Applicability of 100kWe-class of space reactor power systems to NASA manned space station missions. Final Report
An assessment is made of a manned space station operating with sufficiently high power demands to require a multihundred kilowatt range electrical power system. The nuclear reactor is a competitor for supplying this power level. Load levels were selected at 150kWe and 300kWe. Interactions among the reactor electrical power system, the manned space station, the space transportation system, and the mission were evaluated. The reactor shield and the conversion equipment were assumed to be in different positions with respect to the station; on board, tethered, and on a free flyer platform. Mission analyses showed that the free flyer concept resulted in unacceptable costs and technical problems. The tethered reactor providing power to an electrolyzer for regenerative fuel cells on the space station, results in a minimum weight shield and can be designed to release the reactor power section so that it moves to a high altitude orbit where the decay period is at least 300 years. Placing the reactor on the station, on a structural boom is an attractive design, but heavier than the long tethered reactor design because of the shield weight for manned activity near the reactor.
- Research Organization:
- Boeing Co., Seattle, WA (USA)
- OSTI ID:
- 6135911
- Report Number(s):
- N-85-35728; NASA-CR-174696; D180-28461-1; TRN: 86-003913
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
SPACE POWER REACTORS
ENERGY CONVERSION
MISSION ANALYSIS
SPACE VEHICLES
REACTOR SAFETY
CONVERSION
MOBILE REACTORS
POWER REACTORS
REACTORS
SAFETY
VEHICLES
NESDPS Office of Nuclear Energy Space and Defense Power Systems
210600* - Power Reactors
Auxiliary
Mobile Package
& Transportable