| 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 |