Reactor - Electrical power Capacity factor Thermal efficiency Fuel enrichment Fuel load per GWe-yr Capture-to-fission ratio for U-235 U in spent fuel (as heavy metal) U-235 in U in spent fuel Enrichment of natural U Enrichment of tails BWR - 750 MWe 0.92 0.33 2.5 w/o (weight percent) 58 t U per GWe-yr 0.169 96.0 w/o 0.73 w/o 0.71 w/o 0.22 w/o Find the following: a) Fuel requirement per year. b) Resource utilization. c) Amount of electricity (in kWh) generated per kg natural, fed to the enrichment. d) Percent contribution of Pu to the energy production. All the U in spent fuel is recovered purely and sent to the enrichment to produce the recycle U fuel containing 2.6 w/o U-235. e) How many kg's of the recycle U fuel can be obtained from 1 kg spent fuel? Reactor - Electrical power Capacity factor Thermal efficiency Fuel enrichment Fuel load per GWe-yr Capture-to-fission ratio for U-235 U in spent fuel (as heavy metal) U-235 in U in spent fuel Enrichment of natural U Enrichment of tails BWR - 750 MWe 0.92 0.33 2.5 w/o (weight percent) 58 t U per GWe-yr 0.169 96.0 w/o 0.73 w/o 0.71 w/o 0.22 w/o Find the following: a) Fuel requirement per year. b) Resource utilization. c) Amount of electricity (in kWh) generated per kg natural, fed to the enrichment. d) Percent contribution of Pu to the energy production. All the U in spent fuel is recovered purely and sent to the enrichment to produce the recycle U fuel containing 2.6 w/o U-235. e) How many kg's of the recycle U fuel can be obtained from 1 kg spent fuel