW)",
"tfacpd": "total steady state TF coil AC power demand (MW)",
- "tfareain": "Area of inboard midplane TF legs (m2)",
+ "a_tf_coil_inboard": "Area of inboard midplane TF legs (m2)",
"tfb": "Vertical radius of inside edge of TF coil (m)",
"len_tf_bus": "TF coil bus length (m)",
"m_tf_bus": "TF coil bus mass (kg)",
- "tfc_current": "Current in each TF coil",
+ "c_tf_coil": "Current in each TF coil",
"tfc_nuc_heating": "Unit nuclear heating in TF coil (W per W of fusion power)",
- "tfc_sidewall_is_fraction": "logical switch to make casths a fraction of TF coil thickness (`casths_fraction`)",
+ "tfc_sidewall_is_fraction": "logical switch to make dx_tf_side_case a fraction of TF coil thickness (`casths_fraction`)",
"tfcbv": "volume of TF coil power supply building (m3) (calculated if TF coils are superconducting)",
"tfckw": "available DC power for charging the TF coils (kW)",
"tfcmw": "Peak power per TF power supply (MW)",
@@ -10721,7 +10721,7 @@
"tfcryoarea": "surface area of toroidal shells covering TF coils (m2)",
"dr_tf_inboard": "inboard TF coil thickness, (centrepost for ST) (m)\n (input, calculated or `iteration variable 13`)",
"tficrn": "TF coil half-width - inner dr_bore (m)",
- "tfind": "TF coil inductance (H)",
+ "ind_tf_coil": "TF coil inductance (H)",
"tfinsgap": "TF coil WP insertion gap (m)",
"tfjtsmw": "TF joints resistive power losses (MW)",
"tflegmw": "TF coil outboard leg resistive power (MW)",
@@ -10734,7 +10734,7 @@
"tfsao": "area of the outboard TF coil legs (m2)",
"dr_tf_outboard": "Outboard TF coil thickness (m)",
"tftmp": "peak helium coolant temperature in TF coils and PF coils (K)",
- "tftort": "TF coil toroidal thickness (m)",
+ "dx_tf_inboard_out_toroidal": "TF coil toroidal thickness (m)",
"dr_tf_shld_gap": "Minimum metal-to-metal gap between TF coil and thermal shield (m)",
"temp_fw_max": "maximum temperature of first wall material (K) (`i_thermal_electric_conversion>1`)",
"tgain": "IFE target gain (if `ifedrv = 0`) (`iteration variable 83`)",
@@ -10742,7 +10742,7 @@
"thcomp": "",
"t_fusion_ramp": "heating time, after current ramp up (s)",
"theta": "",
- "theta_coil": "Half toroidal angular extent of a single TF coil inboard leg",
+ "rad_tf_coil_toroidal": "Half toroidal angular extent of a single TF coil inboard leg",
"thick_bp_ib": "",
"thick_bp_ob": "",
"thick_bss_ib": "",
@@ -10756,7 +10756,7 @@
"thick_sw_ib": "",
"thick_sw_ob": "",
"thicndut": "conduit insulation thickness (m)",
- "thkcas": "inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)\n (calculated for stellarators)",
+ "dr_tf_nose_case": "inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)\n (calculated for stellarators)",
"thshield": "TF-VV thermal shield thickness (m)",
"thwcndut": "TF coil conduit case thickness (m) (`iteration variable 58`)",
"ti": "volume averaged ion temperature (keV). N.B. calculated from te if `tratio > 0.0`",
@@ -10777,7 +10777,7 @@
"tmargtf": "TF coil temperature margin (K)",
"tmax_croco": "CroCo strand: maximum permitted temp during a quench (K)",
"tmaxpro": "maximum temp rise during a quench for protection (K)",
- "tmpcry": "coil temperature for cryogenic plant power calculation (K)",
+ "temp_tf_cryo": "coil temperature for cryogenic plant power calculation (K)",
"tn": "neutral gas temperature in chamber (K)",
"t_current_ramp_up": "plasma current ramp-up time for current initiation (s) (calculated if `i_pulsed_plant=0`)\n (`iteration variable 65`)",
"tohsin": "Switch for plasma current ramp-up time (if i_pulsed_plant=0):\n
\n- = 0, t_current_ramp_up = t_precharge = t_ramp_down = Ip(MA)/0.5
\n- <>0, t_current_ramp_up = tohsin; t_precharge, t_ramp_down are input
\n
",
@@ -11096,13 +11096,13 @@
"whtconcu": "copper mass in TF coil conductor (kg/coil).\n For `itart=1`, coil is return limb plus centrepost/n_tf_coils",
"whtconin": "conduit insulation mass in TF coil conductor (kg/coil)",
"whtconsc": "superconductor mass in TF coil cable (kg/coil)",
- "whtconsh": "steel conduit mass in TF coil conductor (kg/coil)",
+ "m_tf_turn_steel_conduit": "steel conduit mass in TF coil conductor (kg/coil)",
"whtcp": "mass of TF coil inboard legs (kg)",
"whtgw": "mass of ground-wall insulation layer per coil (kg/coil)",
"m_pf_coil_conductor_total": "total mass of the PF coil conductor (kg)",
"m_pf_coil_structure_total": "total mass of the PF coil structure (kg)",
"whtshld": "mass of shield (kg)",
- "whttf": "total mass of the TF coils (kg)",
+ "m_tf_coils_total": "total mass of the TF coils (kg)",
"whttflgs": "mass of the TF coil legs (kg)",
"width": "",
"windspeed": "wind speed (m/s)",
@@ -11731,7 +11731,7 @@
"lb": 0.0,
"ub": 1.0
},
- "casths": {
+ "dx_tf_side_case": {
"lb": 0.0,
"ub": 1.0
},
@@ -14399,7 +14399,7 @@
"lb": 0.0,
"ub": 0.1
},
- "thkcas": {
+ "dr_tf_nose_case": {
"lb": 0.0,
"ub": 1.0
},
@@ -14447,7 +14447,7 @@
"lb": 0.0,
"ub": 1000.0
},
- "tmpcry": {
+ "temp_tf_cryo": {
"lb": 0.01,
"ub": 293.0
},
@@ -15528,7 +15528,7 @@
"lb": 1.0,
"ub": 500.0
},
- "thkcas": {
+ "dr_tf_nose_case": {
"lb": 0.05,
"ub": 1.0
},
@@ -15689,7 +15689,7 @@
"dr_tf_inboard": 0.0,
"tfootfi": 1.19,
"tgain": 85.0,
- "thkcas": 0.3,
+ "dr_tf_nose_case": 0.3,
"thwcndut": 0.008,
"t_current_ramp_up": 30.0,
"ttarget": 5.0,
@@ -16294,7 +16294,7 @@
},
"57": {
"lb": 0.05,
- "name": "thkcas",
+ "name": "dr_tf_nose_case",
"ub": 1.0
},
"58": {
@@ -16613,7 +16613,7 @@
"53": "fjprot",
"54": "ftmargtf",
"56": "tdmptf",
- "57": "thkcas",
+ "57": "dr_tf_nose_case",
"58": "thwcndut",
"59": "fcutfsu",
"6": "dene",
@@ -16802,7 +16802,7 @@
"dr_tf_inboard": "13",
"tfootfi": "75",
"tgain": "83",
- "thkcas": "57",
+ "dr_tf_nose_case": "57",
"thwcndut": "58",
"t_current_ramp_up": "65",
"ttarget": "120",
@@ -19209,14 +19209,14 @@
"tf_fit_t",
"tf_fit_z",
"tf_fit_y",
- "tfc_current",
+ "c_tf_coil",
"awpc",
"awptf",
"a_tf_steel",
"a_tf_ins",
"f_tf_steel",
"f_tf_ins",
- "h_cp_top",
+ "z_cp_top",
"r_tf_outboard_in",
"r_tf_outboard_out",
"r_wp_inner",
@@ -19235,7 +19235,7 @@
"a_leg_ins",
"a_leg_gr_ins",
"a_leg_cond",
- "theta_coil",
+ "rad_tf_coil_toroidal",
"tan_theta_coil",
"t_conductor_radial",
"t_conductor_toroidal",
@@ -19271,7 +19271,7 @@
"T1",
"time2",
"tau2",
- "estotft",
+ "e_tf_magnetic_stored_total",
"is_leg_cp_temp_same"
],
"stellarator_configuration": [],
@@ -19323,7 +19323,7 @@
"acond",
"acstf",
"insulation_area",
- "aiwp",
+ "a_tf_coil_wp_turn_insulation",
"sig_tf_case_max",
"sig_tf_wp_max",
"a_tf_leg_outboard",
@@ -19331,13 +19331,13 @@
"avwp",
"awphec",
"bcritsc",
- "bmaxtf",
+ "b_tf_inboard_peak",
"bmaxtfrp",
"casestr",
"casthi",
"casthi_fraction",
"casthi_is_fraction",
- "casths",
+ "dx_tf_side_case",
"casths_fraction",
"tfc_sidewall_is_fraction",
"t_conductor",
@@ -19384,7 +19384,7 @@
"j_tf_bus",
"jwdgcrt",
"jwdgpro",
- "jwptf",
+ "j_tf_wp",
"oacdcp",
"eyoung_ins",
"eyoung_steel",
@@ -19399,7 +19399,7 @@
"poisson_ins",
"poisson_cond_axial",
"poisson_cond_trans",
- "rbmax",
+ "r_b_tf_inboard_peak",
"res_tf_leg",
"toroidalgap",
"ftoroidalgap",
@@ -19429,7 +19429,7 @@
"taucq",
"tcritsc",
"tdmptf",
- "tfareain",
+ "a_tf_coil_inboard",
"len_tf_bus",
"m_tf_bus",
"tfckw",
@@ -19438,7 +19438,7 @@
"tfjtsmw",
"tfcryoarea",
"tficrn",
- "tfind",
+ "ind_tf_coil",
"tfinsgap",
"tflegmw",
"rho_cp",
@@ -19459,10 +19459,10 @@
"tfsai",
"tfsao",
"tftmp",
- "tftort",
+ "dx_tf_inboard_out_toroidal",
"thicndut",
"layer_ins",
- "thkcas",
+ "dr_tf_nose_case",
"dr_tf_wp",
"thwcndut",
"tinstf",
@@ -19474,7 +19474,7 @@
"tmaxpro",
"tmax_croco",
"croco_quench_temperature",
- "tmpcry",
+ "temp_tf_cryo",
"n_tf_turn",
"vdalw",
"vforce",
@@ -19490,9 +19490,9 @@
"whtconal",
"whtconin",
"whtconsc",
- "whtconsh",
+ "m_tf_turn_steel_conduit",
"whtgw",
- "whttf",
+ "m_tf_coils_total",
"wwp1",
"wwp2",
"dthet",
@@ -19862,7 +19862,7 @@
"cable_helium_fraction": "real_variable",
"casthi": "real_variable",
"casthi_fraction": "real_variable",
- "casths": "real_variable",
+ "dx_tf_side_case": "real_variable",
"casths_fraction": "real_variable",
"cboot": "real_variable",
"ccl0_ma": "real_array",
@@ -20559,7 +20559,7 @@
"th_joint_contact": "real_variable",
"t_fusion_ramp": "real_variable",
"thicndut": "real_variable",
- "thkcas": "real_variable",
+ "dr_tf_nose_case": "real_variable",
"thshield": "real_variable",
"thwcndut": "real_variable",
"ti": "real_variable",
@@ -20571,7 +20571,7 @@
"tmax_croco": "real_variable",
"tmax_jacket": "real_variable",
"tmaxpro": "real_variable",
- "tmpcry": "real_variable",
+ "temp_tf_cryo": "real_variable",
"tn": "real_variable",
"t_current_ramp_up": "real_variable",
"tohsin": "real_variable",
diff --git a/tests/regression/input_files/helias_5b.IN.DAT b/tests/regression/input_files/helias_5b.IN.DAT
index 73caa93e69..a7b73bca6b 100644
--- a/tests/regression/input_files/helias_5b.IN.DAT
+++ b/tests/regression/input_files/helias_5b.IN.DAT
@@ -170,12 +170,12 @@ runtitle = HELIAS-5B
fcutfsu = 0.69 *Copper fraction of cable conductor (TF coils)
i_tf_sc_mat = 1 *Switch for superconductor material in tf coils (1: ITER Nb3Sn)
tftmp = 4.2 *Peak helium coolant temperature in TF coils and PF coils (k)
-tmpcry = 4.2 *Coil temperature for cryogenic plant power calculation (K)
+temp_tf_cryo = 4.2 *Coil temperature for cryogenic plant power calculation (K)
t_turn_tf = 0.056 *Dimension conductor area including steel and insulation.
thicndut = 0.002 *Conduit insulation thickness (m)
thwcndut = 0.0012 *TF coil conduit case thickness (m)
vftf = 0.3 *Coolant fraction of TF coil leg (i_tf_sup=0)
-thkcas = 0.06 * Case thickness
+dr_tf_nose_case = 0.06 * Case thickness
*-----------------Pfcoil Variables-----------------*
*PF coil vertical positioning adjuster
diff --git a/tests/regression/input_files/large_tokamak.IN.DAT b/tests/regression/input_files/large_tokamak.IN.DAT
index 846775f3c2..558a41178f 100644
--- a/tests/regression/input_files/large_tokamak.IN.DAT
+++ b/tests/regression/input_files/large_tokamak.IN.DAT
@@ -244,9 +244,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -589,7 +589,7 @@ sigpfcf = 0.666
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/tests/regression/input_files/large_tokamak_nof.IN.DAT b/tests/regression/input_files/large_tokamak_nof.IN.DAT
index f166bd039f..21a8877461 100644
--- a/tests/regression/input_files/large_tokamak_nof.IN.DAT
+++ b/tests/regression/input_files/large_tokamak_nof.IN.DAT
@@ -226,9 +226,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -568,7 +568,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/tests/regression/input_files/large_tokamak_once_through.IN.DAT b/tests/regression/input_files/large_tokamak_once_through.IN.DAT
index 5161cf5407..6eec76ee58 100644
--- a/tests/regression/input_files/large_tokamak_once_through.IN.DAT
+++ b/tests/regression/input_files/large_tokamak_once_through.IN.DAT
@@ -60,7 +60,7 @@ ixc = 37 * j_cs_flat_top_end
ixc = 41 * f_j_cs_start_pulse_end_flat_top
ixc = 44 * fvsbrnni
ixc = 56 * tdmptf
-ixc = 57 * thkcas
+ixc = 57 * dr_tf_nose_case
ixc = 58 * thwcndut
boundl(58) = 0.008
ixc = 59 * fcutfsu
@@ -411,7 +411,7 @@ i_pulsed_plant = 1 * Switch for reactor model;
sig_tf_case_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa)
sig_tf_wp_max = 7.5e8 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa)
casthi = 0.06 * inboard TF coil case plasma side thickness (m) (calculated for stellarators)
-casths = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators)
+dx_tf_side_case = 0.05 * inboard TF coil sidewall case thickness (m) (calculated for stellarators)
cpttf = 85462.67500253802 * TF coil current per turn (A); (calculated for stellarators) (calculated for
dhecoil = 0.01 * diameter of central helium channel in TF winding (m)
fcutfsu = 0.8231999768826475 * copper fraction of cable conductor (TF coils)
@@ -420,7 +420,7 @@ ripmax = 0.6 * aximum allowable toroidal field ripple amplitude at plasma edge
tdmptf = 17.97282589344206 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`)
n_tf_coils = 16 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST
tftmp = 4.75 * peak helium coolant temperature in TF coils and PF coils (K)
-thkcas = 0.2816873221155309 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)
+dr_tf_nose_case = 0.2816873221155309 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)
dr_tf_wp = 0.5153787768966674 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514)
thwcndut = 0.008012110032981922 * TF coil conduit case thickness (m) (`iteration variable 58`)
tinstf = 0.008 * Thickness of the ground insulation layer surrounding (m)
diff --git a/tests/regression/input_files/spherical_tokamak_once_through.IN.DAT b/tests/regression/input_files/spherical_tokamak_once_through.IN.DAT
index b09f7484c0..522e88e780 100644
--- a/tests/regression/input_files/spherical_tokamak_once_through.IN.DAT
+++ b/tests/regression/input_files/spherical_tokamak_once_through.IN.DAT
@@ -65,7 +65,7 @@ boundu(49) = 1.0
ixc = 50 * fiooic
boundl(50) = 0.01
boundu(50) = 1.0
-ixc = 57 * thkcas
+ixc = 57 * dr_tf_nose_case
boundl(57) = 0.01
boundu(57) = 0.5
ixc = 72 * fipir
@@ -417,7 +417,7 @@ i_pulsed_plant = 0 * Switch for reactor model;
sig_tf_case_max = 850.0e6 * Allowable maximum shear stress (Tresca criterion) in TF coil case (Pa)
sig_tf_wp_max = 700.0e6 * Allowable maximum shear stress (Tresca criterion) in TF coil conduit (Pa)
casthi_fraction = 1.0e-12 * inboard TF coil case plasma side thickness as a fraction of tfcth
-casths_fraction = 0.65 * inboard TF coil sidewall case thickness as a fraction of tftort
+casths_fraction = 0.65 * inboard TF coil sidewall case thickness as a fraction of dx_tf_inboard_out_toroidal
i_tf_stress_model = 0 * Switch for the TF coil stress model
i_tf_tresca = 0 * Switch for TF coil conduit Tresca stress criterion;
i_tf_wp_geom = 2 * Switch for TF WP geometry selection
@@ -432,9 +432,9 @@ ripmax = 1.0 * aximum allowable toroidal field ripple amplitude at plasma edge
i_cp_joints = 0 * Switch for CP demoutable joints type
n_tf_coils = 12 * Number of TF coils (default = 50 for stellarators); Number of TF coils outer legs for ST
tftmp = 20.0 * peak helium coolant temperature in TF coils and PF coils (K)
-thkcas = 0.1293140904093427 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)
+dr_tf_nose_case = 0.1293140904093427 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)
dr_tf_wp = 0.6044340543574178 * radial thickness of winding pack (m) (`iteration variable 140`) (issue #514)
-tmpcry = 20.0 * coil temperature for cryogenic plant power calculation (K)
+temp_tf_cryo = 20.0 * coil temperature for cryogenic plant power calculation (K)
f_vforce_inboard = 0.5 * Fraction of the total vertical force taken by the TF inboard leg tension
*-----------------Times Variables------------------*
diff --git a/tests/regression/input_files/st_regression.IN.DAT b/tests/regression/input_files/st_regression.IN.DAT
index dcc2ae1fa0..85f6503839 100644
--- a/tests/regression/input_files/st_regression.IN.DAT
+++ b/tests/regression/input_files/st_regression.IN.DAT
@@ -953,7 +953,7 @@ i_tf_sc_mat = 9
icc = 33
* DESCRIPTION: TF superconductor operating current / critical current density
* JUSTIFICATION: A quench must be avoided
-* VARIABLES: jwptf & jwdgcrt (critical current) calculated in-situ
+* VARIABLES: j_tf_wp & jwdgcrt (critical current) calculated in-situ
ixc = 50
fiooic = 1.0
@@ -967,7 +967,7 @@ boundu(50) = 1.0
*icc = 35
* DESCRIPTION: Constraint equation for TF coil J_wp/J_prot upper limit (SCTF)
* JUSTIFICATION: Turned off, do not care about winding pack current density
-* VARIABLES: jwptf calculated in-situ
+* VARIABLES: j_tf_wp calculated in-situ
*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
@@ -1031,7 +1031,7 @@ i_tf_case_geom = 0
* JUSTIFICATION: Not set, assuming default
ixc = 57
-thkcas = 0.4
+dr_tf_nose_case = 0.4
boundl(57) = 0.01
boundu(57) = 0.5
* DESCRIPTION: Inboard TF Coil Case Outer (Nose case) thickness (m)
@@ -1059,7 +1059,7 @@ casths_fraction = 0.65
* Use one or the other *
-*casths = 0.05
+*dx_tf_side_case = 0.05
* DESCRIPTION: TF coil case sidewall thickness (m)
* JUSTIFICATION: Not used, using casths_fraction instead
@@ -1374,7 +1374,7 @@ boundu(49) = 1.0
*icc = 25
* DESCRIPTION: Constraint equation for peak toroidal field upper limit
* JUSTIFICATION: Turned off, dont care toridal field limit
-* VARIABLES: bmaxtf calculated in-situ
+* VARIABLES: b_tf_inboard_peak calculated in-situ
* bmxlim =
* DESCRIPTION: Maximum peak toroidal field (T) (`constraint equation 25`) (default = 12)
@@ -1400,7 +1400,7 @@ boundu(49) = 1.0
* DESCRIPTION: TF coil cryo-plant efficiency
* JUSTIFICATION: Not yet set, assuming default
-tmpcry = 20.0
+temp_tf_cryo = 20.0
* DESCRIPTION: Coil temperature for cryogenic plant power calculation (K)
* JUSTIFICATION:
diff --git a/tests/regression/input_files/stellarator_helias_once_through.IN.DAT b/tests/regression/input_files/stellarator_helias_once_through.IN.DAT
index 884c8c391c..bde589bc0d 100644
--- a/tests/regression/input_files/stellarator_helias_once_through.IN.DAT
+++ b/tests/regression/input_files/stellarator_helias_once_through.IN.DAT
@@ -367,14 +367,14 @@ sig_tf_wp_max = 4.e8 * Allowable maximum shear stress (Tresca criterion) in TF c
t_turn_tf = 0.037 * TF coil turn edge length including turn insulation [m]
fcutfsu = 0.7630096974258808 * copper fraction of cable conductor (TF coils)
i_tf_sc_mat = 8 * Switch for superconductor material in TF coils;
-ftoroidalgap = 1. * F-value for minimum tftort (`constraint equation 82`)
+ftoroidalgap = 1. * F-value for minimum dx_tf_inboard_out_toroidal (`constraint equation 82`)
tdmptf = 7.400147540321247 * fast discharge time for TF coil in event of quench (s) (`iteration variable 56`)
tftmp = 4.5 * peak helium coolant temperature in TF coils and PF coils (K)
thicndut = 0.001 * conduit insulation thickness (m)
-thkcas = 0.05 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)
+dr_tf_nose_case = 0.05 * inboard TF coil case outer (non-plasma side) thickness (m) (`iteration variable 57`)
thwcndut = 0.006 * TF coil conduit case thickness (m) (`iteration variable 58`)
tinstf = 0.01 * Thickness of the ground insulation layer surrounding (m)
-tmpcry = 4.5 * coil temperature for cryogenic plant power calculation (K)
+temp_tf_cryo = 4.5 * coil temperature for cryogenic plant power calculation (K)
vdalw = 12.5 * max voltage across TF coil during quench (kV) (`iteration variable 52`)
vftf = 0.3 * coolant fraction of TFC 'cable' (`i_tf_sup=1`); or of TFC leg (`i_tf_ssup=0`)
diff --git a/tests/unit/data/large_tokamak_IN.DAT b/tests/unit/data/large_tokamak_IN.DAT
index d5fbe4a09f..31005741ce 100644
--- a/tests/unit/data/large_tokamak_IN.DAT
+++ b/tests/unit/data/large_tokamak_IN.DAT
@@ -244,9 +244,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -584,7 +584,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/tests/unit/data/large_tokamak_MFILE.DAT b/tests/unit/data/large_tokamak_MFILE.DAT
index e1be256272..d013ea3436 100644
--- a/tests/unit/data/large_tokamak_MFILE.DAT
+++ b/tests/unit/data/large_tokamak_MFILE.DAT
@@ -674,7 +674,7 @@
Outboard_leg_nose_case_type_____________________________________________ (i_tf_case_geom)______________ 0.0000E+00
Total_inboard_leg_radial_thickness_(m)__________________________________ (dr_tf_inboard)_______________________ 9.2950E-01 ITV
Total_outboard_leg_radial_thickness_(m)_________________________________ (dr_tf_outboard)______________________ 9.2950E-01
- Outboard_leg_toroidal_thickness_(m)_____________________________________ (tftort)______________________ 1.4145E+00 OP
+ Outboard_leg_toroidal_thickness_(m)_____________________________________ (dx_tf_inboard_out_toroidal)______________________ 1.4145E+00 OP
Maximum_inboard_edge_height_(m)_________________________________________ (hmax)________________________ 8.8182E+00 OP
Mean_coil_circumference_(including_inboard_leg_length)_(m)______________ (len_tf_coil)______________________ 4.7969E+01 OP
Vertical_TF_shape_______________________________________________________ (i_tf_shape)__________________ 1
@@ -688,15 +688,15 @@
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)____________________ 1.8459E+01
+ TF_cross-section_(total)_(m2)___________________________________________ (a_tf_coil_inboard)____________________ 1.8459E+01
Total_steel_cross-section_(m2)__________________________________________ (a_tf_steel*n_tf_coils)_____________ 1.3045E+01
Total_steel_TF_fraction_________________________________________________ (f_tf_steel)__________________ 7.0671E-01
Total_Insulation_cross-section_(total)_(m2)_____________________________ (a_tf_ins*n_tf_coils)_______________ 8.5858E-01
Total_Insulation_fraction_______________________________________________ (f_tf_ins)____________________ 4.6514E-02
Casing_cross_section_area_(per_leg)_(m2)________________________________ (acasetf)_____________________ 5.7164E-01
Inboard_leg_case_plasma_side_wall_thickness_(m)_________________________ (casthi)______________________ 6.0000E-02
- Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (thkcas)______________________ 2.8843E-01 ITV
- Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (casths)______________________ 5.0000E-02
+ Inboard_leg_case_inboard_"nose"_thickness_(m)___________________________ (dr_tf_nose_case)______________________ 2.8843E-01 ITV
+ Inboard_leg_case_sidewall_thickness_at_its_narrowest_point_(m)__________ (dx_tf_side_case)______________________ 5.0000E-02
External_case_mass_per_coil_(kg)________________________________________ (whtcas)______________________ 5.6337E+05 OP
WP_cross_section_area_with_insulation_and_insertion_(per_coil)_(m2)_____ (awpc)________________________ 5.8202E-01
WP_cross_section_area_(per_coil)_(m2)___________________________________ (aswp)________________________ 5.2394E-01
@@ -707,8 +707,8 @@
Winding_pack_insertion_gap_(m)__________________________________________ (tfinsgap)____________________ 1.0000E-02
Steel_WP_cross-section_(total)_(m2)_____________________________________ (aswp*n_tf_coils)___________________ 3.8986E+00
Steel_WP_fraction_______________________________________________________ (aswp/awpc)___________________ 4.1865E-01
- Insulation_WP_fraction__________________________________________________ (aiwp/awpc)___________________ 4.8392E-02
- Cable_WP_fraction_______________________________________________________ ((awpc-aswp-aiwp)/awpc)_______ 5.3296E-01
+ Insulation_WP_fraction__________________________________________________ (a_tf_coil_wp_turn_insulation/awpc)___________________ 4.8392E-02
+ Cable_WP_fraction_______________________________________________________ ((awpc-aswp-a_tf_coil_wp_turn_insulation)/awpc)_______ 5.3296E-01
Turn_parametrisation____________________________________________________ (i_tf_turns_integer)__________ 0
Number_of_turns_per_TF_coil_____________________________________________ (n_tf_turn)___________________ 1.5197E+02 OP
Width_of_turn_including_inter-turn_insulation_(m)_______________________ (t_turn_tf)___________________ 5.8716E-02 OP
@@ -729,16 +729,16 @@
Conductor_transverse_Youngs_modulus_____________________________________ (eyoung_cond_trans)___________ 0.0000E+00
Superconductor_mass_per_coil_(kg)_______________________________________ (whtconsc)____________________ 4.9062E+03 OP
Copper_mass_per_coil_(kg)_______________________________________________ (whtconcu)____________________ 5.7969E+04 OP
- Steel_conduit_mass_per_coil_(kg)________________________________________ (whtconsh)____________________ 9.1170E+04 OP
+ Steel_conduit_mass_per_coil_(kg)________________________________________ (m_tf_turn_steel_conduit)____________________ 9.1170E+04 OP
Conduit_insulation_mass_per_coil_(kg)___________________________________ (whtconin)____________________ 2.4319E+03 OP
Total_conduit_mass_per_coil_(kg)________________________________________ (whtcon)______________________ 1.5648E+05 OP
- Mass_of_each_TF_coil_(kg)_______________________________________________ (whttf/n_tf_coils)__________________ 7.2486E+05 OP
- Total_TF_coil_mass_(kg)_________________________________________________ (whttf)_______________________ 1.1598E+07 OP
- Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (bmaxtf)______________________ 1.2296E+01 OP
+ Mass_of_each_TF_coil_(kg)_______________________________________________ (m_tf_coils_total/n_tf_coils)__________________ 7.2486E+05 OP
+ Total_TF_coil_mass_(kg)_________________________________________________ (m_tf_coils_total)_______________________ 1.1598E+07 OP
+ Nominal_peak_field_assuming_toroidal_symmetry_(T)_______________________ (b_tf_inboard_peak)______________________ 1.2296E+01 OP
Total_current_in_all_TF_coils_(MA)______________________________________ (c_tf_total/1.D6)__________________ 2.1381E+02 OP
TF_coil_current_(summed_over_all_coils)_(A)_____________________________ (c_tf_total)_______________________ 2.1381E+08
Actual_peak_field_at_discrete_conductor_(T)_____________________________ (bmaxtfrp)____________________ 1.2760E+01 OP
- Winding_pack_current_density_(A/m2)_____________________________________ (jwptf)_______________________ 2.5505E+07 OP
+ Winding_pack_current_density_(A/m2)_____________________________________ (j_tf_wp)_______________________ 2.5505E+07 OP
Inboard_leg_mid-plane_conductor_current_density_(A/m2)__________________ (oacdcp)______________________ 1.1583E+07
Total_stored_energy_in_TF_coils_(GJ)____________________________________ (estotftgj)___________________ 1.2410E+02 OP
Inboard_vertical_tension_per_coil_(N)___________________________________ (vforce)______________________ 2.1322E+08 OP
@@ -940,7 +940,7 @@
Unit_nuclear_heating_in_TF_coil_(W/GW)__________________________________ (tfc_nuc_heating)_____________ 1.5092E+04
Total_nuclear_heating_in_TF_coil_(MW)___________________________________ (ptfnuc.)_____________________ 2.4413E-02
powfmw__________________________________________________________________ (powfmw.)_____________________ 1.6176E+03
- total_mass_of_the_TF_coils_(kg)_________________________________________ (whttf)_______________________ 1.1598E+07
+ total_mass_of_the_TF_coils_(kg)_________________________________________ (m_tf_coils_total)_______________________ 1.1598E+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
@@ -1098,7 +1098,7 @@
Resistive_losses_in_current_leads_(MW)__________________________________ (qcl/1.0d6)___________________ 1.9134E-02 OP
45%_allowance_for_heat_loads_in_transfer_lines,_storage_tanks_etc_(MW)__ (qmisc/1.0d6)_________________ 2.2978E-02 OP
Sum_=_Total_heat_removal_at_cryogenic_temperatures_(tfcoil_variables.tmp (helpow_+_helpow_cryal/1.0d6)_ 7.4042E-02 OP
- Temperature_of_cryogenic_superconducting_components_(K)_________________ (tmpcry)______________________ 4.5000E+00
+ Temperature_of_cryogenic_superconducting_components_(K)_________________ (temp_tf_cryo)______________________ 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
@@ -1435,9 +1435,9 @@ fvsbrnni = 0.4
ixc = 56
tdmptf = 25.0
-* thkcas [m]
+* dr_tf_nose_case [m]
ixc = 57
-thkcas = 0.5
+dr_tf_nose_case = 0.5
* TF coil conduit thickness [m]
ixc = 58
@@ -1775,7 +1775,7 @@ i_cs_superconductor = 1
casthi = 0.06
* Inboard TF coil side-wall case thickness [m]
-casths = 0.05
+dx_tf_side_case = 0.05
* Max allowable TF ripple at plasma edge [%]
ripmax = 0.6
diff --git a/tests/unit/test_build.py b/tests/unit/test_build.py
index abe370b44f..cd958524ce 100644
--- a/tests/unit/test_build.py
+++ b/tests/unit/test_build.py
@@ -67,13 +67,13 @@ class RippleAmplitudeParam(NamedTuple):
n_tf_coils: Any = None
- tftort: Any = None
+ dx_tf_inboard_out_toroidal: Any = None
- casths: Any = None
+ dx_tf_side_case: Any = None
dr_tf_wp: Any = None
- thkcas: Any = None
+ dr_tf_nose_case: Any = None
casths_fraction: Any = None
@@ -198,10 +198,10 @@ def test_divgeom(divgeomparam, monkeypatch, build):
rmajor=8.8901000000000003,
tinstf=0.0080000000000000019,
n_tf_coils=16,
- tftort=1,
- casths=0.05000000000000001,
+ dx_tf_inboard_out_toroidal=1,
+ dx_tf_side_case=0.05000000000000001,
dr_tf_wp=0.54261087836601019,
- thkcas=0.52465000000000006,
+ dr_tf_nose_case=0.52465000000000006,
casths_fraction=0.059999999999999998,
i_tf_sup=1,
i_tf_wp_geom=0,
@@ -219,10 +219,10 @@ def test_divgeom(divgeomparam, monkeypatch, build):
rmajor=8.8901000000000003,
tinstf=0.0080000000000000019,
n_tf_coils=16,
- tftort=1,
- casths=0.05000000000000001,
+ dx_tf_inboard_out_toroidal=1,
+ dx_tf_side_case=0.05000000000000001,
dr_tf_wp=0.54261087836601019,
- thkcas=0.52465000000000006,
+ dr_tf_nose_case=0.52465000000000006,
casths_fraction=0.059999999999999998,
i_tf_sup=1,
i_tf_wp_geom=0,
@@ -261,13 +261,21 @@ def test_ripple_amplitude(rippleamplitudeparam, monkeypatch, build):
monkeypatch.setattr(tfcoil_variables, "n_tf_coils", rippleamplitudeparam.n_tf_coils)
- monkeypatch.setattr(tfcoil_variables, "tftort", rippleamplitudeparam.tftort)
+ monkeypatch.setattr(
+ tfcoil_variables,
+ "dx_tf_inboard_out_toroidal",
+ rippleamplitudeparam.dx_tf_inboard_out_toroidal,
+ )
- monkeypatch.setattr(tfcoil_variables, "casths", rippleamplitudeparam.casths)
+ monkeypatch.setattr(
+ tfcoil_variables, "dx_tf_side_case", rippleamplitudeparam.dx_tf_side_case
+ )
monkeypatch.setattr(tfcoil_variables, "dr_tf_wp", rippleamplitudeparam.dr_tf_wp)
- monkeypatch.setattr(tfcoil_variables, "thkcas", rippleamplitudeparam.thkcas)
+ monkeypatch.setattr(
+ tfcoil_variables, "dr_tf_nose_case", rippleamplitudeparam.dr_tf_nose_case
+ )
monkeypatch.setattr(
tfcoil_variables, "casths_fraction", rippleamplitudeparam.casths_fraction
@@ -322,7 +330,7 @@ class PortszParam(NamedTuple):
rmajor: Any = None
- tftort: Any = None
+ dx_tf_inboard_out_toroidal: Any = None
n_tf_coils: Any = None
@@ -343,7 +351,7 @@ class PortszParam(NamedTuple):
beamwd=0.57999999999999996,
frbeam=1.05,
rmajor=8.8901000000000003,
- tftort=1.6395161177915356,
+ dx_tf_inboard_out_toroidal=1.6395161177915356,
n_tf_coils=16,
expected_rtanbeam=9.3346050000000016,
expected_rtanmax=14.735821603386416,
@@ -357,7 +365,7 @@ class PortszParam(NamedTuple):
beamwd=0.57999999999999996,
frbeam=1.05,
rmajor=8.8901000000000003,
- tftort=1.6395161177915356,
+ dx_tf_inboard_out_toroidal=1.6395161177915356,
n_tf_coils=16,
expected_rtanbeam=9.3346050000000016,
expected_rtanmax=14.735821603386416,
@@ -398,7 +406,11 @@ def test_portsz(portszparam, monkeypatch, build):
monkeypatch.setattr(physics_variables, "rmajor", portszparam.rmajor)
- monkeypatch.setattr(tfcoil_variables, "tftort", portszparam.tftort)
+ monkeypatch.setattr(
+ tfcoil_variables,
+ "dx_tf_inboard_out_toroidal",
+ portszparam.dx_tf_inboard_out_toroidal,
+ )
monkeypatch.setattr(tfcoil_variables, "n_tf_coils", portszparam.n_tf_coils)
diff --git a/tests/unit/test_ccfe_hcpb.py b/tests/unit/test_ccfe_hcpb.py
index 7d6f6cf80d..6bfe21e6ac 100644
--- a/tests/unit/test_ccfe_hcpb.py
+++ b/tests/unit/test_ccfe_hcpb.py
@@ -76,7 +76,7 @@ class NuclearHeatingMagnetsParam(NamedTuple):
itart: Any = None
- whttf: Any = None
+ m_tf_coils_total: Any = None
whttflgs: Any = None
@@ -148,7 +148,7 @@ class NuclearHeatingMagnetsParam(NamedTuple):
f_a_fw_coolant_outboard=0,
fusion_power=1986.0623241661431,
itart=0,
- whttf=19649856.627845347,
+ m_tf_coils_total=19649856.627845347,
whttflgs=0,
verbose=0,
armour_density=0,
@@ -195,7 +195,7 @@ class NuclearHeatingMagnetsParam(NamedTuple):
f_a_fw_coolant_outboard=0.31415926535897931,
fusion_power=1985.4423932312809,
itart=0,
- whttf=19662548.210142396,
+ m_tf_coils_total=19662548.210142396,
whttflgs=0,
verbose=0,
armour_density=13202.434141839649,
@@ -319,7 +319,11 @@ def test_nuclear_heating_magnets(nuclearheatingmagnetsparam, monkeypatch, ccfe_h
monkeypatch.setattr(physics_variables, "itart", nuclearheatingmagnetsparam.itart)
- monkeypatch.setattr(tfcoil_variables, "whttf", nuclearheatingmagnetsparam.whttf)
+ monkeypatch.setattr(
+ tfcoil_variables,
+ "m_tf_coils_total",
+ nuclearheatingmagnetsparam.m_tf_coils_total,
+ )
monkeypatch.setattr(
tfcoil_variables, "whttflgs", nuclearheatingmagnetsparam.whttflgs
@@ -1156,7 +1160,7 @@ def test_powerflow_calc(powerflowcalcparam, monkeypatch, ccfe_hcpb):
class StCpAngleFractionParam(NamedTuple):
- h_cp_top: Any = None
+ z_cp_top: Any = None
r_cp_top: Any = None
@@ -1171,14 +1175,14 @@ class StCpAngleFractionParam(NamedTuple):
"stcpanglefractionparam",
(
StCpAngleFractionParam(
- h_cp_top=2.6714285714285717,
+ z_cp_top=2.6714285714285717,
r_cp_top=0.92643571428571436,
r_cp_mid=0.20483000000000001,
rmajor=1.7000000000000002,
expected_f_geom_cp=0.08375588625302606,
),
StCpAngleFractionParam(
- h_cp_top=2.6714285714285717,
+ z_cp_top=2.6714285714285717,
r_cp_top=0.92643571428571436,
r_cp_mid=0.20483000000000001,
rmajor=1.7000000000000002,
@@ -1197,7 +1201,7 @@ def test_st_cp_angle_fraction(stcpanglefractionparam, ccfe_hcpb):
"""
f_geom_cp = ccfe_hcpb.st_cp_angle_fraction(
- h_cp_top=stcpanglefractionparam.h_cp_top,
+ z_cp_top=stcpanglefractionparam.z_cp_top,
r_cp_top=stcpanglefractionparam.r_cp_top,
r_cp_mid=stcpanglefractionparam.r_cp_mid,
rmajor=stcpanglefractionparam.rmajor,
diff --git a/tests/unit/test_costs_1990.py b/tests/unit/test_costs_1990.py
index ecfb4649ea..d4814227c8 100644
--- a/tests/unit/test_costs_1990.py
+++ b/tests/unit/test_costs_1990.py
@@ -4085,7 +4085,7 @@ class Acc2263Param(NamedTuple):
helpow: Any = None
- tmpcry: Any = None
+ temp_tf_cryo: Any = None
c226: Any = None
@@ -4104,7 +4104,7 @@ class Acc2263Param(NamedTuple):
lsa=2,
fkind=1,
helpow=76851.741036987034,
- tmpcry=4.5,
+ temp_tf_cryo=4.5,
c226=0,
c2263=0,
c22=0,
@@ -4115,7 +4115,7 @@ class Acc2263Param(NamedTuple):
lsa=2,
fkind=1,
helpow=220505.71684249729,
- tmpcry=4.5,
+ temp_tf_cryo=4.5,
c226=228.30921518184891,
c2263=122.17123799205466,
c22=3474.7391916096453,
@@ -4144,7 +4144,7 @@ def test_acc2263_rut(acc2263param, monkeypatch, costs):
monkeypatch.setattr(heat_transport_variables, "helpow", acc2263param.helpow)
- monkeypatch.setattr(tfcoil_variables, "tmpcry", acc2263param.tmpcry)
+ monkeypatch.setattr(tfcoil_variables, "temp_tf_cryo", acc2263param.temp_tf_cryo)
monkeypatch.setattr(costs, "c226", acc2263param.c226)
diff --git a/tests/unit/test_power.py b/tests/unit/test_power.py
index 3892982124..070d172241 100644
--- a/tests/unit/test_power.py
+++ b/tests/unit/test_power.py
@@ -2179,7 +2179,7 @@ class Power2Param(NamedTuple):
tfcmw: Any = None
- tmpcry: Any = None
+ temp_tf_cryo: Any = None
tcoolin: Any = None
@@ -2311,7 +2311,7 @@ class Power2Param(NamedTuple):
ppump=0,
i_tf_sup=1,
tfcmw=0,
- tmpcry=4.5,
+ temp_tf_cryo=4.5,
tcoolin=313.14999999999998,
eff_tf_cryo=0.13,
htpmw_fw_blkt=202.02739897087824,
@@ -2413,7 +2413,7 @@ class Power2Param(NamedTuple):
ppump=0,
i_tf_sup=1,
tfcmw=0,
- tmpcry=4.5,
+ temp_tf_cryo=4.5,
tcoolin=313.14999999999998,
eff_tf_cryo=0.13,
htpmw_fw_blkt=201.96778859673452,
@@ -2644,7 +2644,7 @@ def test_power2(power2param, monkeypatch, power):
monkeypatch.setattr(tfcoil_variables, "tfcmw", power2param.tfcmw)
- monkeypatch.setattr(tfcoil_variables, "tmpcry", power2param.tmpcry)
+ monkeypatch.setattr(tfcoil_variables, "temp_tf_cryo", power2param.temp_tf_cryo)
monkeypatch.setattr(tfcoil_variables, "tcoolin", power2param.tcoolin)
diff --git a/tests/unit/test_resistive_tf_coil.py b/tests/unit/test_resistive_tf_coil.py
index ea396d7496..e1308001aa 100644
--- a/tests/unit/test_resistive_tf_coil.py
+++ b/tests/unit/test_resistive_tf_coil.py
@@ -26,13 +26,13 @@ class ResTfInternalGeomParam(NamedTuple):
thicndut: Any = None
- thkcas: Any = None
+ dr_tf_nose_case: Any = None
dr_tf_wp: Any = None
- tftort: Any = None
+ dx_tf_inboard_out_toroidal: Any = None
- tfareain: Any = None
+ a_tf_coil_inboard: Any = None
c_tf_total: Any = None
@@ -44,7 +44,7 @@ class ResTfInternalGeomParam(NamedTuple):
casthi: Any = None
- aiwp: Any = None
+ a_tf_coil_wp_turn_insulation: Any = None
acasetf: Any = None
@@ -68,7 +68,7 @@ class ResTfInternalGeomParam(NamedTuple):
expected_cdtfleg: Any = None
- expected_aiwp: Any = None
+ expected_a_tf_coil_wp_turn_insulation: Any = None
expected_acasetf: Any = None
@@ -79,16 +79,16 @@ class ResTfInternalGeomParam(NamedTuple):
ResTfInternalGeomParam(
n_tf_turn=0,
thicndut=0.00080000000000000004,
- thkcas=0,
+ dr_tf_nose_case=0,
dr_tf_wp=0.15483000000000002,
- tftort=0.45367650933034859,
- tfareain=0.0753112923616783,
+ dx_tf_inboard_out_toroidal=0.45367650933034859,
+ a_tf_coil_inboard=0.0753112923616783,
c_tf_total=25500000,
fcoolcp=0.12725,
cpttf=70000,
cdtfleg=0,
casthi=0.0077415000000000019,
- aiwp=0,
+ a_tf_coil_wp_turn_insulation=0,
acasetf=0,
tinstf=0,
n_tf_coils=12,
@@ -100,22 +100,22 @@ class ResTfInternalGeomParam(NamedTuple):
expected_n_tf_turn=1,
expected_cpttf=2125000,
expected_cdtfleg=421788350.27812088,
- expected_aiwp=0.00030678028680367151,
+ expected_a_tf_coil_wp_turn_insulation=0.00030678028680367151,
expected_acasetf=0.00061190425043863676,
),
ResTfInternalGeomParam(
n_tf_turn=1,
thicndut=0.00080000000000000004,
- thkcas=0,
+ dr_tf_nose_case=0,
dr_tf_wp=0.14708850000000001,
- tftort=0.44435902370665786,
- tfareain=0.0753112923616783,
+ dx_tf_inboard_out_toroidal=0.44435902370665786,
+ a_tf_coil_inboard=0.0753112923616783,
c_tf_total=25500000,
fcoolcp=0.12725,
cpttf=2125000,
cdtfleg=421788350.27812088,
casthi=0.0077415000000000019,
- aiwp=0.00030678028680367151,
+ a_tf_coil_wp_turn_insulation=0.00030678028680367151,
acasetf=0.00061190425043863676,
tinstf=0,
n_tf_coils=12,
@@ -127,7 +127,7 @@ class ResTfInternalGeomParam(NamedTuple):
expected_n_tf_turn=1,
expected_cpttf=2125000,
expected_cdtfleg=430664525.98439038,
- expected_aiwp=0.00029439388680367086,
+ expected_a_tf_coil_wp_turn_insulation=0.00029439388680367086,
expected_acasetf=0.00061190425043863676,
),
),
@@ -152,13 +152,21 @@ def test_res_tf_internal_geom(restfinternalgeomparam, monkeypatch, resistive_tf_
monkeypatch.setattr(tfcoil_variables, "thicndut", restfinternalgeomparam.thicndut)
- monkeypatch.setattr(tfcoil_variables, "thkcas", restfinternalgeomparam.thkcas)
+ monkeypatch.setattr(
+ tfcoil_variables, "dr_tf_nose_case", restfinternalgeomparam.dr_tf_nose_case
+ )
monkeypatch.setattr(tfcoil_variables, "dr_tf_wp", restfinternalgeomparam.dr_tf_wp)
- monkeypatch.setattr(tfcoil_variables, "tftort", restfinternalgeomparam.tftort)
+ monkeypatch.setattr(
+ tfcoil_variables,
+ "dx_tf_inboard_out_toroidal",
+ restfinternalgeomparam.dx_tf_inboard_out_toroidal,
+ )
- monkeypatch.setattr(tfcoil_variables, "tfareain", restfinternalgeomparam.tfareain)
+ monkeypatch.setattr(
+ tfcoil_variables, "a_tf_coil_inboard", restfinternalgeomparam.a_tf_coil_inboard
+ )
monkeypatch.setattr(
tfcoil_variables, "c_tf_total", restfinternalgeomparam.c_tf_total
@@ -172,7 +180,11 @@ def test_res_tf_internal_geom(restfinternalgeomparam, monkeypatch, resistive_tf_
monkeypatch.setattr(tfcoil_variables, "casthi", restfinternalgeomparam.casthi)
- monkeypatch.setattr(tfcoil_variables, "aiwp", restfinternalgeomparam.aiwp)
+ monkeypatch.setattr(
+ tfcoil_variables,
+ "a_tf_coil_wp_turn_insulation",
+ restfinternalgeomparam.a_tf_coil_wp_turn_insulation,
+ )
monkeypatch.setattr(tfcoil_variables, "acasetf", restfinternalgeomparam.acasetf)
@@ -212,7 +224,9 @@ def test_res_tf_internal_geom(restfinternalgeomparam, monkeypatch, resistive_tf_
restfinternalgeomparam.expected_cdtfleg
)
- assert tfcoil_variables.aiwp == pytest.approx(restfinternalgeomparam.expected_aiwp)
+ assert tfcoil_variables.a_tf_coil_wp_turn_insulation == pytest.approx(
+ restfinternalgeomparam.expected_a_tf_coil_wp_turn_insulation
+ )
assert tfcoil_variables.acasetf == pytest.approx(
restfinternalgeomparam.expected_acasetf
@@ -230,7 +244,9 @@ def test_res_tf_internal_geom(restfinternalgeomparam, monkeypatch, resistive_tf_
restfinternalgeomparam.expected_cdtfleg
)
- assert tfcoil_variables.aiwp == pytest.approx(restfinternalgeomparam.expected_aiwp)
+ assert tfcoil_variables.a_tf_coil_wp_turn_insulation == pytest.approx(
+ restfinternalgeomparam.expected_a_tf_coil_wp_turn_insulation
+ )
assert tfcoil_variables.acasetf == pytest.approx(
restfinternalgeomparam.expected_acasetf
@@ -245,8 +261,8 @@ class TfResHeatingParam(NamedTuple):
rho_tf_leg: Any = None
vol_cond_cp: Any = None
n_tf_turn: Any = None
- thkcas: Any = None
- tftort: Any = None
+ dr_tf_nose_case: Any = None
+ dx_tf_inboard_out_toroidal: Any = None
len_tf_coil: Any = None
res_tf_leg: Any = None
temp_cp_average: Any = None
@@ -275,7 +291,7 @@ class TfResHeatingParam(NamedTuple):
r_tf_inboard_in: Any = None
r_tf_inboard_out: Any = None
itart: Any = None
- h_cp_top: Any = None
+ z_cp_top: Any = None
is_leg_cp_temp_same: Any = None
expected_rho_cp: Any = None
expected_rho_tf_leg: Any = None
@@ -299,8 +315,8 @@ class TfResHeatingParam(NamedTuple):
rho_tf_leg=0,
vol_cond_cp=0,
n_tf_turn=1,
- thkcas=0,
- tftort=0.45367650933034859,
+ dr_tf_nose_case=0,
+ dx_tf_inboard_out_toroidal=0.45367650933034859,
len_tf_coil=15.582502857142856,
res_tf_leg=0,
temp_cp_average=347.13,
@@ -329,7 +345,7 @@ class TfResHeatingParam(NamedTuple):
r_tf_inboard_in=0,
r_tf_inboard_out=0.15483000000000002,
itart=1,
- h_cp_top=2.6714285714285717,
+ z_cp_top=2.6714285714285717,
is_leg_cp_temp_same=0,
expected_rho_cp=2.0721414e-08,
expected_rho_tf_leg=2.0721414e-08,
@@ -349,8 +365,8 @@ class TfResHeatingParam(NamedTuple):
rho_tf_leg=2.0721414e-08,
vol_cond_cp=12.020160732580297,
n_tf_turn=1,
- thkcas=0,
- tftort=0.44435902370665786,
+ dr_tf_nose_case=0,
+ dx_tf_inboard_out_toroidal=0.44435902370665786,
len_tf_coil=15.654502857142857,
res_tf_leg=5.647653956699231e-06,
temp_cp_average=347.13,
@@ -379,7 +395,7 @@ class TfResHeatingParam(NamedTuple):
r_tf_inboard_in=0,
r_tf_inboard_out=0.15483000000000002,
itart=1,
- h_cp_top=2.6714285714285717,
+ z_cp_top=2.6714285714285717,
is_leg_cp_temp_same=1,
expected_rho_cp=2.0721414e-08,
expected_rho_tf_leg=2.0721414e-08,
@@ -426,9 +442,15 @@ def test_tf_res_heating(tfresheatingparam, monkeypatch, resistive_tf_coil):
monkeypatch.setattr(tfcoil_variables, "n_tf_turn", tfresheatingparam.n_tf_turn)
- monkeypatch.setattr(tfcoil_variables, "thkcas", tfresheatingparam.thkcas)
+ monkeypatch.setattr(
+ tfcoil_variables, "dr_tf_nose_case", tfresheatingparam.dr_tf_nose_case
+ )
- monkeypatch.setattr(tfcoil_variables, "tftort", tfresheatingparam.tftort)
+ monkeypatch.setattr(
+ tfcoil_variables,
+ "dx_tf_inboard_out_toroidal",
+ tfresheatingparam.dx_tf_inboard_out_toroidal,
+ )
monkeypatch.setattr(tfcoil_variables, "len_tf_coil", tfresheatingparam.len_tf_coil)
@@ -508,7 +530,7 @@ def test_tf_res_heating(tfresheatingparam, monkeypatch, resistive_tf_coil):
monkeypatch.setattr(physics_variables, "itart", tfresheatingparam.itart)
- monkeypatch.setattr(sctfcoil_module, "h_cp_top", tfresheatingparam.h_cp_top)
+ monkeypatch.setattr(sctfcoil_module, "z_cp_top", tfresheatingparam.z_cp_top)
monkeypatch.setattr(
sctfcoil_module, "is_leg_cp_temp_same", tfresheatingparam.is_leg_cp_temp_same
diff --git a/tests/unit/test_sctfcoil.py b/tests/unit/test_sctfcoil.py
index 5db5ffe0ae..eb834093d5 100644
--- a/tests/unit/test_sctfcoil.py
+++ b/tests/unit/test_sctfcoil.py
@@ -397,7 +397,7 @@ class PeakTfWithRippleParam(NamedTuple):
tfin: Any = None
- bmaxtf: Any = None
+ b_tf_inboard_peak: Any = None
expected_tf_fit_t: Any = None
@@ -421,7 +421,7 @@ class PeakTfWithRippleParam(NamedTuple):
wwp1=1.299782604942499,
dr_tf_wp=0.50661087836601015,
tfin=3.789896624292115,
- bmaxtf=11.717722779177526,
+ b_tf_inboard_peak=11.717722779177526,
expected_tf_fit_t=0.80807838916035957,
expected_tf_fit_z=0.3149613642807837,
expected_tf_fit_y=1.0658869305062604,
@@ -436,7 +436,7 @@ class PeakTfWithRippleParam(NamedTuple):
wwp1=1.299782604942499,
dr_tf_wp=0.50661087836601015,
tfin=3.789896624292115,
- bmaxtf=11.717722779177526,
+ b_tf_inboard_peak=11.717722779177526,
expected_tf_fit_t=0.80807838916035957,
expected_tf_fit_z=0.3149613642807837,
expected_tf_fit_y=1.0658869305062604,
@@ -469,7 +469,7 @@ def test_peak_tf_with_ripple(peaktfwithrippleparam, monkeypatch, sctfcoil):
wwp1=peaktfwithrippleparam.wwp1,
dr_tf_wp=peaktfwithrippleparam.dr_tf_wp,
tfin=peaktfwithrippleparam.tfin,
- bmaxtf=peaktfwithrippleparam.bmaxtf,
+ b_tf_inboard_peak=peaktfwithrippleparam.b_tf_inboard_peak,
)
assert sctfcoil_module.tf_fit_t == pytest.approx(
@@ -500,9 +500,9 @@ class TfWpGeomParam(NamedTuple):
casthi: Any = None
- thkcas: Any = None
+ dr_tf_nose_case: Any = None
- casths: Any = None
+ dx_tf_side_case: Any = None
wwp1: Any = None
@@ -528,7 +528,7 @@ class TfWpGeomParam(NamedTuple):
a_ground_ins: Any = None
- theta_coil: Any = None
+ rad_tf_coil_toroidal: Any = None
tan_theta_coil: Any = None
@@ -562,8 +562,8 @@ class TfWpGeomParam(NamedTuple):
r_tf_inboard_out=4.20194118510911,
dr_tf_wp=0.54261087836601019,
casthi=0.060000000000000012,
- thkcas=0.52465000000000006,
- casths=0.05000000000000001,
+ dr_tf_nose_case=0.52465000000000006,
+ dx_tf_side_case=0.05000000000000001,
wwp1=0,
wwp2=0,
tinstf=0.0080000000000000019,
@@ -576,7 +576,7 @@ class TfWpGeomParam(NamedTuple):
t_wp_toroidal=0,
t_wp_toroidal_av=0,
a_ground_ins=0,
- theta_coil=0.19634954084936207,
+ rad_tf_coil_toroidal=0.19634954084936207,
tan_theta_coil=0.19891236737965801,
i_tf_wp_geom=0,
expected_wwp1=1.299782604942499,
@@ -595,8 +595,8 @@ class TfWpGeomParam(NamedTuple):
r_tf_inboard_out=4.20194118510911,
dr_tf_wp=0.54261087836601019,
casthi=0.060000000000000012,
- thkcas=0.52465000000000006,
- casths=0.05000000000000001,
+ dr_tf_nose_case=0.52465000000000006,
+ dx_tf_side_case=0.05000000000000001,
wwp1=1.299782604942499,
wwp2=0,
tinstf=0.0080000000000000019,
@@ -609,7 +609,7 @@ class TfWpGeomParam(NamedTuple):
t_wp_toroidal=1.299782604942499,
t_wp_toroidal_av=1.299782604942499,
a_ground_ins=0.028582295732936136,
- theta_coil=0.19634954084936207,
+ rad_tf_coil_toroidal=0.19634954084936207,
tan_theta_coil=0.19891236737965801,
i_tf_wp_geom=0,
expected_wwp1=1.299782604942499,
@@ -651,9 +651,13 @@ def test_tf_wp_geom(tfwpgeomparam, monkeypatch, sctfcoil):
monkeypatch.setattr(tfcoil_variables, "casthi", tfwpgeomparam.casthi)
- monkeypatch.setattr(tfcoil_variables, "thkcas", tfwpgeomparam.thkcas)
+ monkeypatch.setattr(
+ tfcoil_variables, "dr_tf_nose_case", tfwpgeomparam.dr_tf_nose_case
+ )
- monkeypatch.setattr(tfcoil_variables, "casths", tfwpgeomparam.casths)
+ monkeypatch.setattr(
+ tfcoil_variables, "dx_tf_side_case", tfwpgeomparam.dx_tf_side_case
+ )
monkeypatch.setattr(tfcoil_variables, "wwp1", tfwpgeomparam.wwp1)
@@ -681,7 +685,9 @@ def test_tf_wp_geom(tfwpgeomparam, monkeypatch, sctfcoil):
monkeypatch.setattr(sctfcoil_module, "a_ground_ins", tfwpgeomparam.a_ground_ins)
- monkeypatch.setattr(sctfcoil_module, "theta_coil", tfwpgeomparam.theta_coil)
+ monkeypatch.setattr(
+ sctfcoil_module, "rad_tf_coil_toroidal", tfwpgeomparam.rad_tf_coil_toroidal
+ )
monkeypatch.setattr(sctfcoil_module, "tan_theta_coil", tfwpgeomparam.tan_theta_coil)
@@ -725,11 +731,11 @@ class TfCaseGeomParam(NamedTuple):
a_tf_leg_outboard: Any = None
- tfareain: Any = None
+ a_tf_coil_inboard: Any = None
n_tf_coils: Any = None
- casths: Any = None
+ dx_tf_side_case: Any = None
casthi: Any = None
@@ -751,7 +757,7 @@ class TfCaseGeomParam(NamedTuple):
a_case_nose: Any = None
- theta_coil: Any = None
+ rad_tf_coil_toroidal: Any = None
tan_theta_coil: Any = None
@@ -777,9 +783,9 @@ class TfCaseGeomParam(NamedTuple):
acasetf=0,
acasetfo=0,
a_tf_leg_outboard=1.9805354702921749,
- tfareain=27.308689677971632,
+ a_tf_coil_inboard=27.308689677971632,
n_tf_coils=16,
- casths=0.05000000000000001,
+ dx_tf_side_case=0.05000000000000001,
casthi=0.060000000000000012,
dr_tf_wp=0.54261087836601019,
r_tf_inboard_in=2.9939411851091102,
@@ -790,7 +796,7 @@ class TfCaseGeomParam(NamedTuple):
t_lat_case_av=0,
a_case_front=0,
a_case_nose=0,
- theta_coil=0.19634954084936207,
+ rad_tf_coil_toroidal=0.19634954084936207,
tan_theta_coil=0.19891236737965801,
i_tf_wp_geom=0,
i_tf_case_geom=0,
@@ -804,9 +810,9 @@ class TfCaseGeomParam(NamedTuple):
acasetf=1.0015169239205168,
acasetfo=1.2752592893394648,
a_tf_leg_outboard=1.9805354702921749,
- tfareain=27.308689677971632,
+ a_tf_coil_inboard=27.308689677971632,
n_tf_coils=16,
- casths=0.05000000000000001,
+ dx_tf_side_case=0.05000000000000001,
casthi=0.060000000000000012,
dr_tf_wp=0.54261087836601019,
r_tf_inboard_in=2.9939411851091102,
@@ -817,7 +823,7 @@ class TfCaseGeomParam(NamedTuple):
t_lat_case_av=0.10396600719086938,
a_case_front=0.18607458590131154,
a_case_nose=0.70261616505511615,
- theta_coil=0.19634954084936207,
+ rad_tf_coil_toroidal=0.19634954084936207,
tan_theta_coil=0.19891236737965801,
i_tf_wp_geom=0,
i_tf_case_geom=0,
@@ -850,11 +856,15 @@ def test_tf_case_geom(tfcasegeomparam, monkeypatch, sctfcoil):
tfcoil_variables, "a_tf_leg_outboard", tfcasegeomparam.a_tf_leg_outboard
)
- monkeypatch.setattr(tfcoil_variables, "tfareain", tfcasegeomparam.tfareain)
+ monkeypatch.setattr(
+ tfcoil_variables, "a_tf_coil_inboard", tfcasegeomparam.a_tf_coil_inboard
+ )
monkeypatch.setattr(tfcoil_variables, "n_tf_coils", tfcasegeomparam.n_tf_coils)
- monkeypatch.setattr(tfcoil_variables, "casths", tfcasegeomparam.casths)
+ monkeypatch.setattr(
+ tfcoil_variables, "dx_tf_side_case", tfcasegeomparam.dx_tf_side_case
+ )
monkeypatch.setattr(tfcoil_variables, "casthi", tfcasegeomparam.casthi)
@@ -880,7 +890,9 @@ def test_tf_case_geom(tfcasegeomparam, monkeypatch, sctfcoil):
monkeypatch.setattr(sctfcoil_module, "a_case_nose", tfcasegeomparam.a_case_nose)
- monkeypatch.setattr(sctfcoil_module, "theta_coil", tfcasegeomparam.theta_coil)
+ monkeypatch.setattr(
+ sctfcoil_module, "rad_tf_coil_toroidal", tfcasegeomparam.rad_tf_coil_toroidal
+ )
monkeypatch.setattr(
sctfcoil_module, "tan_theta_coil", tfcasegeomparam.tan_theta_coil
@@ -919,7 +931,7 @@ class TfIntegerTurnGeomParam(NamedTuple):
t_turn_tf: Any = None
- tfc_current: Any = None
+ c_tf_coil: Any = None
t_wp_toroidal: Any = None
@@ -983,7 +995,7 @@ class TfIntegerTurnGeomParam(NamedTuple):
tfinsgap=0.01,
t_conductor=0,
t_turn_tf=0,
- tfc_current=14805350.287500001,
+ c_tf_coil=14805350.287500001,
t_wp_toroidal=1.299782604942499,
t_conductor_radial=0,
t_conductor_toroidal=0,
@@ -1017,7 +1029,7 @@ class TfIntegerTurnGeomParam(NamedTuple):
tfinsgap=0.01,
t_conductor=0.052553108427885735,
t_turn_tf=0.056579413904423038,
- tfc_current=14805350.287500001,
+ c_tf_coil=14805350.287500001,
t_wp_toroidal=1.299782604942499,
t_conductor_radial=0.046661087836601015,
t_conductor_toroidal=0.059189130247124938,
@@ -1072,9 +1084,7 @@ def test_tf_integer_turn_geom(tfintegerturngeomparam, monkeypatch, sctfcoil):
monkeypatch.setattr(tfcoil_variables, "t_turn_tf", tfintegerturngeomparam.t_turn_tf)
- monkeypatch.setattr(
- sctfcoil_module, "tfc_current", tfintegerturngeomparam.tfc_current
- )
+ monkeypatch.setattr(sctfcoil_module, "c_tf_coil", tfintegerturngeomparam.c_tf_coil)
monkeypatch.setattr(
sctfcoil_module, "t_wp_toroidal", tfintegerturngeomparam.t_wp_toroidal
@@ -1195,7 +1205,7 @@ class TfAveragedTurnGeomParam(NamedTuple):
i_tf_sc_mat: Any = None
- jwptf: Any = None
+ j_tf_wp: Any = None
thwcndut: Any = None
@@ -1236,7 +1246,7 @@ class TfAveragedTurnGeomParam(NamedTuple):
t_turn_toroidal=0,
t_cable=0,
i_tf_sc_mat=5,
- jwptf=26493137.688284047,
+ j_tf_wp=26493137.688284047,
thwcndut=0.0080000000000000019,
thicndut=0.00080000000000000004,
expected_t_conductor=0.047932469413859431,
@@ -1262,7 +1272,7 @@ class TfAveragedTurnGeomParam(NamedTuple):
t_turn_toroidal=0.049532469413859428,
t_cable=0.031932469413859424,
i_tf_sc_mat=5,
- jwptf=26493137.688284047,
+ j_tf_wp=26493137.688284047,
thwcndut=0.0080000000000000019,
thicndut=0.00080000000000000004,
expected_t_conductor=0.047932469413859431,
@@ -1288,7 +1298,7 @@ class TfAveragedTurnGeomParam(NamedTuple):
t_turn_toroidal=0.05872,
t_cable=0.04109,
i_tf_sc_mat=1,
- jwptf=2.301e07,
+ j_tf_wp=2.301e07,
thwcndut=8.015e-03,
thicndut=8.0e-4,
expected_t_conductor=5.712e-02,
@@ -1314,7 +1324,7 @@ class TfAveragedTurnGeomParam(NamedTuple):
t_turn_toroidal=0.05872,
t_cable=0.04109,
i_tf_sc_mat=1,
- jwptf=2.673e07,
+ j_tf_wp=2.673e07,
thwcndut=8.148e-03,
thicndut=8.0e-4,
expected_t_conductor=0.058296,
@@ -1386,7 +1396,7 @@ def test_tf_averaged_turn_geom(tfaveragedturngeomparam, monkeypatch, sctfcoil):
acstf, acndttf, insulation_area, n_tf_turn = sctfcoil.tf_averaged_turn_geom(
i_tf_sc_mat=tfaveragedturngeomparam.i_tf_sc_mat,
- jwptf=tfaveragedturngeomparam.jwptf,
+ j_tf_wp=tfaveragedturngeomparam.j_tf_wp,
thwcndut=tfaveragedturngeomparam.thwcndut,
thicndut=tfaveragedturngeomparam.thicndut,
)
@@ -1427,11 +1437,11 @@ class TfWpCurrentsParam(NamedTuple):
n_tf_coils: Any = None
- jwptf: Any = None
+ j_tf_wp: Any = None
awptf: Any = None
- expected_jwptf: Any = None
+ expected_j_tf_wp: Any = None
@pytest.mark.parametrize(
@@ -1440,16 +1450,16 @@ class TfWpCurrentsParam(NamedTuple):
TfWpCurrentsParam(
c_tf_total=256500000.00000003,
n_tf_coils=16,
- jwptf=0,
+ j_tf_wp=0,
awptf=0.60510952642236249,
- expected_jwptf=26493137.688284047,
+ expected_j_tf_wp=26493137.688284047,
),
TfWpCurrentsParam(
c_tf_total=256500000.00000003,
n_tf_coils=16,
- jwptf=26493137.688284047,
+ j_tf_wp=26493137.688284047,
awptf=0.60510952642236249,
- expected_jwptf=26493137.688284047,
+ expected_j_tf_wp=26493137.688284047,
),
),
)
@@ -1470,13 +1480,13 @@ def test_tf_wp_currents(tfwpcurrentsparam, monkeypatch, sctfcoil):
monkeypatch.setattr(tfcoil_variables, "n_tf_coils", tfwpcurrentsparam.n_tf_coils)
- monkeypatch.setattr(tfcoil_variables, "jwptf", tfwpcurrentsparam.jwptf)
+ monkeypatch.setattr(tfcoil_variables, "j_tf_wp", tfwpcurrentsparam.j_tf_wp)
monkeypatch.setattr(sctfcoil_module, "awptf", tfwpcurrentsparam.awptf)
sctfcoil.tf_wp_currents()
- assert tfcoil_variables.jwptf == pytest.approx(tfwpcurrentsparam.expected_jwptf)
+ assert tfcoil_variables.j_tf_wp == pytest.approx(tfwpcurrentsparam.expected_j_tf_wp)
def test_vv_stress_on_quench():
@@ -1569,7 +1579,7 @@ def test_vv_stress_on_quench_integration(sctfcoil, monkeypatch):
monkeypatch.setattr(tfcoil_variables, "n_tf_coils", 18) # Section 3
monkeypatch.setattr(tfcoil_variables, "n_tf_turn", 192) # Section 3
monkeypatch.setattr(tfcoil_variables, "tdmptf", 30) # Figure 6
- monkeypatch.setattr(sctfcoil_module, "tfc_current", 83200 * 192) # Section 3
+ monkeypatch.setattr(sctfcoil_module, "c_tf_coil", 83200 * 192) # Section 3
monkeypatch.setattr(
build_variables, "r_vv_inboard_out", 4.45 + (build_variables.dr_vv_inboard / 2)
diff --git a/tests/unit/test_stellarator.py b/tests/unit/test_stellarator.py
index eed3d301ef..1d6490a33d 100644
--- a/tests/unit/test_stellarator.py
+++ b/tests/unit/test_stellarator.py
@@ -694,7 +694,7 @@ class StstrcParam(NamedTuple):
gsmass: Any = None
- whttf: Any = None
+ m_tf_coils_total: Any = None
tcritsc: Any = None
@@ -702,7 +702,7 @@ class StstrcParam(NamedTuple):
vtfskv: Any = None
- tftort: Any = None
+ dx_tf_inboard_out_toroidal: Any = None
stella_config_coilsurface: Any = None
@@ -736,11 +736,11 @@ class StstrcParam(NamedTuple):
coldmass=0,
fncmass=0,
gsmass=0,
- whttf=5204872.8206625767,
+ m_tf_coils_total=5204872.8206625767,
tcritsc=16,
estotftgj=132.55990646265246,
vtfskv=4.3242392290600487,
- tftort=0.67648706726464258,
+ dx_tf_inboard_out_toroidal=0.67648706726464258,
stella_config_coilsurface=4817.6999999999998,
stella_config_coillength=1680,
f_n=1,
@@ -760,11 +760,11 @@ class StstrcParam(NamedTuple):
coldmass=10087177.087209985,
fncmass=0,
gsmass=0,
- whttf=5204872.8206625767,
+ m_tf_coils_total=5204872.8206625767,
tcritsc=16,
estotftgj=132.55990646265246,
vtfskv=4.3242392290600487,
- tftort=0.67648706726464258,
+ dx_tf_inboard_out_toroidal=0.67648706726464258,
stella_config_coilsurface=4817.6999999999998,
stella_config_coillength=1680,
f_n=1,
@@ -805,7 +805,9 @@ def test_ststrc(ststrcparam, monkeypatch, stellarator):
monkeypatch.setattr(structure_variables, "gsmass", ststrcparam.gsmass)
- monkeypatch.setattr(tfcoil_variables, "whttf", ststrcparam.whttf)
+ monkeypatch.setattr(
+ tfcoil_variables, "m_tf_coils_total", ststrcparam.m_tf_coils_total
+ )
monkeypatch.setattr(tfcoil_variables, "tcritsc", ststrcparam.tcritsc)
@@ -813,7 +815,11 @@ def test_ststrc(ststrcparam, monkeypatch, stellarator):
monkeypatch.setattr(tfcoil_variables, "vtfskv", ststrcparam.vtfskv)
- monkeypatch.setattr(tfcoil_variables, "tftort", ststrcparam.tftort)
+ monkeypatch.setattr(
+ tfcoil_variables,
+ "dx_tf_inboard_out_toroidal",
+ ststrcparam.dx_tf_inboard_out_toroidal,
+ )
monkeypatch.setattr(
stellarator_configuration,
diff --git a/tests/unit/test_tfcoil.py b/tests/unit/test_tfcoil.py
index b7105ad8f0..c773406243 100644
--- a/tests/unit/test_tfcoil.py
+++ b/tests/unit/test_tfcoil.py
@@ -251,11 +251,11 @@ class TfGlobalGeometryParam(NamedTuple):
dr_tf_outboard: Any = None
- tfareain: Any = None
+ a_tf_coil_inboard: Any = None
c_tf_total: Any = None
- tftort: Any = None
+ dx_tf_inboard_out_toroidal: Any = None
n_tf_coils: Any = None
@@ -273,19 +273,19 @@ class TfGlobalGeometryParam(NamedTuple):
rminor: Any = None
- h_cp_top: Any = None
+ z_cp_top: Any = None
r_tf_outboard_in: Any = None
r_tf_outboard_out: Any = None
- theta_coil: Any = None
+ rad_tf_coil_toroidal: Any = None
tan_theta_coil: Any = None
- expected_tfareain: Any = None
+ expected_a_tf_coil_inboard: Any = None
- expected_tftort: Any = None
+ expected_dx_tf_inboard_out_toroidal: Any = None
expected_a_tf_leg_outboard: Any = None
@@ -307,9 +307,9 @@ class TfGlobalGeometryParam(NamedTuple):
r_tf_inboard_in=2.9939411851091102,
r_tf_inboard_out=4.20194118510911,
dr_tf_outboard=1.208,
- tfareain=0,
+ a_tf_coil_inboard=0,
c_tf_total=0,
- tftort=1,
+ dx_tf_inboard_out_toroidal=1,
n_tf_coils=16,
a_tf_leg_outboard=0,
i_tf_sup=1,
@@ -318,13 +318,13 @@ class TfGlobalGeometryParam(NamedTuple):
itart=0,
kappa=1.8480000000000001,
rminor=2.8677741935483869,
- h_cp_top=0,
+ z_cp_top=0,
r_tf_outboard_in=0,
r_tf_outboard_out=0,
- theta_coil=0,
+ rad_tf_coil_toroidal=0,
tan_theta_coil=0,
- expected_tfareain=27.308689677971632,
- expected_tftort=1.6395161177915356,
+ expected_a_tf_coil_inboard=27.308689677971632,
+ expected_dx_tf_inboard_out_toroidal=1.6395161177915356,
expected_a_tf_leg_outboard=1.9805354702921749,
expected_r_tf_outboard_in=15.915405859443332,
expected_r_tf_outboard_out=17.123405859443331,
@@ -337,9 +337,9 @@ class TfGlobalGeometryParam(NamedTuple):
r_tf_inboard_in=2.9538679176819831,
r_tf_inboard_out=4.4822055399518357,
dr_tf_outboard=1.5283376222698528,
- tfareain=35.703669036223495,
+ a_tf_coil_inboard=35.703669036223495,
c_tf_total=241812532.66279837,
- tftort=1.7488698442633552,
+ dx_tf_inboard_out_toroidal=1.7488698442633552,
n_tf_coils=16,
a_tf_leg_outboard=2.6728635794409041,
i_tf_sup=1,
@@ -348,13 +348,13 @@ class TfGlobalGeometryParam(NamedTuple):
itart=0,
kappa=1.8480000000000001,
rminor=2.9620024998595755,
- h_cp_top=0,
+ z_cp_top=0,
r_tf_outboard_in=16.299182480677967,
r_tf_outboard_out=17.827520102947819,
- theta_coil=0.19634954084936207,
+ rad_tf_coil_toroidal=0.19634954084936207,
tan_theta_coil=0.19891236737965801,
- expected_tfareain=35.703669036223495,
- expected_tftort=1.7488698442633552,
+ expected_a_tf_coil_inboard=35.703669036223495,
+ expected_dx_tf_inboard_out_toroidal=1.7488698442633552,
expected_a_tf_leg_outboard=2.6728635794409041,
expected_r_tf_outboard_in=16.299182480677967,
expected_r_tf_outboard_out=17.827520102947819,
@@ -397,13 +397,19 @@ def test_tf_global_geometry(tfglobalgeometryparam, monkeypatch, tfcoil):
build_variables, "dr_tf_outboard", tfglobalgeometryparam.dr_tf_outboard
)
- monkeypatch.setattr(tfcoil_variables, "tfareain", tfglobalgeometryparam.tfareain)
+ monkeypatch.setattr(
+ tfcoil_variables, "a_tf_coil_inboard", tfglobalgeometryparam.a_tf_coil_inboard
+ )
monkeypatch.setattr(
tfcoil_variables, "c_tf_total", tfglobalgeometryparam.c_tf_total
)
- monkeypatch.setattr(tfcoil_variables, "tftort", tfglobalgeometryparam.tftort)
+ monkeypatch.setattr(
+ tfcoil_variables,
+ "dx_tf_inboard_out_toroidal",
+ tfglobalgeometryparam.dx_tf_inboard_out_toroidal,
+ )
monkeypatch.setattr(
tfcoil_variables, "n_tf_coils", tfglobalgeometryparam.n_tf_coils
@@ -427,7 +433,7 @@ def test_tf_global_geometry(tfglobalgeometryparam, monkeypatch, tfcoil):
monkeypatch.setattr(physics_variables, "rminor", tfglobalgeometryparam.rminor)
- monkeypatch.setattr(sctfcoil_module, "h_cp_top", tfglobalgeometryparam.h_cp_top)
+ monkeypatch.setattr(sctfcoil_module, "z_cp_top", tfglobalgeometryparam.z_cp_top)
monkeypatch.setattr(
sctfcoil_module, "r_tf_outboard_in", tfglobalgeometryparam.r_tf_outboard_in
@@ -437,7 +443,11 @@ def test_tf_global_geometry(tfglobalgeometryparam, monkeypatch, tfcoil):
sctfcoil_module, "r_tf_outboard_out", tfglobalgeometryparam.r_tf_outboard_out
)
- monkeypatch.setattr(sctfcoil_module, "theta_coil", tfglobalgeometryparam.theta_coil)
+ monkeypatch.setattr(
+ sctfcoil_module,
+ "rad_tf_coil_toroidal",
+ tfglobalgeometryparam.rad_tf_coil_toroidal,
+ )
monkeypatch.setattr(
sctfcoil_module, "tan_theta_coil", tfglobalgeometryparam.tan_theta_coil
@@ -445,12 +455,12 @@ def test_tf_global_geometry(tfglobalgeometryparam, monkeypatch, tfcoil):
tfcoil.tf_global_geometry()
- assert tfcoil_variables.tfareain == pytest.approx(
- tfglobalgeometryparam.expected_tfareain
+ assert tfcoil_variables.a_tf_coil_inboard == pytest.approx(
+ tfglobalgeometryparam.expected_a_tf_coil_inboard
)
- assert tfcoil_variables.tftort == pytest.approx(
- tfglobalgeometryparam.expected_tftort
+ assert tfcoil_variables.dx_tf_inboard_out_toroidal == pytest.approx(
+ tfglobalgeometryparam.expected_dx_tf_inboard_out_toroidal
)
assert tfcoil_variables.a_tf_leg_outboard == pytest.approx(
@@ -465,7 +475,7 @@ def test_tf_global_geometry(tfglobalgeometryparam, monkeypatch, tfcoil):
tfglobalgeometryparam.expected_r_tf_outboard_out
)
- assert sctfcoil_module.theta_coil == pytest.approx(
+ assert sctfcoil_module.rad_tf_coil_toroidal == pytest.approx(
tfglobalgeometryparam.expected_theta_coil
)
@@ -479,7 +489,7 @@ class TfCurrentParam(NamedTuple):
c_tf_total: Any = None
- rbmax: Any = None
+ r_b_tf_inboard_peak: Any = None
i_tf_sup: Any = None
@@ -487,15 +497,15 @@ class TfCurrentParam(NamedTuple):
tinstf: Any = None
- tftort: Any = None
+ dx_tf_inboard_out_toroidal: Any = None
- bmaxtf: Any = None
+ b_tf_inboard_peak: Any = None
tfinsgap: Any = None
tfc_sidewall_is_fraction: Any = None
- casths: Any = None
+ dx_tf_side_case: Any = None
casthi_is_fraction: Any = None
@@ -505,11 +515,11 @@ class TfCurrentParam(NamedTuple):
thicndut: Any = None
- thkcas: Any = None
+ dr_tf_nose_case: Any = None
oacdcp: Any = None
- tfareain: Any = None
+ a_tf_coil_inboard: Any = None
r_tf_inboard_out: Any = None
@@ -521,19 +531,19 @@ class TfCurrentParam(NamedTuple):
rmajor: Any = None
- tfc_current: Any = None
+ c_tf_coil: Any = None
- theta_coil: Any = None
+ rad_tf_coil_toroidal: Any = None
expected_c_tf_total: Any = None
- expected_rbmax: Any = None
+ expected_r_b_tf_inboard_peak: Any = None
- expected_bmaxtf: Any = None
+ expected_b_tf_inboard_peak: Any = None
expected_oacdcp: Any = None
- expected_tfc_current: Any = None
+ expected_c_tf_coil: Any = None
@pytest.mark.parametrize(
@@ -542,34 +552,34 @@ class TfCurrentParam(NamedTuple):
TfCurrentParam(
casthi=0.060000000000000012,
c_tf_total=0,
- rbmax=0,
+ r_b_tf_inboard_peak=0,
i_tf_sup=1,
casths_fraction=0.059999999999999998,
tinstf=0.0080000000000000019,
- tftort=1.6395161177915356,
- bmaxtf=0,
+ dx_tf_inboard_out_toroidal=1.6395161177915356,
+ b_tf_inboard_peak=0,
tfinsgap=0.01,
tfc_sidewall_is_fraction=False,
- casths=0.05000000000000001,
+ dx_tf_side_case=0.05000000000000001,
casthi_is_fraction=False,
casthi_fraction=0.050000000000000003,
n_tf_coils=16,
thicndut=0.002,
- thkcas=0.52465000000000006,
+ dr_tf_nose_case=0.52465000000000006,
oacdcp=8673900,
- tfareain=27.308689677971632,
+ a_tf_coil_inboard=27.308689677971632,
r_tf_inboard_out=4.20194118510911,
r_tf_inboard_in=2.9939411851091102,
dr_tf_inboard=1.208,
bt=5.3292000000000002,
rmajor=8.8901000000000003,
- tfc_current=0,
- theta_coil=0.19634954084936207,
+ c_tf_coil=0,
+ rad_tf_coil_toroidal=0.19634954084936207,
expected_c_tf_total=236885604.60000002,
- expected_rbmax=4.0432020634751211,
- expected_bmaxtf=11.717722779177526,
+ expected_r_b_tf_inboard_peak=4.0432020634751211,
+ expected_b_tf_inboard_peak=11.717722779177526,
expected_oacdcp=8674367.2945641987,
- expected_tfc_current=14805350.287500001,
+ expected_c_tf_coil=14805350.287500001,
),
),
)
@@ -593,7 +603,9 @@ def test_tf_current(tfcurrentparam, monkeypatch, tfcoil):
monkeypatch.setattr(tfcoil_variables, "c_tf_total", tfcurrentparam.c_tf_total)
- monkeypatch.setattr(tfcoil_variables, "rbmax", tfcurrentparam.rbmax)
+ monkeypatch.setattr(
+ tfcoil_variables, "r_b_tf_inboard_peak", tfcurrentparam.r_b_tf_inboard_peak
+ )
monkeypatch.setattr(tfcoil_variables, "i_tf_sup", tfcurrentparam.i_tf_sup)
@@ -603,9 +615,15 @@ def test_tf_current(tfcurrentparam, monkeypatch, tfcoil):
monkeypatch.setattr(tfcoil_variables, "tinstf", tfcurrentparam.tinstf)
- monkeypatch.setattr(tfcoil_variables, "tftort", tfcurrentparam.tftort)
+ monkeypatch.setattr(
+ tfcoil_variables,
+ "dx_tf_inboard_out_toroidal",
+ tfcurrentparam.dx_tf_inboard_out_toroidal,
+ )
- monkeypatch.setattr(tfcoil_variables, "bmaxtf", tfcurrentparam.bmaxtf)
+ monkeypatch.setattr(
+ tfcoil_variables, "b_tf_inboard_peak", tfcurrentparam.b_tf_inboard_peak
+ )
monkeypatch.setattr(tfcoil_variables, "tfinsgap", tfcurrentparam.tfinsgap)
@@ -615,7 +633,9 @@ def test_tf_current(tfcurrentparam, monkeypatch, tfcoil):
tfcurrentparam.tfc_sidewall_is_fraction,
)
- monkeypatch.setattr(tfcoil_variables, "casths", tfcurrentparam.casths)
+ monkeypatch.setattr(
+ tfcoil_variables, "dx_tf_side_case", tfcurrentparam.dx_tf_side_case
+ )
monkeypatch.setattr(
tfcoil_variables, "casthi_is_fraction", tfcurrentparam.casthi_is_fraction
@@ -629,11 +649,15 @@ def test_tf_current(tfcurrentparam, monkeypatch, tfcoil):
monkeypatch.setattr(tfcoil_variables, "thicndut", tfcurrentparam.thicndut)
- monkeypatch.setattr(tfcoil_variables, "thkcas", tfcurrentparam.thkcas)
+ monkeypatch.setattr(
+ tfcoil_variables, "dr_tf_nose_case", tfcurrentparam.dr_tf_nose_case
+ )
monkeypatch.setattr(tfcoil_variables, "oacdcp", tfcurrentparam.oacdcp)
- monkeypatch.setattr(tfcoil_variables, "tfareain", tfcurrentparam.tfareain)
+ monkeypatch.setattr(
+ tfcoil_variables, "a_tf_coil_inboard", tfcurrentparam.a_tf_coil_inboard
+ )
monkeypatch.setattr(
build_variables, "r_tf_inboard_out", tfcurrentparam.r_tf_inboard_out
@@ -649,9 +673,11 @@ def test_tf_current(tfcurrentparam, monkeypatch, tfcoil):
monkeypatch.setattr(physics_variables, "rmajor", tfcurrentparam.rmajor)
- monkeypatch.setattr(sctfcoil_module, "tfc_current", tfcurrentparam.tfc_current)
+ monkeypatch.setattr(sctfcoil_module, "c_tf_coil", tfcurrentparam.c_tf_coil)
- monkeypatch.setattr(sctfcoil_module, "theta_coil", tfcurrentparam.theta_coil)
+ monkeypatch.setattr(
+ sctfcoil_module, "rad_tf_coil_toroidal", tfcurrentparam.rad_tf_coil_toroidal
+ )
tfcoil.tf_current()
@@ -659,15 +685,17 @@ def test_tf_current(tfcurrentparam, monkeypatch, tfcoil):
tfcurrentparam.expected_c_tf_total
)
- assert tfcoil_variables.rbmax == pytest.approx(tfcurrentparam.expected_rbmax)
+ assert tfcoil_variables.r_b_tf_inboard_peak == pytest.approx(
+ tfcurrentparam.expected_r_b_tf_inboard_peak
+ )
- assert tfcoil_variables.bmaxtf == pytest.approx(tfcurrentparam.expected_bmaxtf)
+ assert tfcoil_variables.b_tf_inboard_peak == pytest.approx(
+ tfcurrentparam.expected_b_tf_inboard_peak
+ )
assert tfcoil_variables.oacdcp == pytest.approx(tfcurrentparam.expected_oacdcp)
- assert sctfcoil_module.tfc_current == pytest.approx(
- tfcurrentparam.expected_tfc_current
- )
+ assert sctfcoil_module.c_tf_coil == pytest.approx(tfcurrentparam.expected_c_tf_coil)
@pytest.mark.parametrize(
@@ -729,7 +757,7 @@ class TfFieldAndForceParam(NamedTuple):
c_tf_total: Any = None
- bmaxtf: Any = None
+ b_tf_inboard_peak: Any = None
i_tf_sup: Any = None
@@ -786,7 +814,7 @@ class TfFieldAndForceParam(NamedTuple):
sigvvall=93000000,
cforce=0,
c_tf_total=25500000,
- bmaxtf=34.862617362267024,
+ b_tf_inboard_peak=34.862617362267024,
i_tf_sup=0,
f_vforce_inboard=0.5,
vforce_outboard=0,
@@ -821,7 +849,7 @@ class TfFieldAndForceParam(NamedTuple):
sigvvall=93000000,
cforce=37041530.947408713,
c_tf_total=25500000,
- bmaxtf=34.862617362267024,
+ b_tf_inboard_peak=34.862617362267024,
i_tf_sup=0,
f_vforce_inboard=0.59539634897566385,
vforce_outboard=8413494.7991220243,
@@ -886,7 +914,9 @@ def test_tf_field_and_force(tffieldandforceparam, monkeypatch, tfcoil):
monkeypatch.setattr(tfcoil_variables, "c_tf_total", tffieldandforceparam.c_tf_total)
- monkeypatch.setattr(tfcoil_variables, "bmaxtf", tffieldandforceparam.bmaxtf)
+ monkeypatch.setattr(
+ tfcoil_variables, "b_tf_inboard_peak", tffieldandforceparam.b_tf_inboard_peak
+ )
monkeypatch.setattr(tfcoil_variables, "i_tf_sup", tffieldandforceparam.i_tf_sup)
@@ -952,13 +982,13 @@ class TfcindParam(NamedTuple):
xarc: Any = None
- tfind: Any = None
+ ind_tf_coil: Any = None
tfthk: Any = None
expected_yarc: Any = None
- expected_tfind: Any = None
+ expected_ind_tf_coil: Any = None
@pytest.mark.parametrize(
@@ -985,9 +1015,9 @@ class TfcindParam(NamedTuple):
),
order="F",
),
- tfind=0,
+ ind_tf_coil=0,
tfthk=1.208,
- expected_tfind=5.4453892599192845e-06,
+ expected_ind_tf_coil=5.4453892599192845e-06,
),
TfcindParam(
yarc=np.array(
@@ -1010,9 +1040,9 @@ class TfcindParam(NamedTuple):
),
order="F",
),
- tfind=5.4524893280368181e-06,
+ ind_tf_coil=5.4524893280368181e-06,
tfthk=1.208,
- expected_tfind=5.4524893280368181e-06,
+ expected_ind_tf_coil=5.4524893280368181e-06,
),
),
)
@@ -1029,13 +1059,13 @@ def test_tfcind(tfcindparam, monkeypatch, tfcoil):
:type monkeypatch: _pytest.monkeypatch.monkeypatch
"""
- monkeypatch.setattr(tfcoil_variables, "tfind", tfcindparam.tfind)
+ monkeypatch.setattr(tfcoil_variables, "ind_tf_coil", tfcindparam.ind_tf_coil)
- tfind = tfcoil.tfcind(
+ ind_tf_coil = tfcoil.tfcind(
tfthk=tfcindparam.tfthk, xarc=tfcindparam.xarc, yarc=tfcindparam.yarc
)
- assert tfind == pytest.approx(tfcindparam.expected_tfind)
+ assert ind_tf_coil == pytest.approx(tfcindparam.expected_ind_tf_coil)
class TfCoilAreaAndMassesParam(NamedTuple):
@@ -1055,9 +1085,9 @@ class TfCoilAreaAndMassesParam(NamedTuple):
denstl: Any = None
- whtconsh: Any = None
+ m_tf_turn_steel_conduit: Any = None
- whttf: Any = None
+ m_tf_coils_total: Any = None
whtcas: Any = None
@@ -1093,7 +1123,7 @@ class TfCoilAreaAndMassesParam(NamedTuple):
n_tf_coils: Any = None
- aiwp: Any = None
+ a_tf_coil_wp_turn_insulation: Any = None
acasetfo: Any = None
@@ -1119,7 +1149,7 @@ class TfCoilAreaAndMassesParam(NamedTuple):
a_tf_leg_outboard: Any = None
- thkcas: Any = None
+ dr_tf_nose_case: Any = None
voltfleg: Any = None
@@ -1143,11 +1173,11 @@ class TfCoilAreaAndMassesParam(NamedTuple):
a_leg_cond: Any = None
- theta_coil: Any = None
+ rad_tf_coil_toroidal: Any = None
tan_theta_coil: Any = None
- expected_whtconsh: Any = None
+ expected_m_tf_turn_steel_conduit: Any = None
expected_whtcas: Any = None
@@ -1182,8 +1212,8 @@ class TfCoilAreaAndMassesParam(NamedTuple):
r_tf_inboard_out=4.20194118510911,
hmax=9.0730900215620327,
denstl=7800,
- whtconsh=0,
- whttf=0,
+ m_tf_turn_steel_conduit=0,
+ m_tf_coils_total=0,
whtcas=0,
tficrn=0,
tfcryoarea=0,
@@ -1206,7 +1236,7 @@ class TfCoilAreaAndMassesParam(NamedTuple):
acndttf=0.0014685061538103825,
n_tf_turn=200,
n_tf_coils=16,
- aiwp=0.087880174466980876,
+ a_tf_coil_wp_turn_insulation=0.087880174466980876,
acasetfo=1.2752592893394648,
acasetf=1.0015169239205168,
fcutfsu=0.80884,
@@ -1219,7 +1249,7 @@ class TfCoilAreaAndMassesParam(NamedTuple):
i_tf_sup=1,
i_tf_sc_mat=5,
a_tf_leg_outboard=1.9805354702921749,
- thkcas=0.52465000000000006,
+ dr_tf_nose_case=0.52465000000000006,
voltfleg=0,
cplen=0,
itart=0,
@@ -1231,9 +1261,9 @@ class TfCoilAreaAndMassesParam(NamedTuple):
a_leg_ins=0,
a_leg_gr_ins=0,
a_leg_cond=0,
- theta_coil=0.19634954084936207,
+ rad_tf_coil_toroidal=0.19634954084936207,
tan_theta_coil=0.19891236737965801,
- expected_whtconsh=115651.90127937049,
+ expected_m_tf_turn_steel_conduit=115651.90127937049,
expected_whtcas=1034021.9996272125,
expected_tficrn=0.8197580588957678,
expected_tfcryoarea=6381.2092203414386,
@@ -1254,8 +1284,8 @@ class TfCoilAreaAndMassesParam(NamedTuple):
r_tf_inboard_out=4.20194118510911,
hmax=9.0730900215620327,
denstl=7800,
- whtconsh=115651.90127937049,
- whttf=19649856.627845347,
+ m_tf_turn_steel_conduit=115651.90127937049,
+ m_tf_coils_total=19649856.627845347,
whtcas=1034021.9996272125,
tficrn=0.8197580588957678,
tfcryoarea=6381.2092203414386,
@@ -1278,7 +1308,7 @@ class TfCoilAreaAndMassesParam(NamedTuple):
acndttf=0.0014685061538103825,
n_tf_turn=200,
n_tf_coils=16,
- aiwp=0.087880174466980876,
+ a_tf_coil_wp_turn_insulation=0.087880174466980876,
acasetfo=1.2752592893394648,
acasetf=1.0015169239205168,
fcutfsu=0.80884,
@@ -1291,7 +1321,7 @@ class TfCoilAreaAndMassesParam(NamedTuple):
i_tf_sup=1,
i_tf_sc_mat=5,
a_tf_leg_outboard=1.9805354702921749,
- thkcas=0.52465000000000006,
+ dr_tf_nose_case=0.52465000000000006,
voltfleg=0,
cplen=20.562180043124066,
itart=0,
@@ -1303,9 +1333,9 @@ class TfCoilAreaAndMassesParam(NamedTuple):
a_leg_ins=0,
a_leg_gr_ins=0,
a_leg_cond=0,
- theta_coil=0.19634954084936207,
+ rad_tf_coil_toroidal=0.19634954084936207,
tan_theta_coil=0.19891236737965801,
- expected_whtconsh=115721.02357090525,
+ expected_m_tf_turn_steel_conduit=115721.02357090525,
expected_whtcas=1034699.2182961091,
expected_tficrn=0.8197580588957678,
expected_tfcryoarea=6385.0231118485681,
@@ -1358,9 +1388,15 @@ def test_tf_coil_area_and_masses(tfcoilareaandmassesparam, monkeypatch, tfcoil):
monkeypatch.setattr(fwbs_variables, "denstl", tfcoilareaandmassesparam.denstl)
- monkeypatch.setattr(tfcoil_variables, "whtconsh", tfcoilareaandmassesparam.whtconsh)
+ monkeypatch.setattr(
+ tfcoil_variables,
+ "m_tf_turn_steel_conduit",
+ tfcoilareaandmassesparam.m_tf_turn_steel_conduit,
+ )
- monkeypatch.setattr(tfcoil_variables, "whttf", tfcoilareaandmassesparam.whttf)
+ monkeypatch.setattr(
+ tfcoil_variables, "m_tf_coils_total", tfcoilareaandmassesparam.m_tf_coils_total
+ )
monkeypatch.setattr(tfcoil_variables, "whtcas", tfcoilareaandmassesparam.whtcas)
@@ -1408,7 +1444,11 @@ def test_tf_coil_area_and_masses(tfcoilareaandmassesparam, monkeypatch, tfcoil):
tfcoil_variables, "n_tf_coils", tfcoilareaandmassesparam.n_tf_coils
)
- monkeypatch.setattr(tfcoil_variables, "aiwp", tfcoilareaandmassesparam.aiwp)
+ monkeypatch.setattr(
+ tfcoil_variables,
+ "a_tf_coil_wp_turn_insulation",
+ tfcoilareaandmassesparam.a_tf_coil_wp_turn_insulation,
+ )
monkeypatch.setattr(tfcoil_variables, "acasetfo", tfcoilareaandmassesparam.acasetfo)
@@ -1442,7 +1482,9 @@ def test_tf_coil_area_and_masses(tfcoilareaandmassesparam, monkeypatch, tfcoil):
tfcoilareaandmassesparam.a_tf_leg_outboard,
)
- monkeypatch.setattr(tfcoil_variables, "thkcas", tfcoilareaandmassesparam.thkcas)
+ monkeypatch.setattr(
+ tfcoil_variables, "dr_tf_nose_case", tfcoilareaandmassesparam.dr_tf_nose_case
+ )
monkeypatch.setattr(tfcoil_variables, "voltfleg", tfcoilareaandmassesparam.voltfleg)
@@ -1479,7 +1521,9 @@ def test_tf_coil_area_and_masses(tfcoilareaandmassesparam, monkeypatch, tfcoil):
)
monkeypatch.setattr(
- sctfcoil_module, "theta_coil", tfcoilareaandmassesparam.theta_coil
+ sctfcoil_module,
+ "rad_tf_coil_toroidal",
+ tfcoilareaandmassesparam.rad_tf_coil_toroidal,
)
monkeypatch.setattr(
@@ -1488,8 +1532,8 @@ def test_tf_coil_area_and_masses(tfcoilareaandmassesparam, monkeypatch, tfcoil):
tfcoil.tf_coil_area_and_masses()
- assert tfcoil_variables.whtconsh == pytest.approx(
- tfcoilareaandmassesparam.expected_whtconsh
+ assert tfcoil_variables.m_tf_turn_steel_conduit == pytest.approx(
+ tfcoilareaandmassesparam.expected_m_tf_turn_steel_conduit
)
assert tfcoil_variables.whtcas == pytest.approx(
@@ -1564,7 +1608,7 @@ class StressclParam(NamedTuple):
c_tf_total: Any = None
- jwptf: Any = None
+ j_tf_wp: Any = None
sig_tf_cs_bucked: Any = None
@@ -1614,7 +1658,7 @@ class StressclParam(NamedTuple):
eyoung_copper: Any = None
- aiwp: Any = None
+ a_tf_coil_wp_turn_insulation: Any = None
aswp: Any = None
@@ -1686,7 +1730,7 @@ class StressclParam(NamedTuple):
a_case_nose: Any = None
- theta_coil: Any = None
+ rad_tf_coil_toroidal: Any = None
tan_theta_coil: Any = None
@@ -1734,7 +1778,7 @@ class StressclParam(NamedTuple):
acstf=0.001293323051622732,
vforce=250545611.13801825,
c_tf_total=236885604.60000002,
- jwptf=23124470.793774806,
+ j_tf_wp=23124470.793774806,
sig_tf_cs_bucked=0,
sig_tf_case=0,
sig_tf_wp=0,
@@ -1759,7 +1803,7 @@ class StressclParam(NamedTuple):
eyoung_ins=20000000000,
eyoung_al=np.array(69000000000.0),
eyoung_copper=np.array(117000000000.0),
- aiwp=0.087880174466980876,
+ a_tf_coil_wp_turn_insulation=0.087880174466980876,
aswp=0.29370123076207649,
cpttf=74026.751437500003,
n_tf_coils=16,
@@ -1826,7 +1870,7 @@ class StressclParam(NamedTuple):
t_lat_case_av=0.10396600719086938,
a_case_front=0.18607458590131154,
a_case_nose=0.70261616505511615,
- theta_coil=0.19634954084936207,
+ rad_tf_coil_toroidal=0.19634954084936207,
tan_theta_coil=0.19891236737965801,
t_cable_radial=0.030661087836601014,
t_cable=0.036389912284773368,
@@ -1857,7 +1901,7 @@ class StressclParam(NamedTuple):
acstf=0.001293323051622732,
vforce=250545611.13801825,
c_tf_total=236885604.60000002,
- jwptf=23124470.793774806,
+ j_tf_wp=23124470.793774806,
sig_tf_cs_bucked=0,
sig_tf_case=543381805.25001633,
sig_tf_wp=397005702.35272157,
@@ -1882,7 +1926,7 @@ class StressclParam(NamedTuple):
eyoung_ins=20000000000,
eyoung_al=np.array(69000000000.0),
eyoung_copper=np.array(117000000000.0),
- aiwp=0.087880174466980876,
+ a_tf_coil_wp_turn_insulation=0.087880174466980876,
aswp=0.29370123076207649,
cpttf=74026.751437500003,
n_tf_coils=16,
@@ -1949,7 +1993,7 @@ class StressclParam(NamedTuple):
t_lat_case_av=0.10396600719086938,
a_case_front=0.18607458590131154,
a_case_nose=0.70261616505511615,
- theta_coil=0.19634954084936207,
+ rad_tf_coil_toroidal=0.19634954084936207,
tan_theta_coil=0.19891236737965801,
t_cable_radial=0.030661087836601014,
t_cable=0.036389912284773368,
@@ -2050,7 +2094,7 @@ def test_stresscl(stressclparam, monkeypatch, tfcoil):
stressclparam.eyoung_res_tf_buck,
stressclparam.r_wp_inner,
stressclparam.tan_theta_coil,
- stressclparam.theta_coil,
+ stressclparam.rad_tf_coil_toroidal,
stressclparam.r_wp_outer,
stressclparam.a_tf_steel,
stressclparam.a_case_front,
diff --git a/tracking/tracking_data.py b/tracking/tracking_data.py
index 0af82f6d72..031ddf410a 100644
--- a/tracking/tracking_data.py
+++ b/tracking/tracking_data.py
@@ -152,7 +152,7 @@ class ProcessTracker:
"pgrossmw",
"tftmp",
"n_tf_coils",
- "bmaxtf",
+ "b_tf_inboard_peak",
"vs_cs_pf_total_pulse",
"nd_ions_total",
"t_burn",