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					ARIES Technology and Physics A sse ssment – Aggressive and
Conservative Tokamaks (A CT)
ACT-I: Aggressive technology (SiC blanket) and aggressive physics

ARIES Systems Code Outputs
V. 30 (SVN version control)
Printed: LCC 4/08/11
Point # 289722 from raw sysout.data sic806 database

PDF file of this webpage

Input d ata :
Builds
Costing
Magnets
Power Flow

Output d ata:
Engineering summary
         Plasma parameters
         Vertical build
         IB/OB builds
         Geometric data – volumes
         Geometric data – surface areas
         Liquid metal mass
         Material-based component costs
Powers
Costing Accounts
Costing Algorithms
Part Compositions
Cost Base
Material Densities
Unit Cost
Inflation Factor
2D CAD drawing from systems code – PNG, TIF




Builds

0                1            2                 3           4           5           6
7             8
IB SOL           First Wall Gap                 Blanket     Gap         HT Shield
Gap           Vac. Vessel Gap
    1.000E-01    1.400E-02    0.000E-00         3.360E-01   1.000E-02   2.400E-01
1.000E-02     4.000E-01    2.000E-02
OB SOL           First Wall Gap           Blanket     Gap         Blanket II    HT
Shield    Gap           Vac. Vessel
   1.000E-01     1.400E-02    0.000E-00   2.860E-01   0.000E-00   4.500E-01
1.500E-01     2.000E-02    2.500E-01
VB Div Plate     Repl HTS     Gap         HT Shield   Gap         Vac. Vessel
   3.350E-02     1.500E-01    0.000E-00   3.000E-01   2.000E-02   4.000E-01



Costing

Real Discount Rate                                          *
   5.000E-02
Economic Life of Plant (Years)                              *
   4.000E+01
Neutron Fluence Life ( W*year/(m^2) )                       *
   1.800E+07
Annual Escalation Rate                                      *
   5.000E-02
Construction Period (Years)                                 *
   6.000E+00
Plant Capacity Factor                                       *
   8.500E-01
Annual Fuel Cost (M$)                                       *
   1.000E+06
Decontamination & Decomm. Allowance (mills/kWh)             *
   2.000E+00
Reference/base year for cost basis                          *
   2.009E+03
Projected year for cost basis                               *
   2.009E+03



Magnets

Maximum stress in protective sheath around strands [Pa]*
   8.000E+08
Maximum allowed stress in the coil casing [Pa]         *
   4.000E+08
Current density in copper [A/m^2]                      *
   2.24E+08
Volume fraction of He coolant [-]                      *
   2.500E-01
Volume fraction of the insulator [-]                   *
   1.000E-01
Nominal current in TF coil [A]                         *
   4.000E+04
Side thickness of the coil casing X 2 [m]              *
   2.000E-02
Clearance between V Vessel and TF coil outmost edge [m]*
   1.000E-01
Yield stress for the PF coil case [Pa]                 *
   1.000E+09
Upper limiter of the current (qmax)                    *
   4.500E+00
Lower limiter of the current (qmin)                    *
   3.150E+00
Maximum allowed magnetic field on PF coils [T]         *
   1.800E+01
Quench protection parameter J2tau                      *
   5.000E+16
Quench time [s]                                        *
   2.000E+00
Number of TF coils                                     *
   1.600E+01



Powerflow

Fraction of loss of alpha particles [-]                *
   0.000E+00
Fraction of alpha loss to divertor [-]                 *
   0.500E+00
Fraction of edge radiation (typical range 0.75-0.9) [-]*
   0.900E+00
Fraction of edge radiation to divertor [-]             *
   0.900E+00
Neutron energy multiplication factor FW/blanket inboard*
   1.100E+00
Neutron energy multiplication factor FW/blanket outb. *
   1.100E+00
Neutron energy multiplication factor shield inboard    *
   1.100E+00
Neutron energy multiplication factor shield outboard   *
   1.100E+00
Neutron energy multiplication factor divertor plates   *
   1.100E+00
Neutron energy multiplication factor divertor blanket *
   1.100E+00
Neutron energy multiplication factor divertor shield   *
   1.100E+00
Efficiency of the He pump/blower [-]                   *
   0.900E+00
Generic current drive source efficiency [-]            *
   0.500E+00
Current drive source efficiency (NB) [-]               *
   0.680E+00
Current drive source efficiency (LH) [-]               *
   0.680E+00
Current drive source efficiency (ICRF) [-]             *
   0.840E+00
Current drive source efficiency (EC) [-]               *
   0.430E+00
Power to all auxiliary functions [W]                   *
   5.000E+07
Cryogenic power [W]                                    *
   2.000E+06
Efficiency of plasma heating [-]                       *
   0.430E+00
Outboard fraction of incoming power [-]                *
   0.600E+00
Inboard fraction of incoming power [-]                 *
   0.400E+00
Fraction of neutron flux absorbed by FW/blanket [-]    *
   0.900E+00
Fraction of neutron flux absorbed by the shield [-]    *
   0.100E+00
Fraction of neutron pow. to divertor in div. plates [-]*
   0.500E+00
Fraction of neutron pow. to divertor in div. blnkt. [-]*
   0.400E+00
Fraction of neutron pow. to divertor in div. shield [-]*
   0.100E+00
Up-down symmetry factor. 1 for symmetric, 0 otherwise *
   1.000E+00
Fraction of conducted power to divertor => outboard [-]*
   0.800E+00
Fraction of conducted power to divertor => inboard [-] *
   0.200E+00
Fraction of radiated power to divertor => outboard [-] *
   0.800E+00
Fraction of radiated power to divertor => inboard [-] *
   0.200E+00
Poloidal magnetic flux expansion on outboard [-]       *
   1.000E+01
Poloidal magnetic flux expansion on inboard [-]        *
   1.000E+01
Efficiency of the LM MHD pump [-]                      *
   0.400E+00
Efficiency of the LM mechanical pump [-]               *
   0.900E+00




Engineering summary
Defining Parameters for the SiC Module Power Plant:
SVN Rev # 30, Printed on Thu Apr 7 13:32:36 2011

Plasma major radius [m]:                             5.5
Plasma aspect ratio [-]:                             4
Toroidal mag. field at plasma major radius [T]:      5.5
Plasma current [MA]:                                 10.58
Normalized Beta [-]:                                 4.5
MHD safety factor [-]:                               4.4
Cylindrical safety factor [-]:                       2.609
Plasma triangularity [-]:                            0.7
Exponent on plasma density profile [-]:              0.3
Exponent on plasma temperature profile [-]:          0.8
Greenwald density fraction [-]:                      0.95
Fusion gain [-]:                                     40
Plasma elongation [-]:                               2.2
H98(y,2) multiplier on energy confinement scaling [-]: 1.441
Current diffusion time [s]:                          221.3
Energy confinement time [s]:                         1.536
Ratio of effec. particle conf. time to energy conf. time [-]: 5.091
Volume average electron density [m^-3]:              1.524e+20
Volume average temperature [KeV]:                    16.56
Flattop time [s]:                                    1e+30
L to H-mode threshold power [MW]:                    44.4
Ave neutron wall load at 10 cm from plasma boundary [MW/m^2]: 2.64072
Bremsstrahlung radiation loss [MW]:                  50.64
Bootstrap current fraction [-]:                      0.8998
Current drive efficiency for generic heating/CD source [-]: 0.27
Power from generic CD source (steady-state) [MW]:    26.9
Total aux. heating power into plasma for power balance [MW]: 45.1
Cyclotron radiation loss [MW]:                       12.02
Ohmic power in plasma [MW]:                          0.0584
Line radiation loss [MW]:                            29.24
Fast alpha beta [-]:                                 0.9679
Effective charge [-]:                                2.064
Ratio of plasma temperature at center to edge [-]:   0
Ratio of plasma density at center to edge [-]:       0
Eta_CD for source 1 [-]:                             5.885e-44
Eta_CD for source 2 [-]:                             -4.319e-26
Eta_CD for source 3 [-]:                             0
Eta_CD for source 4 [-]:                             0
Impurity fraction 1 [-]:                             0.003
Impurity fraction 2 [-]:                             0
Impurity fraction 3 [-]:                             0
Peak temperature [keV]:                              26.75
External CD fraction of total plasma current [-]:    0.1002
Total non-inductive fraction of total plasma current [-]: 1
 Density fraction of helium (frac. of electron density) [-]: 0.07288
 Density fraction of DT fuel (frac. of electron density) [-]: 0.8002
 Plasma stored energy [MJ]:                           513.2
 Poloidal flux swing required to raise plasma current [?]: 300
 Loop voltage in plasma [V]:                          0
 Density profile peak-to-volume average [-]:          1.295
 Temperature profile peak-to-volume average [-]:      1.796
 Poloidal beta [-]:                                   2.348
 Toroidal beta [-]:                                   6.295
 Alpha power in plasma [MW]:                          361.3
 Ratio of loss power to L-H threshold power [-]:      7.525
 Plasma surface area [m^2]:                           472.123
 Maximum magnetic field in the TF coil [T]:           10.1703
 Maximum inboard heat flux on divertor [MW/m^2]:      2.9255
 Maximum outboard heat flux on divertor [MW/m^2]:     6.70536
 Maximum heat flux to the first wall [MW/m^2]:        0.274312
 Gross electrical power [MW]:                         1183.7
 Net electric power [MW]:                             1023.09
 Recirculated power (Pgross - Pnet) [MW]:             160.61
 Thermal power [MW]:                                  2065.09
 Fusion power [MW]:                                   1804
 Cost of electricity [mills/kWh]:                     55.0217
 Data point number from plasma physics output file [-]: 289721



===============================================================
Defining Parameters for Plasma Closed Surface Equation:

 Plasma major radius [m]:      5.5
 Plasma minor radius [m]:      1.375
 Elongation [-]:               2.2
 Triangularity [-]:            0.7
 Outer Squareness [-]:         1e-06
 Inner Squareness [-]:         -1e-06



Vertical Build [m]:
Divertor Plate:                0.0335
 Replaceable HT Shield:        0.285068
 Gap:                          0
 HT Shield:                    0.3
 Skeleton Ring (not in use):   0.02
 Gap:                          0.4
 Vacuum Vessel :               0



Inboard/Outboard Radial Build in TETRA Format [m]:
                     Thickness      Radius
 Device Centerline       0.0000        0.0000
 Bore                    2.30301       2.30301
 Central Solenoid        0.13873       2.44174
 Gap                     0             2.44174
 Bucking Cylinder        0.206246      2.64799
 Gap                     0             2.64799
 TF Coil Annulus         0.326363      2.97435
 Gap                     0.0132421     2.9876
 Vacuum Vessel           0.4           3.3876
 Gap                     0.0657773     3.45337
 HT Shield IB            0.225068      3.67844
 Gap                     0.01          3.68844
 Blanket IB              0.32256       4.011
 Gap                     0             4.011
 First Wall IB           0.014         4.025
 Scrape-Off Layer IB     0.1           4.125
 Plasma Centerline       1.375         5.5
 Plasma Outer Edge       1.375         6.875
 Scrape-Off Layer OB     0.1           6.975
 First Wall OB           0.014         6.989
 Gap                     0             6.989
 Blanket OB              0.274549      7.26355
 Gap                     0.01          7.27355
 Blanket II              0.422002      7.69555
 Gap                     0.01          7.70555
 HT Shield OB            0.285068      7.99062
 Gap                     0.4           8.39062
 Vacuum Vessel           0.25          8.64062
 Gap                     3.16057       11.8012
 TF Coil                 0.326363      12.1276
 Gap                     0.947956      13.0755
 Cryostat                0.4           13.4755



===============================================================
Geometric Data: Volumes [m^3]:

Plasma:
 Plasma_AT =                     407.739
 ARIES-AT Plasma =               308.219
 Delta Plasma Volume =           [ 27.8005% ]

First Wall:
 FirstWallInboard =              1.87531
 FirstWallOutboard =             5.94297
  Total First Wall =             7.81827
  ARIES-AT FW =                        3.234
  Delta FW Volume =              [ 82.9562% ]
Blankets:
 BlanketInboard =             41.3975
 BlanketOutboard =            105.17
 BlanketII =                  171.569
  Total Blankets =            318.136

Divertor Plates (6):
 Div1 =                       0.580792
 Div2 =                       1.18357
 Div3 =                       1.04401
 Div4 =                       1.04723
 Div5 =                       1.19376
 Div6 =                       0.576705
  Total Divertor =            5.62607

Replaceable HT Shields:
 RepHTShieldTop =             20.0576
 RepHTShieldBottom =          20.0576
  Total Repl. HT Shields =    40.1152

HT Shields:
 HTShieldInboard =            24.6869
 HTShieldOutboard =           215.531
 Penetration Shielding (25%) = 60.0545
  Total HT Shields =          300.273

Vacuum Vessel:
 VacuumVesselMain =           90.4738
 VacuumVesselOutboard =       184.046
  Total Vacuum Vessel =       274.52

Maintenance Ports (16):
 MaintenancePort =            0
 UpperVVDuctBottomWall =      0
 UpperVVDuctTopWall =         0
 UpperVVDuctSideWall =        nan
  Total All Ports =           nan

TF Coils (16):
 Total TF Coils =             199.228

 BuckingCylinder =            33.078
 UpperCap =                   53.2291
 LowerCap =                   24.1163
 Cryostat =                   1074.27

PF Coils (36 active, 14 spares [preliminary]):
PFCoil_0 =                    2.5927
PFCoil_1 =                    2.59396
PFCoil_2 =                    2.59522
PFCoil_3 =                    2.59647
PFCoil_4 =                    1.35014
PFCoil_5 =                    1.50682
PFCoil_6 =                    1.66247
PFCoil_7 =                    2.04239
PFCoil_8 =                    2.18903
PFCoil_9 =                    2.19804
PFCoil_10 =                   2.04835
PFCoil_11 =                   1.68001
PFCoil_12 =                   1.16892
PFCoil_13 =                   0.350171
PFCoil_14 =                   0.480966
PFCoil_15 =                   0.687318
PFCoil_16 =                   0.816221
PFCoil_17 =                   0.841467
PFCoil_18 =                   0.841875
PFCoil_19 =                   0.816616
PFCoil_20 =                   0.68765
PFCoil_21 =                   0.481198
PFCoil_22 =                   0.350338
PFCoil_23 =                   1.16949
PFCoil_24 =                   1.68083
PFCoil_25 =                   2.04934
PFCoil_26 =                   2.1991
PFCoil_27 =                   2.19008
PFCoil_28 =                   2.04336
PFCoil_29 =                   1.66326
PFCoil_30 =                   1.50754
PFCoil_31 =                   1.35077
PFCoil_32 =                   2.59773
PFCoil_33 =                   2.59647
PFCoil_34 =                   2.59522
PFCoil_35 =                   2.59396
 Active PF Coil Vol. (36) =   58.8155
 Spare PF Coil Vol. (14) =    19.0223
  Total PF Coils Vol. =       77.8378

Total FW and Blankets:       325.955
 (IB, OB FW & Blanket, Blanket II)

Total Power Core (FPC) Vol: 1223.55
 (IB, OB FW & Blanket, Blanket II, Divertor, TF & PF magnets,
  VV, HT & Repl. Shield w/ Penetration Shielding)

Support Structure Volume:     244.711
  (20% of FPC vol)



===============================================================
Surface Areas [m^2]:

 Plasma Surf. Area w/out SOL = 510.172
 SOL thickness =                    0.1
 Plasma Surf. Area incl. SOL = 547.275

 FirstWallInboard =           132.633
 FirstWallOutboard =          373.247
  Total First Wall =          505.88

 Div1 =                       19.3597
 Div2 =                       39.4524
 Div3 =                       34.8003
 Div4 =                       34.9077
 Div5 =                       39.792
 Div6 =                       19.2235
  Total Divertors =           187.536



===============================================================
Liquid Metal Mass [tonne]

 FirstWallInboard =           4.50485
 FirstWallOutboard =          14.2761
 BlanketInboard =             305.7
 BlanketOutboard =            776.628
 BlanketII =                  1175.37
 Div1 =                       0
 Div2 =                       0
 Div3 =                       0
 Div4 =                       0
 Div5 =                       0
 Div6 =                       0
  Total Divertors =           0
 RepHTShieldTop =             17.8452
 RepHTShieldBottom =          17.8452
  Total Repl HT Shields =     35.6905
 HTShieldInboard =            21.9639
 HTShieldOutboard =           191.758
  Total HT Shields =          213.722

  Total Mass Liquid Coolant = 2525.89
  Total w/ 2.5x Factor =      6314.72
===============================================================
 Material-based Component Costs [M$]:

 FirstWallInboard =          2.43309
 FirstWallOutboard =         7.7106
 BlanketInboard =            12.5079
 BlanketOutboard =           31.7762
 BlanketII =                 72.9434
 Divertor =                  0.529723

 RepHTShieldTop =            9.51743
 RepHTShieldBottom =         9.51743
 HTShieldInboard =           14.2394
 HTShieldOutboard =          102.271
  Total HT Shield =          116.51

 VacuumVesselMain =          33.9573
 VacuumVesselOutboard =      18.7082
  Total Vacuum Vessel =      52.6655

 MaintenancePort =           0
 UpperVVDuctBottomWall =     0
 UpperVVDuctTopWall =        0
 UpperVVDuctSideWall =       nan
  Total All Ports =          nan

 Total TF Coils Cost =       149.64

 BuckingCylinder =           11.2079
 UpperCap =                  18.0357
 LowerCap =                  8.17137
 CryoDome =                  42.3224

PF Coil Costs (36 active, 14 spares [preliminary]):
 PFCoil_0 =                   2.30933
 PFCoil_1 =                   2.31045
 PFCoil_2 =                   2.31157
 PFCoil_3 =                   2.31269
 PFCoil_4 =                   1.20258
 PFCoil_5 =                   1.34213
 PFCoil_6 =                   1.48077
 PFCoil_7 =                   1.81916
 PFCoil_8 =                   1.94978
 PFCoil_9 =                   1.95781
 PFCoil_10 =                  1.82447
 PFCoil_11 =                  1.4964
 PFCoil_12 =                  1.04116
 PFCoil_13 =                    0.311899
 PFCoil_14 =                    0.428399
 PFCoil_15 =                    0.612197
 PFCoil_16 =                    0.727012
 PFCoil_17 =                    0.749499
 PFCoil_18 =                    0.749862
 PFCoil_19 =                    0.727364
 PFCoil_20 =                    0.612493
 PFCoil_21 =                    0.428605
 PFCoil_22 =                    0.312048
 PFCoil_23 =                    1.04167
 PFCoil_24 =                    1.49712
 PFCoil_25 =                    1.82536
 PFCoil_26 =                    1.95875
 PFCoil_27 =                    1.95071
 PFCoil_28 =                    1.82003
 PFCoil_29 =                    1.48148
 PFCoil_30 =                    1.34277
 PFCoil_31 =                    1.20314
 PFCoil_32 =                    2.31381
 PFCoil_33 =                    2.31269
 PFCoil_34 =                    2.31157
 PFCoil_35 =                    2.31045
  Active PF Coil Cost (36) =    52.3872
  Spare PF Coil Cost (14) =     16.9433
   Total PF Coil Cost =         69.3305

 Total First Wall, Blankets = 127.371
 Total HT Shield =            135.545
 Total Power Core =           262.916




Powers

Powers [MW]:
Printed on Thu Apr     7 13:32:36 2011

 Plasma Power:                           406.4
 Alpha Power:                            361.3
 Neutron Power:                          1445.2
 Thermal Power:                          2065.09
 Fusion Power:                           1806.5
 Gross Electrical Power:                 1183.7
 Net Electrical Power:                   1023.09

 Divertor in use:                        plate-type, helium-cooled
 He pump efficiency:                           0.9
 Divertor pumping power (He only):   19.6368
 Recovered power from He pump:             11.881

 Blanket in use:               SiC blanket, PbLi-cooled
 LM pump in use:               mechanical LM pump
 LM pump efficiency:                 0.9
 Blanket pumping power (LM only):    5.0324
 Recovered power from LM pump:       3.0448

 TF magnets in use:                 low-temp SC magnet technology
  Nb3Sn at 4.2 K, 'Next Step, conservative costing'



Additional Parameters:
 Gross Cycle Efficiency (Brayton):   0.573196
 Plasma Heating [MW]:                18.2
 Plasma Heating Efficiency:          0.43
 Current Drive Power [MW]:           26.9
 Current Drive Efficiency:           0.5
 Aux. Functions Power [MW]:          50
 Cryo Power [MW]:                    2

Neutron Power Distribution [%]: (A=4)
 Divertors:                         0.1
 IB Blanket:                        0.25
 OB Blanket:                        0.65

 Power to Divertor [MW]:             295.385
 Divertor Heat Flux max [MW/m2]:     6.70536

 NWL ave [MW/m2]:                    2.64072
 NWL max [MW/m2]:                    4.43641

 Power to FW [MW]:                   111.015
 FW Heat Flux ave [MW/m2]:           0.219449
 FW Heat Flux max [MW/m2]:           0.274312




Costing Accounts

Costing Accounts with SiC Blanket
Costs are M$ in 2009$
Printed on Thu Apr 7 13:32:36 2011
20.0     Land and Land Rights
              : 24.1394
       20.1   Land and Privilege Acquistion
              : 20.1374
       20.2   Relocation of Buildings, Utilities, Highways, and Other Services
              : 4.002

21.0   Structures and Site Facilities
            : 428.527
     21.1   Site Improvements and Facilities
            : 27
     21.2   Power Core Building
            : 159.877
     21.3   Turbine - Generator Building
            : 77.0289
     21.4   Heat Rejection Structures and Facilities
            : 11.5868
     21.5   Electrical Equipment and Power Supply Building
            : 23.1178
     21.6   Plant Auxiliary Systems Building (including Switchgear)
            : 21.6641
     21.7   Hot Cell Building (incl. Maintenance and Radioactive Material
Storage and Reprocessing)      : 54.3582
     21.8   Power Core Service Building (Non-Radioactive Service?)
            : 4.34566
     21.9   Service Water Building
            : 1.52541
     21.10   Fuel Handling and Storage Building
            : 25.2006
     21.11   Control Room Building
            : 7.12
     21.12   On-Site A/C Power Supply Building
            : 4.74237
     21.13   Administration Building
            : 2
     21.14   Site Service Building
            : 2
     21.15   Cryogenics and Inert Gas Storage Building
            : 2.09
     21.16   Security Building
            : 0.71
     21.17   Ventilation Stack
            : 4.16

22.0     Power Core Equipment
              : 1246.13
       22.1.0   Fusion Energy Capture and Conversion
              : 292.573
          22.1.1    First Wall and Blanket, replaceable, inboard and outboard
            : 54.4278
          22.1.2    Second Blanket, life of plant
            : 72.9434
          22.1.3    Divertor Assembly, upper and lower, replaceable
            : 0.529723
          22.1.4    High Temperature Shield, outside of blanket and/or
divertor, replaceable: 19.0349
          22.1.5    High Temperature Shield, outside of replaceable HT shield,
life of plant: 116.51
          22.1.6    Penetration Shielding (low temperature, active and
passive)          : 29.1275
          22.1.7    Shield cooling, low temperature
            : 0
     22.2.0   Plasma Confinement
            : 298.708
          22.2.1    Toroidal Field Coils (Conductor, Case, Bucking Cyl.,
Cryostat, Struts, Structure) : 229.377
                     22.2.1.1   Conductor and Cable
            : 36.3308
                     22.2.1.2   Structural Coil Case
            : 113.309
                     22.2.1.3   Bucking Cylinder
            : 11.2079
                     22.2.1.4   Cryostat and Thermal Shield
            : 42.3224
                     22.2.1.5   Thermal Isolation Struts
            : 0
                     22.2.1.6   Anti-torque structure (upper + lower cap)
            : 26.2071
          22.2.2    Poloidal Field Coils (Central Solenoid and Outer
Poloidal), Lower Spares Included     : 69.3305
          22.2.3    Feedback Control Coils (Normal Conducting)
            : 0
          22.2.4    Cryogenicics for Plasma Confinement (Including Dewar
Vacuum Pumping)   : 0
          22.2.5    Power Supplies for Plasma Confinement
            : 0
     22.3.0   Plasma Formation and Sustainment
            : 77.6586
          22.3.1    Heating and Current Drive with power supplies (Primarily
Steady State)            : 54.6586
                     22.3.1.1   Ion Cyclotron Resonance Frequency (ICRF) Fast
Wave Heating and CD      : 3.7766
                     22.3.1.2   Lower Hybrid (LH) Wave Plasma Heating and
Current Drive                  : 50.882
                     22.3.1.3   Electron Cyclotron Resonance Frequency (ECRF)
Plasma Heating and CD    : 0
                    22.3.1.4    Neutral Particle Beam Plasma Heating, Current
Drive and Rotation             : 0
           22.3.2   Startup subsystems with power supplies
             : 7
                     22.3.2.1   Electron Cyclotron Resonance Frequency (ECRF)
Wave Plasma Breakdown    : 0
                     22.3.2.2   Ion Cyclotron Resonance Frequency (ICRF) Wave
Current Initiation, Ramp-Up: 0
                     22.3.2.3   Lower Hybrid (LH) Wave Current Initiation and
Ramp-Up                  : 0
           22.3.3   Stability Control subsystem with power supplies (Primarily
Transient)         : 0
                     22.3.3.1   Electron Cyclotron Resonance Frequency (ECRF)
Wave Plasma Control      : 0
                     22.3.3.2   Neutral Particle Beam Plasma Control
                   : 0
           22.3.4   Plasma Fueling and Constituent Control
             : 16
                     22.3.4.1   Pellet Injection Fueling and Constituent
Control                        : 0
                     22.3.4.2   Neutral (Particle) Beam Injection (NBI)
Fueling and Constituent Control      : 0
     22.4.0    Vacuum, Power Core
      : 96.1443
           22.4.1   Vacuum Vessel
      : 52.6655
           22.4.2   Helium Liquefier-Refrigerators
             : 15
           22.4.3   Primary Vacuum Pumps (cryocondensation, cryosorption,
cryodiffusion, and/or turbo-molecular): 0
           22.4.4   Roughing or Backing Pumps
             : 0
           22.4.5   Vacuum Pumping Ducts (vac duct shielding in 22.01.06)
                   : 28.4789
           22.4.6   Plumbing, Cryogenic
             : 0
     22.5.0    Primary Structure and Support, Power Core
                   : 48.9422
           22.5.1   Carry-Through Structure
             : 0
           22.5.2   Structural Pedestal
             : 0
           22.5.3   Equipment Support Structure
             : 0
     22.6.0    Main Heat Transfer and Transport (MHTT)
             : 175.245
           22.6.1   Dual-Coolant System: PbLi Servicing FW, Blanket, HT
shield, He Servicing Divertor. Also Nb IHX: 175.245
          22.6.2     Primary (Helium) Heat Transfer Loop (Servicing FW,
blanket, and HT shield)         : 0
          22.6.3     Limiter or Divertor Primary Heat Transfer Loop (May tie
into same IHX, SG)              : 0
          22.6.4     Intermediate Heat Transfer Loop (Sodium or Helium)
                    : 0
     22.7.0    Radioactive Materials Treatment and Management (off-line)
                    : 15.3302
          22.7.1     Liquid Materials Processing Equipment (including final
detritiation)             : 0
          22.7.2     Gaseous Materials Processing Equipment (including final
detritiation)             : 0
          22.7.3     Solid Materials Processing Equipment   (including
detrititation)                  : 0
     22.8.0    Fuel Handling and Storage (on-line)
             : 71.5407
          22.8.1     Chamber Exhaust Gas Handling and Processing Equipment
                    : 0
          22.8.2     Purge and Cover Gas Handling Processing Equipment
                    : 0
          22.8.3     Primary Coolant Stream Handling and Processing Equipment
(including on-line adj. of Li enrichment): 0
          22.8.4     Other Liquid and Gaseous Coolant Stream Handling and
Processing Equipment            : 0
          22.8.5     Purification and Isotope Separation Equipment
                    : 0
          22.8.6     Tritium, Deuterium, and DT Storage Equipment
                    : 0
          22.8.7     Atmospheric Tritium Recovery Equipment (Power Core, Hot
Cell, Fuel Handling Bldgs.)     : 0
     22.9.0    Maintenance Equipment
             : 101.843
          22.9.1     Power Core Maintenance Equipment
             : 0
          22.9.2     Hot Cell Maintenance Equipment
             : 0
          22.9.3     Fuel Handling Maintennace Equipment
             : 0
          22.9.4     Other Plant Equipment Maintenance Equipment
             : 0
     22.10.0     Instrumentation and Control
             : 60
          22.10.1     Power Core Instrumentation & Control Equipment
             : 0
          22.10.2     Radiation Monitoring Equipment
             : 0
          22.10.3     Isolated Indicating & Recording Equipment
             : 0
          22.10.4     Data Acquisition and Recording Equipment
             : 0
          22.10.5     Communications Equipment
             : 0
     22.11.0     Other Power Core Equipment
             : 8.14744
          22.11.1     Special Heating Equipment
             : 0
          22.11.2     Special Cooling Equipment (low temp shield, vacuum
vessel, other structures)       : 0
          22.11.3     Coolant Receiving, Storage and Makeup Equipment
             : 0
          22.11.4     Gas Systems Equipment
             : 0
          22.11.5     Inert Atmosphere Equipment (Power Core, Hot Cell, and
Fuel Handling Buildings): 0
     22.98.0     Spare Parts Allowance (include in individual costs)
             : 0
     22.99.0     Contingency Allowance (include in Acct 96)
             : 0

23.0     Turbine - Generator Equipment
               : 352.843
       23.1.0    Turbine - Generators
               : 0
       23.2.0    Main Steam or other Main Heat Transfer Fluid System
               : 0
       23.3.0    Condensing or Heat Sink Heat Exhanger Systems
               : 0
       23.4.0    Feedwater Heating or Heat Recovery System
               : 0
       23.5.0    Other Turbine Plant Equipment
               : 0
       23.6.0    Turbine Plant Instrumentation & Control
               : 0
       23.98.0     Spare Parts Allowance (include in individual costs)
               : 0
       23.99.0     Contingency Allowance (include in Acct 96)
               : 0

24.0     Electric Plant Equipment
              : 185.726
       24.1.0   Switchgear
              : 0
       24.2.0   Station Service Equipment
              : 0
       24.3.0   Switchboards
              : 0
       24.4.0        Protective Equipment
                 :   0
       24.5.0        Electrical Structures and Wiring Containers
                 :   0
       24.6.0        Power and Control Wiring
                 :   0
       24.7.0        Electrical Lighting
                 :   0
       24.98.0         Spare Parts Allowance (include in individual costs)
                 :   0
       24.99.0         Contingency Allowance (include in Acct 96)
                 :   0

25.0     Heat Rejection Equipment
        : 34.1711
       25.1.0    Water Intake Common Facilities
        : 0
       25.2.0    Circulating Water Systems
               : 0
       25.3.0    Cooling Towers                                              : 0
       25.4.0    Other Heat Rejection Systems
               : 0
       25.98.0     Spare Parts Allowance (include in individual costs)
        : 0
       25.99.0     Contingency Allowance (include in Acct 96)
        : 0

26.0     Miscellaneous Plant Equipment
        : 84.3054
       26.1.0   Transportation and Lifting Equipment
        : 0
       26.2.0   Air and Water Service Systems
        : 0
       26.3.0   Communications Equipment
        : 0
       26.4.0   Furnishings and Fixtures
        : 0
       26.98.0    Spare Parts Allowance (include in individual costs)
        : 0
       26.99.0    Contingency Allowance (include in Acct 96)
        : 0

27.0   Special Materials
      : 56.5272
     27.1.0   Primary coolant (PbLi) w/ 2.5x BOP factor
      : 55.5064
     27.2.0   Divertor coolant (Helium) incl. storage & pressurization
subsystem   : 0.00240115
       27.3.0   Intermediate Loop Coolant
        : 0
       27.4.0   Turbine cycle Working Fluids
        : 0
       27.98.0   Other Special Materials
        : 0.611058
       27.99.0   Argon Power Core Cover Gas
        : 0.407372



90.0    Total Direct Cost
       : 2412.37

91.0     Construction Facilities, Equipment and Services
        : 272.598
       91.1.0   Temporary Facilities
        : 0
       91.2.0   Construction Equipment
        : 0
       91.3.0   Construction Services
        : 0

92.0     Home Office Engineering and Services
        : 125.443
       92.1.0   Systems Engineering
        : 0
       92.2.0   Management Services
        : 0
       92.3.0   Quality Assurance
        : 0
       92.4.0   Safety and Environmental Engineering
        : 0

93.0     Field Office Engineering and Services
        : 125.443
       93.1.0   Construction Management
        : 0
       93.2.0   Inspection
        : 0
       93.3.0   Pre-Operational Training
        : 0

94.0     Owner's Cost
        : 440.378
       94.1.0   Project Administration
        : 0
       94.2.0   Staff Training and Plant Startup
        : 0
       94.3.0     Inventories and Spares Administration
        : 0

95.0     Process (design) Contingency
        : 0

96.0     Project Contingency
        : 494.618

97.0     Interest During Construction (IDC)
        : 504.372

98.0     Escalation During Construction (EDC)
        : 0

99.0     Total Project Capital Cost
        : 4375.22



Cost of Electricity (COE) [mills/kWh]:              55.0217

 Subcosts of COE normalized to mills/kWh:
... capital return:                                 33.471
... operation and maintenance:                      12.9944
... component replacement:                          6.38041
... fuel cost:                                      0.175913
... decontamination and decommissioning:                   2




Costing Algorithms

Costing Algorithms: every account has *inflation(yearOrig, yearNew) with a
cost credit factor
Printed on Thu Apr 7 13:32:36 2011

c_20[1] = 20e6*pow(Pe/1000.0, 0.3)
c_20[2] = (20.01e6)*0.2
      Pe = (*Machine).net_electrical_power()

c_21[1]   =   27.0e6*pow(Asite/1000.0, 0.2)
c_21[2]   =   111.846e6*pow(Vrb/80.0e3, 0.62)
c_21[3]   =   79.03e6*pow(Pet/1246.0, 0.5)
c_21[4]   =   16.832e6*pow((Pth-Pet)/1860.0, 0.5)
c_21[5]   =   22.96e6*pow(Pe/1000.0, 0.3)
c_21[6]   =   22.00e6*pow(Pet/1246.0, 0.3)
c_21[7]   =   0.34*c_21[2]
c_21[8]   =   4.316e6*pow(Pe/1000.0, 0.3)
c_21[9] = 1.515e6*pow(Pe/1000.0, 0.3)
c_21[10] = 25.0e6*pow(Pfusion/1759.0, 0.3)
c_21[11] = 7.12e6
c_21[12] = 4.71e6*pow(Pe/1000.0, 0.3)
c_21[13] = 2.00e6
c_21[14] = 2.00e6
c_21[15] = 2.09e6
c_21[16] = 0.71e6
c_21[17] = 4.16e6
      Asite = 1000.0
      Pet = (*Machine).gross_electrical_power()
      Pth = (*Machine).thermal_power()
      Pfusion = (*Machine).fusion_power()
      Vrb = (*Machine).volume() = 142350
      vol_reactor_bldg = (pow((ksihi + 9.0), 2.0)*6.0*etahi + 1.55e5)*cATfit
      ksihi = (*Core).bounding_box(2, 'outer')
      etahi = (*Core).bounding_box(3, 'outer')
      cATfit = 138698.0/181655.0

c_22_1[1] = ( (*FWInboard).cost() + (*FWOutboard).cost() +
(*BlanketInboard).cost() + (*BlanketOutboard).cost() )*16.0
c_22_1[2] = (*BlanketII).cost()*16.0
c_22_1[3] = DivCost*16.0
c_22_1[4] = ( (*RepHTShield)[0].cost() + (*RepHTShield)[1].cost() )*16.0
c_22_1[5] = ( (*HTShield)[0].cost() + (*HTShield)[1].cost() )*16.0
c_22_1[6] = 0.25*c_22_1[5]
c_22_1[7] = 0.0
      DivCost = for(int i=0; i<6; i++) { DivCost = DivCost + (*Div)[i].cost()
}

c_22_2_1[1] = (*TFCoil).sub_cost(0)*16.0
c_22_2_1[2] = (*TFCoil).sub_cost(1)*16.0
c_22_2_1[3] = (*BuckingCylinder).cost()*16.0
c_22_2_1[4] = (*CryoDome).cost()*16.0
c_22_2_1[5] = 0.0*16.0
c_22_2_1[6] = ((*UpperCap).cost() + (*LowerCap).cost())*16
      (*TFCoil).sub_cost(0) = 2.27067e+06
      (*TFCoil).sub_cost(1) = 7.08182e+06

c_22_2[1] = ((*TFCoil).cost() + (*BuckingCylinder).cost() +
(*UpperCap).cost() + (*LowerCap).cost() + (*CryoDome).cost())*16.0
c_22_2[2] = PFCoilCost*16.0
c_22_2[3] = 0.0
c_22_2[4] = 0.0
c_22_2[5] = 0.0
      PFCoilCost (main):    for(int i=0; i<36; i++) { PFCoilCost = PFCoilCost
+ (*PoloFCoil)[i].cost() }
      PFCoilCost (spares): for(int i=4; i<18; i++) { PFCoilCost = PFCoilCost
+ (*PoloFCoil)[i].cost() }

c_22_3_1[1]     =   (*Machine).cd_fast_wave_cost()
c_22_3_1[2]     =   (*Machine).cd_lower_hybrid_cost()
c_22_3_1[3]     =   0.0
c_22_3_1[4]     =   (*Machine).cd_neutral_beam_cost()

c_22_3_2[1] = 0.0
c_22_3_2[2] = 0.0
c_22_3_2[3] = 0.0

c_22_3_3[1] = 0.0
c_22_3_3[2] = 0.0

c_22_3_4[1] = 0.0
c_22_3_4[2] = 0.0
c_22_3_4[0] = 16.0e6

c_22_3[1]   =   (*Machine).cd_cost()
c_22_3[2]   =   7.0e6
c_22_3[3]   =   0.0
c_22_3[4]   =   16.0e6

c_22_4[1] =     (cVV + cMP)*16.0
c_22_4[2] =     15.0e6
c_22_4[3] =     0.0
c_22_4[4] =     0.0
c_22_4[5] =     cDuct*16.0
c_22_4[6] =     0.0
      cVV       = (*VacuumVessel)[0].cost() + (*VacuumVessel)[1].cost()
      cMP       = (*MPort).cost()
      cDuct     = (*Duct)[0].cost() + (*Duct)[1].cost() + 2.0*(*Duct)[3].cost()

c_22_5[1] = 0.0
c_22_5[2] = 0.0
c_22_5[3] = 0.0
c_22_5[0] = support_structure_volume*0.20e6
      support_structure_volume = 0.20*fpc_vol
      fpc_vol = ((*FWInboard).volume() + (*FWOutboard).volume() +
(*BlanketInboard).volume() + (*BlanketOutboard).volume() +
(*BlanketII).volume() + (*RepHTShield)[0].volume() +
(*RepHTShield)[1].volume() + 1.1*((*HTShield)[0].volume() +
(*HTShield)[1].volume()) + (*VacuumVessel)[0].volume() +
(*VacuumVessel)[1].volume() + DivVol + (*TFCoil).volume() + PoloFCVolume +
PoloFCVolumeSpares) *16.0
      DivVol:                   for(int i=0; i<6; i++)   { DivVol = DivVol +
(*Div)[i].volume(); }
      PoloFCVolume:       for(int i=0; i<36; i++) { PoloFCVolume =
PoloFCVolume + (*PoloFCoil)[i].volume() }
      PoloFCVolumeSpares: for(int i=4; i<18; i++) { PoloFCVolumeSpares =
PoloFCVolumeSpares + (*PoloFCoil)[i].volume() }

c_22_6[1] = 125.0e6*pow(Pth*f_LiPb/2000, 0.55) + 0.01e6*Pth*f_LiPb +
110.0e6*pow(Pth*f_He/2000, 0.55)
c_22_6[2] = 0.0
c_22_6[3] = 0.0
c_22_6[4] = 0.0
      f_LiPb = 0.8
      f_He   = 0.2

c_22_7[1]    =       0.0
c_22_7[2]    =       0.0
c_22_7[3]    =       0.0
c_22_7[0]    =       15.0e6*pow(Pfusion/1758.0, 0.8)

c_22_8[1]    =       0.0
c_22_8[2]    =       0.0
c_22_8[3]    =       0.0
c_22_8[4]    =       0.0
c_22_8[5]    =       0.0
c_22_8[6]    =       0.0
c_22_8[7]    =       0.0
c_22_8[0]    =       70.0e6*pow(Pfusion/1758.0, 0.8)

c_22_9[1]    =       0.0
c_22_9[2]    =       0.0
c_22_9[3]    =       0.0
c_22_9[4]    =       0.0
c_22_9[0]    =       100.0e6*pow(Pe/1000.0, 0.8)

c_22_10[1]       =    0.0
c_22_10[2]       =    0.0
c_22_10[3]       =    0.0
c_22_10[4]       =    0.0
c_22_10[5]       =    0.0
c_22_10[0]       =    60.0e6

c_22_11[1]       =    0.0
c_22_11[2]       =    0.0
c_22_11[3]       =    0.0
c_22_11[4]       =    0.0
c_22_11[5]       =    0.0
c_22_11[0]       =    8.0e6*pow(Pe/1000.0, 0.8)

c_23[1] = 0.0
c_23[2] = 0.0
c_23[3] = 0.0
c_23[4] = 0.0
c_23[5] = 0.0
c_23[6] = 0.0
c_23[7] = 0.0
c_23[8] = 0.0
c_23[0] = 360.0e6*pow(P_thermal/2000,0.8)*(eta_brayton/0.6)
      eta_brayton = (*Machine).gross_electrical_power()/Pth

c_24[1]   =   0.0
c_24[2]   =   0.0
c_24[3]   =   0.0
c_24[4]   =   0.0
c_24[5]   =   0.0
c_24[6]   =   0.0
c_24[7]   =   0.0
c_24[8]   =   0.0
c_24[9]   =   0.0
c_24[0]   =   187.0e6*pow(Pet/1200.0, 0.5)

c_25[1]   =   0.0
c_25[2]   =   0.0
c_25[3]   =   0.0
c_25[4]   =   0.0
c_25[5]   =   0.0
c_25[6]   =   0.0
c_25[0]   =   89.17e6*((Pth-Pet)/2300.0)

c_26[1]   =   0.0
c_26[2]   =   0.0
c_26[3]   =   0.0
c_26[4]   =   0.0
c_26[5]   =   0.0
c_26[6]   =   0.0
c_26[0]   =   85.0e6*pow(Pet/1200.0, 0.6)

c_27[1] = (8.79/1000.0)*m_LM_total*1.0e6
c_27[2] = (he_vol_in_div + he_vol_in_storage)*70.0*4.215
c_27[3] = 0.0
c_27[4] = 0.0
c_27[5] = 0.6e6*pow(Pe/1000.0, 0.8)
c_27[6] = 0.4e6*pow(Pe/1000.0, 0.8)
      4.215 = ave He density between STP and 700C, 15 MPa
      70.0    = Helium cost ($/kg), 99.999% pure
      m_LM_total = BOP*(m_LM + m_LM_div + m_LM_rhts + m_LM_hts)*16.0/1000.0
      m_LM = (*FWInboard).liquid_metal_mass() +
(*FWOutboard).liquid_metal_mass() + (*BlanketInboard).liquid_metal_mass() +
(*BlanketOutboard).liquid_metal_mass() + (*BlanketII).liquid_metal_mass()
      m_LM_div: for(int i=0; i<6; i++) { m_LM_div = m_LM_div +
(*Div)[i].liquid_metal_mass() }
      m_LM_rhts: for(int i=0; i<2; i++) { m_LM_rhts = m_LM_rhts +
(*RepHTShield)[i].liquid_metal_mass() }
      m_LM_hts: for(int i=0; i<2; i++) { m_LM_hts = m_LM_hts +
(*HTShield)[i].liquid_metal_mass() }
      BOP = 2.5
      he_vol_in_div = div_vol*16.0*BOP*0.50
      div_vol: for(int i=0; i<6; i++) { div_vol = div_vol +
(*Div)[i].volume(); }
      he_vol_in_storage = he_vol_in_div*0.10
      mhtt_vol = ((*FWInboard).volume() + (*FWOutboard).volume() +
(*BlanketInboard).volume() + (*BlanketOutboard).volume() +
(*BlanketII).volume() + (*RepHTShield)[0].volume() +
(*RepHTShield)[1].volume() + 1.1*((*HTShield)[0].volume() +
(*HTShield)[1].volume()) )*16.0*BOP

c_90 = c_20[0] + c_21[0] + c_22[0] + c_23[0] + c_24[0] + c_25[0] + c_26[0] +
c_27[0]

c_91[1]   =   0.0
c_91[2]   =   0.0
c_91[3]   =   0.0
c_91[0]   =   0.1130*c_90

c_92[1]   =   0.0
c_92[2]   =   0.0
c_92[3]   =   0.0
c_92[4]   =   0.0
c_92[0]   =   0.052*c_90

c_93[1]   =   0.0
c_93[2]   =   0.0
c_93[3]   =   0.0
c_93[0]   =   0.052*c_90

c_94[1]   =   0.0
c_94[2]   =   0.0
c_94[3]   =   0.0
c_94[0]   =   0.15*(c_90 + c_91[0] + c_92[0] + c_93[0])

c_95 = 0.0*c_90

c_96 = 0.1465*(c_90 + c_91[0] + c_92[0] + c_93[0] + c_94[0] + c_95)
c_97 = fidc*(c_90 + c_91[0] + c_92[0] + c_93[0] + c_94[0] + c_95 + c_96)
      fidc = 0.1303

c_98 = fedc*c_90
      fedc = 0.0

c_99 = c_90 + c_91[0] + c_92[0] + c_93[0] + c_94[0] + c_95 + c_96 + c_97 +
c_98

cost_Of_Electricity = (c_AC + (c_OM + c_SCR + c_F) * pow(1.0 + y,Y)) /
(8760.0*Pe*pf) + c_DD
** See input file costing.data for input parameters: Xrdr, Lecon,
neutron_fluence_life, y, Y, pf, c_F, c_DD.
fcr = Xrdr/( 1.0 - pow(1.0+Xrdr, -Lecon))
c_AC = fcr*c_99
Pe = (*Machine).net_electrical_power()
c_OM = 80.0e6*pow(Pe/1200.0, 0.5)
FWB_life = neutron_fluence_life/nwlmax
nwlmax = (*Machine).neutron_wall_load('maximum')
c_SCR = (c_22_1[1] + c_22_1[3] + c_22_1[4] + c_22_3_1[0] + c_22_3_4[0] +
c_22_4[5]) / (FWB_life/pf)
c_AC = fcr*c_99

coe_subcost[0]   =   c_AC                  /(8760.0*Pe*pf)
coe_subcost[1]   =   c_OM*pow(1.0+y, Y)    /(8760.0*Pe*pf)
coe_subcost[2]   =   c_SCR*pow(1.0+y, Y)   /(8760.0*Pe*pf)
coe_subcost[3]   =   c_F*pow(1.0+y, Y)     /(8760.0*Pe*pf)
coe_subcost[4]   =   c_DD




Part Compositions

Part Compositions for Tokamak Power Plant using SiC Blanket Module:

             Part       Material   Volume Frac Density Frac    Den (kg/m3)
Cost/unit mass Cost Base Year
-----------------------------------------------------------------------------
-----------------------------------------
    FirstWallInboard      SiC-comp        0.73        0.95        3200
      584.64            2009
    FirstWallInboard          PbLi        0.27        0           8897
      8.79              2009
   FirstWallOutboard      SiC-comp        0.73        0.95        3200
      584.64            2009
   FirstWallOutboard          PbLi        0.27        0           8897
      8.79              2009
 BlanketInboard     SiC-comp    0.17    0.95   3200
 584.64           2009
 BlanketInboard         PbLi    0.83    0      8897
 8.79             2009
BlanketOutboard     SiC-comp    0.17    0.95   3200
 584.64           2009
BlanketOutboard         PbLi    0.83    0      8897
 8.79             2009
      BlanketII     SiC-comp     0.2    0.95   3200
 584.64           2009
      BlanketII         PbLi    0.77    0      8897
 8.79             2009
      BlanketII            W    0.03    1      19300
 120.37           2009
           Div1     RAFS-div   0.108    1      7800
 111.77           2009
           Div1            W   0.359    1      19300
 120.37           2009
           Div1           He   0.526    0      0.1786
 0                2011
           Div1         Void    0.07    0      0
 0                2009
           Div2     RAFS-div   0.108    1      7800
 111.77           2009
           Div2            W   0.359    1      19300
 120.37           2009
           Div2           He   0.526    0      0.1786
 0                2011
           Div2         Void    0.07    0      0
 0                2009
           Div3     RAFS-div   0.108    1      7800
 111.77           2009
           Div3            W   0.359    1      19300
 120.37           2009
           Div3           He   0.526    0      0.1786
 0                2011
           Div3         Void    0.07    0      0
 0                2009
           Div4     RAFS-div   0.108    1      7800
 111.77           2009
           Div4            W   0.359    1      19300
 120.37           2009
           Div4           He    0.526   0      0.1786
 0                2011
           Div4         Void    0.07    0      0
 0                2009
           Div5     RAFS-div   0.108    1      7800
 111.77           2009
                Div5            W   0.359   1      19300
      120.37           2009
                Div5           He   0.526   0      0.1786
      0                2011
                Div5         Void    0.07   0      0
      0                2009
                Div6     RAFS-div   0.108   1      7800
      111.77           2009
                Div6            W   0.359   1      19300
      120.37           2009
                Div6           He   0.526   0      0.1786
      0                2011
                Div6         Void    0.07   0      0
      0                2009
      RepHTShieldTop     SiC-comp    0.15   0.95   3200
      584.64           2009
      RepHTShieldTop         PbLi     0.1   0      8897
      8.79             2009
      RepHTShieldTop         B-FS    0.75   1      7800
      35.54            2009
   RepHTShieldBottom     SiC-comp    0.15   0.95   3200
      584.64           2009
   RepHTShieldBottom         PbLi     0.1   0      8897
      8.79             2009
   RepHTShieldBottom         B-FS    0.75   1      7800
      35.54            2009
     HTShieldInboard     SiC-comp    0.15   0.95   3200
      584.64           2009
     HTShieldInboard         PbLi     0.1   0      8897
      8.79             2009
     HTShieldInboard            W    0.05   1      19300
      120.37           2009
     HTShieldInboard         B-FS     0.7   1      7800
      35.54            2009
    HTShieldOutboard     SiC-comp    0.15   0.95   3200
      584.64           2009
    HTShieldOutboard         PbLi     0.1   0      8897
      8.79             2009
    HTShieldOutboard         B-FS    0.75   1      7800
      35.54            2009
    VacuumVesselMain         RAFS    0.13   1      7800
      43.44            2009
    VacuumVesselMain         Void    0.22   0      0
      0                2009
    VacuumVesselMain           WC    0.65   0.95   15600
      34.39            2009
VacuumVesselOutboard         RAFS     0.3   1      7800
      43.44            2009
VacuumVesselOutboard              Void         0.7   0   0
      0                   2009
             TFMagnet            SS316     0.73585   1   7860
      68.657       1992
             TFMagnet            Nb3Sn   0.0208384   1   7500
      92.7                        1992
             TFMagnet               Cu    0.124179   1   7300
      65.4                1992
             TFMagnet        Inconel     0.0264421   1   8440
      96.02               2009
             TFMagnet      Polyamide     0.0263783   1   1920
      16.516              1992
     BuckingCylinder            RAFS             1   1   7800
      43.44               2009
             UpperCap           RAFS             1   1   7800
      43.44               2009
             LowerCap           RAFS             1   1   7800
      43.44               2009
MaintenancePortOpening       TF-coil             1   1   7500
      50.912              1992
             PFCoil_0        PF-coil             1   1   7500
      82.919              1992
             PFCoil_1        PF-coil             1   1   7500
      82.919              1992
             PFCoil_2        PF-coil             1   1   7500
      82.919              1992
             PFCoil_3        PF-coil             1   1   7500
      82.919              1992
             PFCoil_4        PF-coil             1   1   7500
      82.919              1992
             PFCoil_5        PF-coil             1   1   7500
      82.919              1992
             PFCoil_6        PF-coil             1   1   7500
      82.919              1992
             PFCoil_7        PF-coil             1   1   7500
      82.919              1992
             PFCoil_8        PF-coil             1   1   7500
      82.919              1992
             PFCoil_9        PF-coil             1   1   7500
      82.919              1992
            PFCoil_10        PF-coil             1   1   7500
      82.919              1992
            PFCoil_11        PF-coil             1   1   7500
      82.919              1992
            PFCoil_12        PF-coil             1   1   7500
      82.919              1992
            PFCoil_13        PF-coil             1   1   7500
      82.919              1992
      PFCoil_14      PF-coil         1   1   7500
82.919            1992
      PFCoil_15      PF-coil         1   1   7500
82.919            1992
      PFCoil_16      PF-coil         1   1   7500
82.919            1992
      PFCoil_17      PF-coil         1   1   7500
82.919            1992
      PFCoil_18      PF-coil         1   1   7500
82.919            1992
      PFCoil_19      PF-coil         1   1   7500
82.919            1992
      PFCoil_20      PF-coil         1   1   7500
82.919            1992
      PFCoil_21      PF-coil         1   1   7500
82.919            1992
      PFCoil_22      PF-coil         1   1   7500
82.919            1992
      PFCoil_23      PF-coil         1   1   7500
82.919            1992
      PFCoil_24      PF-coil         1   1   7500
82.919            1992
      PFCoil_25      PF-coil         1   1   7500
82.919            1992
      PFCoil_26      PF-coil         1   1   7500
82.919            1992
      PFCoil_27      PF-coil         1   1   7500
82.919            1992
      PFCoil_28      PF-coil         1   1   7500
82.919            1992
      PFCoil_29      PF-coil         1   1   7500
82.919            1992
      PFCoil_30      PF-coil         1   1   7500
82.919            1992
      PFCoil_31      PF-coil         1   1   7500
82.919            1992
      PFCoil_32      PF-coil         1   1   7500
82.919            1992
      PFCoil_33      PF-coil         1   1   7500
82.919            1992
      PFCoil_34      PF-coil         1   1   7500
82.919            1992
      PFCoil_35      PF-coil         1   1   7500
82.919            1992
       CryoDome   RAFS-cryostat   0.18   1   7800
28.06             2009
       CryoDome         Void      0.82   0   0
0                 2009
     MaintenancePort           B-FS      0.13        1           7800
      35.54             2009
     MaintenancePort           Void      0.22        0           0
      0                 2009
     MaintenancePort             WC      0.65        0.95        15600
      34.39             2009
UpperVVDuctBottomWall          B-FS      0.13        1           7800
      35.54             2009
UpperVVDuctBottomWall          Void      0.22        0           0
      0                 2009
UpperVVDuctBottomWall            WC      0.65        0.95        15600
      34.39             2009
  UpperVVDuctTopWall           B-FS      0.13        1           7800
      35.54             2009
  UpperVVDuctTopWall           Void      0.22        0           0
      0                 2009
  UpperVVDuctTopWall             WC      0.65        0.95        15600
      34.39             2009
 UpperVVDuctSideWall           B-FS      0.13        1           7800
      35.54             2009
 UpperVVDuctSideWall           Void      0.22        0           0
      0                 2009
 UpperVVDuctSideWall             WC      0.65        0.95        15600
      34.39             2009




Cost Base

Materials Cost Base:
Updated 12/08/10 'Fabrication Costs per kgRevN(01192011).xls' L. Waganer:

           B-FS         2009
           PbLi         2009
           RAFS         2009
       SiC-comp         2009
             SS         2009
           Void         2009
              W         2009
             WC         2009
        TF-coil         1992
        PF-coil         1992
          Nb3Sn         1992
             Cu         1992
           YBCO         1992
             Ag         1992
           CeO2         1992
      Polyamide         1992
        Inconel        2009
          JK2LB        2009
          SS316        1992
             FS        2009
             He        2011
       RAFS-div        2009
  RAFS-cryostat        2009




Material Densities

Material Densities (kg/m3):
Updated 12/08/10 'Fabrication Costs per kgRevN(01192011).xls' L. Waganer:

           B-FS        7800
           PbLi        8897
           RAFS        7800
       SiC-comp        3200
             SS        7860
           Void        0
              W        19300
             WC        15600
        TF-coil        7500
        PF-coil        7500
          Nb3Sn        7500
             Cu        7300
           YBCO        6200
             Ag        10500
           CeO2        7130
      Polyamide        1920
        Inconel        8440
          JK2LB        8000
          SS316        7860
             FS        7800
             He        0.1786
       RAFS-div        7800
  RAFS-cryostat        7800




Unit Cost

Material Unit Cost ($/kg):
Updated 12/08/10 'Fabrication Costs per kgRevN(01192011).xls' L. Waganer:

            B-FS       35.54
            PbLi       8.79
           RAFS         43.44
       SiC-comp         584.64
             SS         81.46
           Void         0
              W         120.37
             WC         34.39
        TF-coil         50.912
        PF-coil         82.919
          Nb3Sn         92.7
             Cu         65.4
           YBCO         92.7
             Ag         201.1
           CeO2         16.516
      Polyamide         16.516
        Inconel         96.02
          JK2LB         95
          SS316         68.657
             FS         89.42
             He         0
       RAFS-div         111.77
  RAFS-cryostat         28.06

 *PbLi is 'Li17Pb83, liquid (90% Li6 enrichment) @ 650C'
 *Helium is 99.999% pure, quoted from Qingdao Baigong.. China (LW)




Inflation Factor

Inflation Factors (2005 basis):
Updated 12/02/10 per 'GDP current(103010)(2005 basis).xls' from L. Waganer:

 Year used: 2009

1970   0.2432
1971   0.2553
1972   0.2663
1973   0.2811
1974   0.3067
1975   0.3356
1976   0.3549
1977   0.3775
1978   0.404
1979   0.4376
1980   0.4775
1981   0.5222
1982   0.5541
1983   0.576
1984   0.5977
1985   0.6158
1986   0.6294
1987   0.6476
1988   0.6699
1989   0.6952
1990   0.722
1991   0.7476
1992   0.7653
1993   0.7822
1994   0.7987
1995   0.8154
1996   0.8309
1997   0.8456
1998   0.8551
1999   0.8677
2000   0.8865
2001   0.9065
2002   0.9212
2003   0.941
2004   0.9677
2005   1
2006   1.0326
2007   1.063
2008   1.0862
2009   1.0961
2010   1.1071




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