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 |