ARIES parametric/systems calculations ( ver. 272)06/18/99

See also the Input File.

 
ECONOMIC BASIS Costing reference year 1992 Construction lead time (y) 6 Escalation/general-inflation rate (%/y) [nominal] 0.0500 Escalation/general-inflation rate (%/y) [constant] 0.0000 Ave. cost of money (AFUDC), xCOM (%/y) [nominal] 0.1135 Ave. cost of money (AFUDC), xCOM (%/y) [constant] 0.0605 Capitalization factor, fcap [nominal] 0.5614 Capitalization factor, fcapo [constant] 0.1651 Interest during construction, fIDC [nominal] 0.3178 Interest during construction, fIDC [constant] 0.1652 Dollar discount rate, dis [nominal] 0.0957 Dollar discount rate, diso [constant] 0.0435 Fixed charge rate, FCR [nominal] 0.1637 Fixed charge rate, FCR [constant] 0.0965 FW/B neutron end-of-life fluence (MW yr/m^2) 18.0000 R/M neutron fluence protection/extension factor 3.0000 Acc. # Spares Allowance 21.98 0.0200 22.98 0.0200 23.98 0.0200 24.98 0.0400 25.98 0.0300 26.98 0.0200 27.98 0.0000 Year Price Deflator 1980 1.0000 1981 1.0911 1982 1.1606 1983 1.2113 1984 1.2570 1985 1.3002 1986 1.3341 1987 1.3752 1988 1.4255 1989 1.4854 1990 1.5503 1991 1.6113 1992 1.6556 1993 1.6993 1994 1.7399 1995 1.7800 1996 1.8136 1997 1.8472 1998 0.0000 1999 0.0000 2000 0.0000 Indirect Cost Factors: LSA= 1 2 3 4 Acc.: 91 0.1130 0.1200 0.1280 0.1510 x TDC [90] 92 0.0520 0.0520 0.0520 0.0520 x TDC [90] 93 0.0520 0.0600 0.0640 0.0870 x TDC [90] 94 0.1826 0.1848 0.1866 0.1935 x TDC [90+91+92+93] 95 0.0000 0.0000 0.0000 0.0000 x TDC [90+91+92+93+94] 96 0.2050 0.2391 0.2565 0.2808 x TDC [90+91+92+93+94] 97 0.2651 0.2736 0.2787 0.2915 x TDC [90+91+92+93+94+95+96] 98 0.0000 0.0000 0.0000 0.0000 x TDC [90+91+92+93+94+95+96]

FPC components: volume density frac. cost frac. thick. frac. density (1992) cost (kg/m^3) ($/kg) (m) RAF 0.250 7800.000 1.000 62.334 1.000 Void 0.750 0.000 0.000 0.000 0.000 Total FW 1950.000 62.334 0.031 0.033 breeding zone 1.340 RAF 0.120 7800.000 1.000 62.334 0.792 PbLi 0.550 9400.000 0.000 11.854 0.000 SiC-bulk 0.090 3200.000 0.750 70.894 0.208 Void 0.240 0.000 1.000 0.000 0.000 Total BL(ob) 1152.000 63.939 1.340 HT shield 0.200 RAF 0.800 7800.000 1.000 62.334 1.000 Void 0.200 0.000 0.000 0.000 0.000 Total SH(ib) 6240.000 62.334 0.200 HT shield 0.150 RAF 0.300 7800.000 1.000 62.334 0.400 Void 0.700 0.000 0.000 0.000 0.000 LT shield ( 0.250) 0.250 RAF 0.150 7800.000 1.000 62.334 0.333 Void 0.550 0.000 0.000 0.000 0.000 BTenelon 0.300 7800.000 1.000 24.934 0.267 Total SH(ob) 3071.250 44.525 0.420 HT shield 0.340 RAF 0.150 7800.000 1.000 62.334 0.031 Void 0.050 0.000 0.000 0.000 0.000 WC 0.800 15600.000 1.000 65.828 0.344 LT shield ( 0.250) 0.250 RAF 0.150 7800.000 1.000 62.334 0.022 Void 0.050 0.000 0.000 0.000 0.000 WC 0.800 15600.000 1.000 65.828 0.253 tertiary shield 0.360 RAF 0.150 7800.000 1.000 62.334 0.032 Void 0.150 0.000 0.000 0.000 0.000 WC 0.700 15600.000 1.000 65.828 0.318 Total SH(dv) 13058.842 65.515 0.970 HT shield 0.340 RAF 0.370 7800.000 1.000 62.334 0.074 Void 0.630 0.000 0.000 0.000 0.000 LT shield ( 0.250) 0.250 RAF 0.150 7800.000 1.000 62.334 0.022 Void 0.050 0.000 0.000 0.000 0.000 WC 0.800 15600.000 1.000 65.828 0.247 tertiary shield 0.360 RAF 0.150 7800.000 1.000 62.334 0.032 Void 0.150 0.000 0.000 0.000 0.000 WC 0.700 15600.000 1.000 65.828 0.312 Total SH(bv) 9206.463 65.151 0.970 TF-coil 7565.000 66.225 ST TFC centerpost (CP) 7565.000 0.000 ST VV/outb TFC (Al) 2295.000 0.000 ST TFC leads/busbars (Cu) 8010.000 25.331 OH-coil 7500.000 82.781 EF-coil 7500.000 82.781 DF-coil 7500.000 82.781 NB current-drive unit cost ($/W) 3.493 LH current-drive unit cost ($/W) 2.907 FW current-drive unit cost ($/W) 1.162 FW coating material: V4Cr4Ti at operating temperature: 727. DP coating material: W at operating temperature: 727. (deg C) blanket breeder material 6^Li enrichment 0.600

UCSD/LANL fusion reactor economic evaluation (ver. 14.0) LSA=1 06/18/99 0 Acc. # Account Title M$ (1992) 20. land & land rights 10.571 21. structures & site facilities 276.461 22. reactor plant equipment 1299.625 22. 1. 1. FW/blanket/reflector 47.598 22. 1. 2. shield 107.147 22. 1. 3. magnets 290.094 22. 1. 4. supplemental-heating/CD systems 191.584 22. 1. 5. primary structure & support 33.832 22. 1. 6. reactor vacuum systems(unless integral elsewhere) 31.352 22. 1. 7. power supply, switching & energy storage 64.693 22. 1. 8. impurity control 5.441 22. 1. 9. direct energy conversion system 0.000 22. 1.10. ecrh breakdown system 3.969 22. 1. reactor equipment 775.709 22. 2. main heat transfer & transport systems 214.657 23. turbine plant equipment 339.281 24. electric plant equipment 111.994 25. miscellaneous plant equipment 73.527 26. heat rejection system 58.930 27. special materials 108.877 90. direct cost (not including contingency) 2279.266 91. construction services & equipment 257.557 92. home office engineering & services 118.522 93. field office engineering & services 118.522 94. owner's cost 416.194 96. project contingency 467.250 97. interest during construction (IDC) 604.188 99. total cost 4261.498 --------------------------------------------- const. nominal thermal power (MWth) = 3373.1 unit direct cost ($/kWe) [90]= 2279.3 2279.3 gross elec. power (MWe) = 1517.9 unit overnight cost ($/kWe)[96]= 3657.3 3657.3 net elec. power (MWe) = 1000.0 unit total cost ($/kWe) [99]= 4261.5 5710.5 engineering Q-value, QE = 2.931 capital return (mill/kWeh) = 61.88 140.63 plant availability = 0.7589 O&M(1.39%)(mill/kWeh)[40-47,51]= 7.64 10.24 6-yr constr.: const. nominal W/B/R replace. (mill/kWeh) [50]= 3.81 5.10 FCR= 0.0965 0.1637 decommissioning (mill/kWeh) = 0.25 0.38 fIDC= 0.1652 0.3178 D (& 3He) fuel (mill/kWeh) [02]= 0.05 0.06 fEDC= 0.0000 0.2436 LSA=1 total COE (mill/kWeh) = 73.62 156.41

UCSD/LANL fusion reactor economic evaluation (ver. 14.0) LSA=3 06/18/99 0 Acc. # Account Title M$ (1992) 20. land & land rights 10.571 21. structures & site facilities 374.618 22. reactor plant equipment 1540.494 22. 1. 1. FW/blanket/reflector 52.886 22. 1. 2. shield 119.052 22. 1. 3. magnets 322.327 22. 1. 4. supplemental-heating/CD systems 211.869 22. 1. 5. primary structure & support 37.414 22. 1. 6. reactor vacuum systems(unless integral elsewhere) 34.672 22. 1. 7. power supply, switching & energy storage 71.542 22. 1. 8. impurity control 6.017 22. 1. 9. direct energy conversion system 0.000 22. 1.10. ecrh breakdown system 4.389 22. 1. reactor equipment 860.169 22. 2. main heat transfer & transport systems 336.296 23. turbine plant equipment 339.281 24. electric plant equipment 125.433 25. miscellaneous plant equipment 80.447 26. heat rejection system 58.930 27. special materials 108.877 90. direct cost (not including contingency) 2638.651 91. construction services & equipment 337.747 92. home office engineering & services 137.210 93. field office engineering & services 168.874 94. owner's cost 492.372 96. project contingency 676.814 97. interest during construction (IDC) 735.416 99. total cost 5187.083 --------------------------------------------- const. nominal thermal power (MWth) = 3373.1 unit direct cost ($/kWe) [90]= 2638.7 2638.7 gross elec. power (MWe) = 1517.9 unit overnight cost ($/kWe)[96]= 4451.7 4451.7 net elec. power (MWe) = 1000.0 unit total cost ($/kWe) [99]= 5187.1 6950.8 engineering Q-value, QE = 2.931 capital return (mill/kWeh) = 75.32 171.17 plant availability = 0.7589 O&M(1.51%)(mill/kWeh)[40-47,51]= 10.09 13.53 6-yr constr.: const. nominal W/B/R replace. (mill/kWeh) [50]= 4.36 5.84 FCR= 0.0965 0.1637 decommissioning (mill/kWeh) = 0.75 1.13 fIDC= 0.1652 0.3178 D (& 3He) fuel (mill/kWeh) [02]= 0.05 0.06 fEDC= 0.0000 0.2436 LSA=3 total COE (mill/kWeh) = 90.56 191.73

UCSD/LANL fusion reactor economic evaluation (ver. 14.0) LSA=4 06/18/99 0 Acc. # Account Title M$ (1992) 20. land & land rights 10.571 21. structures & site facilities 396.916 22. reactor plant equipment 1606.643 22. 1. 1. FW/blanket/reflector 52.886 22. 1. 2. shield 119.052 22. 1. 3. magnets 322.327 22. 1. 4. supplemental-heating/CD systems 225.393 22. 1. 5. primary structure & support 39.803 22. 1. 6. reactor vacuum systems(unless integral elsewhere) 36.885 22. 1. 7. power supply, switching & energy storage 76.109 22. 1. 8. impurity control 6.401 22. 1. 9. direct energy conversion system 0.000 22. 1.10. ecrh breakdown system 4.669 22. 1. reactor equipment 883.524 22. 2. main heat transfer & transport systems 357.761 23. turbine plant equipment 339.281 24. electric plant equipment 149.325 25. miscellaneous plant equipment 86.502 26. heat rejection system 58.930 27. special materials 108.877 90. direct cost (not including contingency) 2757.046 91. construction services & equipment 416.314 92. home office engineering & services 143.366 93. field office engineering & services 239.863 94. owner's cost 533.488 96. project contingency 774.178 97. interest during construction (IDC) 803.575 99. total cost 5667.831 --------------------------------------------- const. nominal thermal power (MWth) = 3373.1 unit direct cost ($/kWe) [90]= 2757.0 2757.0 gross elec. power (MWe) = 1517.9 unit overnight cost ($/kWe)[96]= 4864.3 4864.3 net elec. power (MWe) = 1000.0 unit total cost ($/kWe) [99]= 5667.9 7595.0 engineering Q-value, QE = 2.931 capital return (mill/kWeh) = 82.30 187.04 plant availability = 0.7589 O&M(1.49%)(mill/kWeh)[40-47,51]= 10.91 14.62 6-yr constr.: const. nominal W/B/R replace. (mill/kWeh) [50]= 4.42 5.92 FCR= 0.0965 0.1637 decommissioning (mill/kWeh) = 1.00 1.50 fIDC= 0.1652 0.3178 D (& 3He) fuel (mill/kWeh) [02]= 0.05 0.06 fEDC= 0.0000 0.2436 LSA=4 total COE (mill/kWeh) = 98.68 209.15

UCSD/LANL fusion reactor economic evaluation (ver. 14.0) LSA=2 06/18/99 0 Acc. # Account Title M$ (1992) 20. land & land rights 10.571 21. structures & site facilities 358.020 22. reactor plant equipment 1537.181 22. 1. 1. FW/blanket/reflector 50.242 22. 1. 2. shield 113.099 22. 1. 3. magnets 306.211 22. 1. 4. supplemental-heating/CD systems 211.869 22. 1. 5. primary structure & support 37.414 22. 1. 6. reactor vacuum systems(unless integral elsewhere) 34.672 22. 1. 7. power supply, switching & energy storage 71.542 22. 1. 8. impurity control 6.017 22. 1. 9. direct energy conversion system 0.000 22. 1.10. ecrh breakdown system 4.389 22. 1. reactor equipment 835.455 22. 2. main heat transfer & transport systems 357.761 23. turbine plant equipment 339.281 24. electric plant equipment 125.433 25. miscellaneous plant equipment 77.852 26. heat rejection system 58.930 27. special materials 108.877 90. direct cost (not including contingency) 2616.146 91. construction services & equipment 313.938 92. home office engineering & services 136.040 93. field office engineering & services 156.969 94. owner's cost 483.464 96. project contingency 625.521 97. interest during construction (IDC) 715.659 99. total cost 5047.735 --------------------------------------------- const. nominal thermal power (MWth) = 3373.1 unit direct cost ($/kWe) [90]= 2616.1 2616.1 gross elec. power (MWe) = 1517.9 unit overnight cost ($/kWe)[96]= 4332.1 4332.1 net elec. power (MWe) = 1000.0 unit total cost ($/kWe) [99]= 5047.8 6764.1 engineering Q-value, QE = 2.931 capital return (mill/kWeh) = 73.29 166.58 plant availability = 0.7589 O&M(1.42%)(mill/kWeh)[40-47,51]= 9.28 12.43 6-yr constr.: const. nominal W/B/R replace. (mill/kWeh) [50]= 4.12 5.52 FCR= 0.0965 0.1637 decommissioning (mill/kWeh) = 0.50 0.75 fIDC= 0.1652 0.3178 D (& 3He) fuel (mill/kWeh) [02]= 0.05 0.06 fEDC= 0.0000 0.2436 LSA=2 total COE (mill/kWeh) = 87.23 185.34

--- pf-coil summary --- R z dr dz I(MA) (m) (m) (m) (m) BB EoR BoB EoB EoP EoC 2.380 9.766 0.727 0.727 0.000 0.000 0.000 -18.479 0.000 0.000 5.902 8.716 0.408 0.408 0.000 0.000 0.000 5.839 0.000 0.000 7.185 7.486 0.474 0.474 0.000 0.000 0.000 7.878 0.000 0.000 8.100 6.267 0.324 0.324 0.000 0.000 0.000 -3.670 0.000 0.000 8.833 4.931 0.393 0.393 0.000 0.000 0.000 -5.399 0.000 0.000 9.301 3.750 0.627 0.627 0.000 0.000 0.000 13.777 0.000 0.000 2.380 -9.766 0.727 0.727 0.000 0.000 0.000 -18.479 0.000 0.000 5.902 -8.716 0.408 0.408 0.000 0.000 0.000 5.839 0.000 0.000 7.185 -7.486 0.474 0.474 0.000 0.000 0.000 7.878 0.000 0.000 8.100 -6.267 0.324 0.324 0.000 0.000 0.000 -3.670 0.000 0.000 8.833 -4.931 0.393 0.393 0.000 0.000 0.000 -5.399 0.000 0.000 9.301 -3.750 0.627 0.627 0.000 0.000 0.000 13.777 0.000 0.000 --- peak field at PF coils --- coil B (T) BB EoR BoB EoB EoP 1 0.000 0.000 0.000 10.264 0.000 2 0.000 0.000 0.000 6.756 0.000 3 0.000 0.000 0.000 6.101 0.000 4 0.000 0.000 0.000 4.451 0.000 5 0.000 0.000 0.000 7.417 0.000 6 0.000 0.000 0.000 8.774 0.000 --- static coil data --- coil R z dr dz Mass j (m) (m) (m) (m) (tonne) (MA/m^2) 1 2.3801 9.7662 0.7266 0.7266 59.2151 35.0000 2 5.9025 8.7163 0.4085 0.4085 46.4062 35.0000 3 7.1853 7.4861 0.4744 0.4744 76.2153 35.0000 4 8.1002 6.2672 0.3238 0.3238 40.0299 35.0000 5 8.8330 4.9308 0.3927 0.3927 64.2066 35.0000 6 9.3013 3.7496 0.6274 0.6274 172.5366 35.0000 --- coil data at BoB 32.7 Vs --- coil I f fr fz (MA) (MN) (MN) (MN) 1 0.0000 0.0000 0.0000 0.0000 2 0.0000 0.0000 0.0000 0.0000 3 0.0000 0.0000 0.0000 0.0000 4 0.0000 0.0000 0.0000 0.0000 5 0.0000 0.0000 0.0000 0.0000 6 0.0000 0.0000 0.0000 0.0000 --- coil data at EoB 33.7 Vs --- coil I f fr fz (MA) (MN) (MN) (MN) 1-18.4787 395.9847 394.8772 29.5954 2 5.8394 247.4803 225.0788 -102.8883 3 7.8781 361.2050 -250.9108 259.8322 4 -3.6704 325.7919 284.8305 -158.1517 5 -5.3988 571.3906 122.9383 558.0084 6 13.7772 735.6561 -516.1751 -524.1690

plasma E/S parameters plasma aspect ratio, A 1.600 minor plasma radius, ap(xp) (m) 2.000 minor plasma radius, ap(95) (m) 1.934 plasma vertical elongation, b/a(95) 3.400 plasma vertical elongation, b/a(xp) 3.745 plasma triangularity, d(95) 0.643 plasma triangularity, d(xp) 0.674 (plasma perimeter)/(circular perimeter at ap)=S(95) 2.506 (plasma perimeter)/(circular perimeter at ap)=S(xp) 2.740 scaling coefficient in q-I equation, Cq 1.417 normalized beta (100x Troyon) 7.380 poloidal beta (incl. fus. prods. and imps. , Zeff>1.0) 1.697 Shafranov poloidal beta 1.697 poloidal beta (only fuel ions and electrons, Zeff=1.0) 1.730 Shafranov peak poloidal beta 2.383 poloidal-beta/aspect 1.061 toroidal beta (%) 50.381 DT fuel beta (%) 18.751 total beta (%) 38.849 fraction of beta in beams and hot fus. prod. 0.010 0.096 major toroidal radius, Rt (m) 3.200 circularized plasma radius, rp (m) 3.761 major toroidal radius of plasma centroid(95) (m) 2.900 major toroidal radius of plasma centroid(xp) (m) 2.887 plasma volume(95) (m^3) 690.974 plasma volume(xp) (m^3) 806.063 radial profile exponent for density , alpha(n) 0.242 radial profile exponent for temperature , alpha(T) 0.174 radial profile exponent for pressure, alpha(p) 0.404 radial profile exponent for current density, alpha(j) 0.489 peak/average ratio for current density 1.489 peak/average ratio for density 1.230 ratio of separatrix density to average plasma density 0.050 peak/average ratio for temp.[dens.-weight.-vol.-avg.] 1.141 peak/average ratio for temp.[vol. avg.] 1.174 plasma ion temperature [volume-averaged] (keV) 15.561 plasma electron temperature [volume-averaged] (keV) 16.017 on-axis safety factor, q(axis) 4.333 edge safety factor, q 10.972 edge safety factor, q(*) 2.875 edge safety factor, q(bar) 13.966 on-axis toroidal field (T) 2.082 current needed to confine alphas, Ia (MA) 14.799 plasma current, I (MA) 28.433 plasma bootstrap-current contribution (MA) 27.229 bootstrap-current fraction 0.958 bootstrap-current fraction from Ehst (8/13/93) 2.563 bootstrap-current fraction from Harvey model 0.200 bootstrap-current fraction from ANL model 0.197 toroidal current density, j (MA/m^2) 0.640 plasma self inductance (H) 2.228E-06 plasma internal inductance 1.268E-01

plasma power/transport/CD parameters plasma ion temp. [dens.-weight.-vol.-avg.] (keV) 16.000 plasma electron temp. [dens.-weight.-vol.-avg.] (keV) 16.469 fus. prod. [p,T,He3,He4] density fractions and temps: 0.00002 0.00002 0.00000 0.00382 620.267 347.361 294.297 970.896 plasma impurity temperature (keV) 16.000 plasma (total) ion density (10^20/m^3) 1.406 ion [p,D,T,He3,He4] density fractions: 0.00026 0.44875 0.44918 0.00028 0.10034 impurity Z and density fractions: 36 0.00080 plasma electron density (10^20/m^3) 1.584 Murakami-Hugill electron density limit (10^20/m^3) 0.453 Greenwald electron density limit (10^20/m^3) 1.422 effective plasma charge, Zeff 1.978 calculated Lawson parameter (10^20 s/m^3) 3.022 power-balance energy-confinement time, tau=W/Ptr (s) 2.129 (neoclassical) energy confinement time (s) 13.558 2.150 (neoclassical) thermal diffusivity (m^2/s) 0.055 0.349 ratio of particle-to-energy (electron) confinement times 1.000 ratio of ion-to-electron energy confinement times 1.000 hydrogen and helium recycle coefficients 0.800 0.800 particle confinement time, tau_p (s) 2.150 H and He confinement times, tau_p^* (s) 10.751 10.751 ITER-89P -confinement multiplier, Ha 2.831 ITER-89P-multiplier, Hb (quadratic with NA) 2.998 ITER-93H -confinement multiplier, Hc 1.940 ITER-93H-multiplier, Hd (quadratic with NA) 2.055 ITER-97P -confinement multiplier, He 1.444 ITER-97P-multiplier, Hf (quadratic with NA) 1.530 ITER-97H -confinement multiplier, Hg 1.168 ITER-97H-multiplier, Hh (quadratic with NA) 1.238 ITER-98H -confinement multiplier, Hi 1.436 ITER-98H-multiplier, Hj (quadratic with NA) 1.521 fusion power density (MW/m^3) 3.695 fusion power, P(F) (MW) 2978.624 alpha power (MW) 594.640 scrape-off thickness (m) 0.083 plasma/first-wall radius ratio, x 0.960 projected first-wall surface area (m^2) 579.203 first-wall hole fraction 0.020 diamagnetic electron gyrofreq. (THz) (Trad/s) 41.090 258.177 effective FW(0.00E+00) & dev.(f=0.15) resistivity (ohm-m) 0.37E-07 effective FW synchrotron reflectivity [MJS] 0.978 effective FW synchrotron reflectivity [KAW] 0.980 FW synchrotron reflectivity (fhole=0) 1.000 synchrotron radiation power loss (FW holes) (MW) 0.179 synchrotron radiation power loss (FW surf.) (MW) 0.007 synchrotron radiation power loss (total) (MW) 0.186 bremsstrahlung power loss (MW) 58.815 line radiation power loss (MW) 128.498 transport (conduction) power loss, Ptr(MW) 436.850 plasma (thermal) internal energy, Wp (MJ) 940.910 1040.608 radiation fraction, frad (brems.+sync.+line) 0.300 plasma ohmic dissipation during burn (MW) 0.000 plasma loop voltage (V):DE,CK,Cen. 0.002 0.001 0.190 0.190 CD gamma: NB(DE) NB(JM) NB(TKM) ICRF FW SYN Mau ----- 0.6043 0.1299 5.2186 0.296813.2117 0.2559 0.0000 Coulomb logarithm 17.761 neutral-beam (NB) energy (keV) 120.000 NB attenuation length (m) [edge/centerline (tangent)] 4.099

toroidal field quantities ST TFC CP resistance growth factor (input) 1.070 ST TFC CP half-height (m) (+2.0) 9.023 out/inboard TF-coil radial thickness ratio, fcoil 0.780 out/inboard TF-coil toroidal thickness ratio, fcoilt 1.000 major radius of TF-coil inboard-leg inside face (m) 0.897 width of TF-coil inside face (m) 0.118 coil stress (MPa) 0.000 (input) yield stress in coil stabilizer (MPa) 0.000 (input) allowable stress in coil structure (MPa) 0.000 coil thickness (m) 0.897 TF coil homogenized mass density (kg/m^3) 7565.000 mass of TF coil set (tonne) 2904.361 on-axis toroidal field (T) 2.082 magnetic field at the coil (T) 7.429 TF ripple=(Bmax-Bmin)/(Bmax+Bmin) (on-axis) (%) 0.000 TF ripple=(Bmax-Bmin)/(Bmax+Bmin) (outboard) (%) 0.004 (PPPL):0.0000 (calculated):0.0017 TF ripple=(Bmax-Bmin)/(Bmax+Bmin) (inboard TF Coil) (%) 0.000 fraction of alphas surviving prompt loss (%) 100.000 TF stored magnetic energy (GJ) [Soell] 1.609 TF stored magnetic energy (GJ) [Turner & Abdou] 4.078 TF-coil current (MA) (x 48) 0.694 peak ST CP current density (MA/m^2) 13.161 avg. ST CP current density (MA/m^2) 7.769 TFC outb leg current density (MA/m^2) 16.872 inboard TF-coil dissipation (f_V= 1.694f_P= 0.696) (MW) 222.115 outboard TF-coil dissipation (MW) 46.715 ohmic dissipation: TF coils (MW) 268.830 ohmic dissipation: TFC leads (MW) 23.357 ohmic dissipation: TFC PS (1-V drop) (MW) 33.320 total ohmic dissipation in TFC system (MW) 325.507 volumetric heating during burn (MW/m^3) 0.207

poloidal field quantities PF coil homogenized mass density (kg/m^3) 7500.000 mass of EF coil set (tonne) 917.219 mass of PF coil spares (tonne) 0.000 magnetic field at the plasma surface (T) 1.135 magnetic field at the coil (T) 0.000 vertical field (T) 0.094 EF coil total current (MA) -110.085 EF coil current density (MA/m^2) 35.000 PF stored magnetic energy (GJ) 16.254 Ref,zef,delef (m) = 0.0000 0.0000 0.8000 (PF-coil mass)/(total coil mass) 0.240

divertor field quantities DF-coil total current (MA) 0.000 DF coil current density (MA/m^2) 35.000 mass of DF coil set (tonne) 0.000 Rdf,zdf,deldf (m) = 0.0000 9.8732 0.0000 ************************************************* Total coil stored magnetic energy, Wb (GJ) 17.863 Magnetic field utilization, Ub (MJ/tonne) 4.674

impurity control **************************************************************************** This section of the ASC is in development; reported results will change **************************************************************************** divertor option nodiv=1: poloidal magnetic divertor projected first-wall surface area (m^2) 579.203 total divertor plate surface area (m^2) N= 2 86.880 FW/divertor average surface heat flux (MW/m^2) 0.332 5.034 disruption divertor heat load (MJ/m^2), Wp/Adiv 8.066 radiation fraction, frad (brems.+sync.+line) 0.300 radiation fraction, frad (core) 0.300 scrape-off thickness (m) 0.083 flux expansion factor, fx 2.000 scrape-off power-flow scale length (mm) (High-recycle) 2.944 scrape-off power-flow scale length (mm) (Low -recycle) 900.000 watershed-to-null-point connection length (m) 93.755 null-point-to-divertor-plate connection length (m) 4.559 divertor-plate-to-mag.-surface inclination angle (deg) 10.000 divertor/scrape-off area ratio for power flow, omega 1.600 sheath power-flow transmission coefficient, gamma 7.200 scrape-off cross-field thermal diffusivity (m^2/s) 4.000 divertor-plate peak particle surface heat flux (MW/m^2) 53.187 divertor-plate plasma temperature (eV) 2035.828 ratio of separatrix density to average plasma density 0.050 upstream (separatrix) plasma density (1.0e20/m^3) 0.079 vacuum system pumping speed (m^3/s) 398.857

plasma startup inductive flux-swing startup requirement (Vs) 63.349

power-balance summary primary coolant: PbLi w/ IHX unless LSA=1 thermal conversion efficiency (blanket) 0.450 thermal conversion efficiency (divertor) 0.450 thermal conversion efficiency (composite) 0.450 auxiliary site power fraction of P(ET), faux 0.040 primary loop pumping power fraction of P(ET), fpmp 0.060 engineering q-value, QE 2.931 recirculating power fraction, eps=1/QE 0.341 net plant efficiency 0.296 plasma q-value, Qp 107.876 CD/heater system efficiency 0.680 CD/heater [NB] power (MW) 27.611 CD/heater [rf] subtotal (MW) 0.000 CD/heater (total) power, P(CD) (MW) 27.611 auxiliary CD/heater power (MW) 0.000 CD/heater [NB] capacity (MW) 27.611 CD/heater [hf] capacity (MW) 60.000 CD/heater total capacity (MW) 60.000 CD/heater unit cost ($/W) 2.149 HF current-drive frequency (MHz) 236.000 current-drive efficiency (mA/W) 1029.769 current-drive efficiency factor, gamma (10^19 A/m^2 W) 52.186 external current-drive fractions 0.0000 0.0000 0.0000 fusion power, P(F) (MW) 2978.624 neutron power (MW) 2381.886 fraction of fusion power in neutron channel 0.800 neutron source density (neutrons/s m^3) 1.316E+18 number of turbines 2 fusion power in charged particles, Pcp (MWt) 596.738 total useful thermal power, P(TH) pk/ave (MW) 3373.114 3373.114 gross electrical output power, P(ET) (MWe) 1517.901 net electrical output power, P_E (MWe) 999.999

engineering summary tritium burnup (kg/day) 0.456 fractional burnup 0.182 tritium thru-put (no recycle) (kg/day) 2.503 blanket breeder material 6Li enrichment 0.600 projected first-wall surface area (m^2) 579.203 14.06-MeV neutron load, Iw (MW/m^2) 4.102 14.06-MeV neutron energy multiplication in blanket, M 1.110 2.45-MeV neutron load (MW/m^2) 0.002 2.45-MeV neutron energy multiplication in blanket, M 3.700 5.17-MeV neutron load (MW/m^2) 0.008 peak neutron load (MW/m^2) 5.579 2.45-MeV neutron energy multiplication in blanket, M 3.700 Average neutron energy multiplication in blanket 1.117 first-wall (FW) volume (m^3) 7.111 inboard blanket volume (m^3) 0.000 outboard blanket volume (m^3) 706.286 divertor blanket volume (m^3) (top) 0.000 divertor blanket volume (m^3) (bottom) 0.000 total blanket volume (m^3) 706.286 EF-coil shield volume (m^3) 0.000 inboard shield volume (m^3) 25.000 outboard shield volume (m^3) 281.472 divertor shield volume (m^3) (top) 50.000 divertor shield volume (m^3) (bottom) 50.000 penetra. shield volume (m^3) 60.971 total shield volume (m^3) 467.443 vacuum vessel volume (m^3) 0.000 structure volume (m^3) 216.000 cryostat side panel volume (m^3) 0.000 cryostat volume (m^3) 0.000 ST TFC leads current density (MA/m^2) 2.000 ST TFC leads length (m) 8.000 ST TFC leads width (m) 2.041 ST TFC leads volume (m^3) 266.558 ST TFC centerpost volume (m^3) 78.124 ST TFC outboard-shell volume (m^3) 1219.709 TF-coil volume (m^3) 1297.833 EF-coil volume (m^3) 122.296 PF-coil spares volume (m^3) 0.000 DF-coil volume (m^3) 0.000 mass of FW (tonne) 13.866 mass of blanket and reflector (tonne) 813.642 mass of TFC shield (tonne) 2544.669 mass of EFC shield (tonne) 0.000 mass of TF coil set (tonne) 2904.361 mass of EF coil set (tonne) 917.219 mass of PF coil spares (tonne) 0.000 mass of DF coil set (tonne) 0.000 total coil-set mass (tonne) 3821.580 mass of FPC structure (tonne) 1296.000 mass of bucking cylinder (tonne) 0.000 mass of vacuum vessel (tonne) 0.000 mass of cryostat (tonne) 0.000 FPC (FWBRSC) mass (tonne) 8573.596 mass of divertor plates (tonne) 83.840 mass of ST TFC centerpost (tonne) 519.740 mass of ST TFC-centerpost/inb.-shield assembly (tonne) 675.740 mass of drained blanket/outb.-shield assembly (tonne) 1870.808 largest component crane lift (tonne) 1192.310 largest component non-crane lift (tonne) 519.740 fusion-power-core mass utilization, M/Pth (tonne/MWt) 2.542 FPC mass power density, MPD (kWe/tonne) 116.637 avg. mass power density, MPD (kWe/tonne) 55.307 mass of liquid-metal coolant in FW/B/S (tonne) 3651.499 total mass of liquid-metal coolant (tonne) 9128.748 system power density (MW/m^3) 1.091 blanket power density (MW/m^3) 4.776 magnetic energy recovery time (s) 5.296

1 *** poloidal distribution of wall loads *** peak-to-average neutron wall load 1.3802 peak-to-average bremsstrahlung load 1.3310 neutron brems. wall location peak peak R Z to to (m) (m) average average 5.3000 0.0000 1.3802 1.3310 5.2729 0.7440 1.3701 1.3233 5.1926 1.4808 1.3405 1.3005 5.0625 2.2034 1.2946 1.2643 4.8877 2.9047 1.2361 1.2174 4.6749 3.5781 1.1679 1.1616 4.4320 4.2170 1.0921 1.0982 4.1673 4.8153 1.0113 1.0290 3.8895 5.3673 0.9280 0.9562 3.6066 5.8675 0.8455 0.8822 3.3263 6.3112 0.7674 0.8099 3.0548 6.6942 0.6981 0.7434 2.7974 7.0127 0.6425 0.6877 2.5581 7.2636 0.6058 0.6488 2.3395 7.4446 0.5928 0.6325 2.1432 7.5539 0.6022 0.6391 1.9697 7.5905 0.6045 0.6398 1.8185 7.5539 0.5321 0.5651 1.6888 7.4446 0.4132 0.4444 1.5788 7.2636 0.3341 0.3671 1.4869 7.0127 0.3067 0.3434 1.4109 6.6942 0.3161 0.3559 1.3490 6.3112 0.3516 0.3929 1.2990 5.8675 0.4051 0.4457 1.2593 5.3673 0.4708 0.5078 1.2280 4.8153 0.5431 0.5733 1.2037 4.2170 0.6180 0.6394 1.1853 3.5781 0.6909 0.7028 1.1715 2.9047 0.7572 0.7599 1.1616 2.2034 0.8131 0.8076 1.1550 1.4808 0.8554 0.8435 1.1512 0.7440 0.8816 0.8658 1.1500 0.0000 0.8905 0.8734

****** RADIAL BUILD (TETRA format) ******** (m) Thickness Radius Device Centerline 0.0 0.000 Bore 0.000 0.000 OH Solenoid 0.000 0.000 Bucking Cylinder 0.000 0.000 TF Coil Annulus 0.899 0.899 Cryostat 0.000 0.899 Gap 0.000 0.899 Vacuum Vessel 0.000 0.899 Gap 0.020 0.919 Shield - inboard 0.200 1.119 Gap 0.000 1.119 Inboard Blanket 0.000 1.119 First Wall - inboard 0.031 1.150 Scrape-Off Layer (SOLi) 0.050 1.200 Plasma C/L 2.000 3.200 Plasma Edge 2.000 5.200 Scrape-Off Layer (SOLo) 0.100 5.300 First Wall - outboard 0.033 5.333 Outboard Blanket 1.350 6.683 Gap 0.020 6.703 Shield - outboard 0.420 7.123 Vacuum Vessel 0.000 7.123 Gap 1.688 8.811 Insulation 0.000 8.811 TF Coil 0.700 9.511 Insulation 0.000 9.511 ___________________________________________________________________________ Shield thicknesses include gaps (m): inboard 0.000 outboard 0.020 divertor 0.020 Free volume within TF-coil set (m^3) 2946.059 Blanket volume 706.286 Shield volume 467.443 Plasma chamber volume 857.662 Unassigned/unallocated residual volume 914.668

****** VERTICAL BUILD ********************** Increment (m) Height (m) bottom of TFC outer cryostat -9.376 cryostat (outer) 0.000 -9.376 TF coil 0.700 -8.677 cryostat (inner) 0.000 -8.677 gap -0.004 -8.680 fw/blanket/shield/vv 1.090 -7.590 impurity-control allowance 0.100 -7.490 plasma midplane (z=0) 0.000 elongated plasma, b/a = 3.745 7.490 7.490 impurity-control allowance 0.100 7.590 fw/blanket/shield/vv 1.090 8.680 gap -0.004 8.677 cryostat (inner) 0.000 8.677 TF coil 0.700 9.376 cryostat (outer) 0.000 9.376 top of TFC outer cryostat 9.376 1 circuit summary coil conduc frac: oh,ef,df,tfi,tfo = 0.700 0.700 0.700 0.850 0.850 coil opr temp(C): oh,ef,df,tfi,tfo = 0.0 0.0 0.0 110.0 65.3 coil opr temp(K): oh,ef,df,tfi,tfo = 4.0 4.0 4.0 383.0 338.3 coil resistivity: oh,ef,df,tfi,tfo = 0.00E+00 0.00E+00 0.00E+00 2.64E-08 2.32E-08 plasma resistivity = 7.460E-10 self-inductances: lp,lef,loh,li = 2.228E-06 2.682E-06 0.000E+00 1.268E-01 mutual-inductances:mef,p#moh,p#moh,ef=-8.907E-07 0.000E+00 0.000E+00 magnetic fluxes: total,equil,ohmic = 6.335E+01 9.805E+01-3.470E+01 currents: plasma,equil.,ohmic swing = 2.843E+07-1.101E+08 1.000E+07 field at rp , vertical field at rmaj= 1.135E+00 9.428E-02 average cond. radius: plasma,equil,oh= 3.200E+00 0.000E+00 1.000E+00 inboard stresses in OH coil - von Mises= 0.0000E+00 ( Pa) - tension = 0.0000E+00 ( Pa) - radial = 0.0000E+00 ( Pa) outboard stresses in OH coil - von Mises= 0.0000E+00 ( Pa) - tension = 0.0000E+00 ( Pa) - radial = 0.0000E+00 ( Pa)