ELM COIL    
Conductor pack width m 0.123
Conductor pack height m 0.176
Jacket OD mm 59.0
Jacket thickness mm 2.0
Insulation thickness mm 2.5
Conductor OD mm 50.0
Conductor ID mm 33.3
Conductor length per turn m 10.9
Feeder length per pole m 14.0
#Sub-circuits   1
#Turns per sub-circuit   6
Total conductor length per sub-circuit m 93.3
#Sub-circuits in series hydraulically   1
#Sub-circuits in parallel hydraulically   1
#Sub-circuits in series electrically   1
#Sub-circuits in parallel electrically   1
Base total current Amp-turn rms 90000
#Turns effective   6
Per unit current p.u. 1.00
Current per turn effective Amp rms 15000
Current per sub-circuit Amp rms 15000
Net series/parallel circuit resistance at 20C mOhm 1.850
Flow velocity m/s 5.0
Water Inlet Temperature deg C 100
Coil delta_T deg C 27
Total delta_T across hydraulic circuit deg C 39
Maximum temperature deg C 139
Net series/parallel circuit resistance at average resistivity mOhm 2.419
Total ohmic dissipation kW 544
Volumetric nuclear heating rate watt/cc 0.49
Nuclear heated volume m3 2.16E-01
Total nuclear heating kW 106
Total heat load kW 650
Heat load per hydraulic circuit kW 650
delta_T/sec (LOCW) degC/sec 1.8
Total Pressure Drop MPA 0.50
Boiling Pressure at Outlet Temp MPA 0.35
Return pressure MPA 0.69
Inlet pressure MPA 1.19
Total Cu wetted surface to TCWS m2 10
Total water volume in TCWS m3 0.08
ELM BUS BAR    
Conductor width m 0.0500
Conductor height m 0.1000
Cooling hole diameter m 0.0175
Current Amp rms 15000
Avg conductor length per pole m 30
#Conductor in parallel electrically and hydraulically per pole   2
Resistance per pole at 20C mOhm 0.055
Flow velocity m/s 2.8
Flow per conductor m3/s 6.69E-04
Mass flow per conductor kg/s 0.66
#Poles in series hydraulically   2
Hydraulic path delta_P MPA 0.25
Return pressure MPA 0.02
Inlet pressure MPA 0.38
Water Inlet Temperature deg C 45
Water delta_T deg C 5
Resistance per pole at average temperature mOhm 0.061
Ohmic dissipation per pole kW 14
Ohmic dissipation per unit length kW/m 0.45
Total # bus bar poles   2
Total ohmic dissipation, fraction of total coil + bus bar   0.05
Total flow m3/s 2.67E-03
Total mass flow kg/s 2.6
Total bus bar resistance at 20C ohm 1.10E-04
Total bus bar resistance at average temperature ohm 1.22E-04
Total bus bar inductance henry 6.01E-06
TOTAL ELM CIRCUIT    
Coil resistance at operating temperature ohm 2.42E-03
Coil inductance henry 2.32E-04
Bus bar resistance at operating temperature ohm 1.22E-04
Bus bar inductance henry 6.01E-06
Total circuit resistance at operating temperture ohm 2.54E-03
Total circuit inductance henry 2.38E-04
Current per turn amp 15000
AC Mode    
Frequency Hz 5
Inductive reactance ohm 7.46E-03
Complex impedance ohm 7.88E-03
Load power factor   0.32
Phase angle   71
Voltage drop volt 118
Current at peak voltage amp 4834
Power supply regulation at full load   0.20
Power supply regulation at current at peak voltage   0.06
Min power supply no-load voltage   126
Selected PS voltage   180
Active power watt 2.86E+05
Apparent power volt-amp 2.70E+06
Reactive power volt-amp-reactive 2.68E+06
Net power factor   0.11
DC Mode    
Voltage drop volt 38
Active power watt 5.72E+05
Apparent power volt-amp 2.70E+06
Reactive power volt-amp-reactive 2.64E+06
Net power factor   0.21
TOTAL ELM SYSTEM    
# coils   27
Simultaneity factor   0.50
Total input active power watt 7.72E+06
Total input reactive power volt-amp-reactive 7.25E+07
Total input apparent power volt-amp 7.29E+07
Total ohmic + nuclear heat load from coils to TCWS watt 1.02E+07
Total mass flow to coils from TCWS kg/s 106
TCWS Return pressure (minimum) MPA 0.69
Total Coil Pressure Drop to TCWS MPA 0.50
TCWS Inlet pressure (minimum) MPA 1.19
TCWS Water Inlet Temperature deg C 100
TCWS Water Outlet Temperature deg C 139
Total Cu wetted surface to TCWS m2 264
Total water volume in TCWS m3 2.20
Total heat load from bus bar to CCWS watt 3.71E+05
Total mass flow to bus bar from CCWS kg/s 71