4 turn 3 turn
Conductor pack width m 0.1320 0.1320 4 turn 3 turn
Conductor pack height m 0.1280 0.1280 Jacket OD mm 59.0 59.0
Fraction of area to conductors   0.6472 0.4854 Jacket thickness mm 2.0 2.0
Fraction of area to structure   0.3528 0.5146 Insulation thickness mm 5.0 5.0
Jacket thickness m 0.0020 0.0020 Conductor OD mm 45.0 45.0
Insulation thickness m 0.0050 0.0050 Conductor ID mm 30.0 30.0
#Turns   4 3 Conductor length per turn m 47.1 47.1
Base peak current Amp-turn 240000 240000 Feeder length per pole m 10.0 10.0
Form factor (rms/peak)   0.150 0.150 #Sub-circuits   4 3
Base total current Amp-turn rms 35895 35895 #Turns per sub-circuit   1 1
Jacket OD m 0.059 0.059 Total conductor length per sub-circuit m 67.1 67.1
Jacket OD in 2.3228 2.3228 #Sub-circuits in series hydraulically   1 1
Jacket ID m 0.055 0.055 #Sub-circuits in parallel hydraulically   4 3
Jacket ID in 2.1654 2.1654 #Sub-circuits in series electrically   4 3
Jacket area m2 3.581E-04 3.581E-04 #Sub-circuits in parallel electrically   1 1
Conductor OD m 0.045 0.045 Base total current Amp-turn rms 35895 35895
Conductor OD in 1.7717 1.7717 #Turns effective   4 3
Conductor ID m 0.030 0.030 Per unit current p.u. 1.00 1.00
Conductor ID in 1.1811 1.1811 Current per turn effective Amp rms 8974 11965
Fraction ID/OD   0.6667 0.6667 Current per sub-circuit Amp rms 8974 11965
Fraction ID/OD allowable   0.6667 0.6667 Net series/parallel circuit resistance at 20C mOhm 5.237 3.927
Conductor area m2 8.836E-04 8.836E-04 Flow velocity m/s 3.0 3.0
Cooling hole area m2 7.069E-04 7.069E-04 Water Inlet Temperature deg C 100 100
Conductor length per turn m 47.091 47.091 Coil delta_T deg C 21 34
Conductor length per turn ft 154.499 154.499 Total delta_T across hydraulic circuit deg C 31 49
Feeder length per pole m 10.000 10.000 Net series/parallel circuit resistance at average resistivity mOhm 7.291 5.468
Feeder length per pole ft 32.808 32.808 Total ohmic dissipation kW 587 783
#Sub-circuits   4 3 Volumetric nuclear heating rate watt/cc 0.48 0.48
#Turns per sub-circuit   1 1 Nuclear heated volume m3 8.57E-01 8.57E-01
Total conductor length per sub-circuit m 67.1 67.1 Total nuclear heating kW 414 414
Total conductor length per sub-circuit ft 220 220 Total heat load kW 1001 1197
#Sub-circuits in series hydraulically   1 1 Heat load per hydraulic circuit kW 250 399
#Sub-circuits in parallel hydraulically   4 3 Maximum temperature deg C 121 134
#Sub-circuits in series electrically   4 3 delta_T/sec (LOCW) degC/sec 1.2 1.9
#Sub-circuits in parallel electrically   1 1 Total Pressure Drop MPA 0.24 0.24
#Turns effective   4 3 Boiling Pressure at Outlet Temp MPA 0.28 0.28
Base current Amp rms 8974 11965 Return pressure MPA 0.56 0.56
Per unit current p.u. 1.00 1.00 Inlet pressure MPA 0.80 0.80
Current per turn effective Amp rms 8974 11965 Total Cu wetted surface to TCWS m2 25 19
Current per sub-circuit Amp rms 8974 11965 Total water volume in TCWS m3 0.19 0.14
Flow velocity feet/sec 9.84 9.84
Flow velocity m/s 3.0 3.0
Allowable flow velocity m/s 3.0 3.0
Flow per sub-circuit m3/s 2.12E-03 2.12E-03
Flow per sub-circuit GPM 33.62 33.62
Mass flow per sub-circuit kg/s 1.9 1.9
Water Inlet Temperature deg C 100 100
Allowable delta_T across coil deg C 22 22
Allowable delta_T across full hydraulic circuit deg C 31 31
Allowable Water Outlet Temperature deg C 131 131
Water Average Temperature deg C 116 116
cs0   4229.2 4229.2
cs1   -3.857 -3.857
cs2   0.06786 0.06786
cs3   -0.0003745 -0.0003745
cs4   8.19E-07 8.19E-07
Specific Heat J/kg-C 4.26E+03 4.26E+03
cv0   0.0017887 0.0017887
cv1   -5.13E-05 -5.13E-05
cv2   7.91E-07 7.91E-07
cv3   -6.75E-09 -6.75E-09
cv4   3.16E-11 3.16E-11
cv5   -7.54E-14 -7.54E-14
cv6   7.17E-17 7.17E-17
Water Dynamic Viscosity kG/m-s 2.60E-04 2.60E-04
cd0   1005.4 1005.4
cd1   -0.539 -0.539
cd2   -0.0026713 -0.0026713
Water Density kg/m3 9.07E+02 9.07E+02
Water Kinematic Viscosity m2/s 2.86E-07 2.86E-07
Water Reynold's Number   3.15E+05 3.15E+05
Water Friction Factor   1.34E-02 1.34E-02
Hydraulic path delta_P PA 1.34E+05 1.34E+05
Hydraulic path delta_P psi 19 19
Plumbing Water Pressure Drop psi 15 15
Total Pressure Drop psi 34 34
Total Pressure Drop MPA 0.24 0.24
A1 8.0713 8.0713
B1   1730.6300 1730.6300
C1   233.4260 233.4260
A2   8.1402 8.1402
B2   1810.9400 1810.9400
C2   244.4850 244.4850
A   8.1402 8.1402
B   1810.9400 1810.9400
C   244.4850 244.4850
Boiling Pressure at Outlet Temp psi 40.6 40.6
Boiling Pressure at Outlet Temp PA 2.80E+05 2.80E+05
Return pressure multiple of boiling   2.0 2.0
Return pressure psi 81.1 81.1 http://ddbonline.ddbst.de/AntoineCalculation/AntoineCalculationCGI.exe?component=Water
Return pressure PA 5.59E+05 5.59E+05
Inlet pressure psi 115.6 115.6
Inlet pressure PA 7.97E+05 7.97E+05
Allowable inlet pressure psi 1000.0 1000.0
Water thermal resistance Watt/deg C 8.19E+03 8.19E+03
100% IACS Resistivity at 20C ohm-m 1.72E-08 1.72E-08
%IACS   100% 100%
Resistivity at 20C ohm-m 1.72E-08 1.72E-08
Net series/parallel circuit resistance at 20C ohm 5.24E-03 3.93E-03
Temp Coefficient of Resistivity per deg C 0.0041 0.0041
Average Resisitivity ohm-m 2.40E-08 2.40E-08
Net series/parallel circuit resistance at average resistivity ohm 7.29E-03 5.47E-03
Total ohmic dissipation Watt 5.87E+05 7.83E+05
Volumetric nuclear heating rate watt/cc 0.48 0.48
Nuclear heated volume m3 8.574E-01 8.574E-01
Total nuclear heating Watt 4.14E+05 4.14E+05
Total heat load Watt 1.00E+06 1.20E+06
Heat load per hydraulic circuit Watt 2.50E+05 3.99E+05
Coil delta_T deg C 21.4 34.2
Total delta_T across hydraulic circuit deg C 30.5 48.7
Allowable delta_T across hydraulic circuit deg C 31.3 31.3
Maximum temperature deg C 121.4 134.2
Cu temp coefficient of specific heat per deg C 0.105 0.105
Cu 20C specific heat J/kg-degC 393.5 393.5
Cu specific heat at avg temp J/kg-degC 403.5455373 403.5455373
Cu density kg/m3 8950 8950
Cu heat capacity J/degC 8.56E+05 6.42E+05
delta_T/sec (LOCW) degC/sec 1.17 1.86
Cooling time constant sec 104.5 78.4