Collector temperature effects on the performance of advanced thermionic converters and nuclear electric propulsion systemsThe specific weight of a thermionic nuclear electric propulsion (NEP) system depends on the collector temperature because of changes in power density, efficiency and the temperature of heat rejection. Increasing the collector temperature above the value for maximum converter performance decreases both the efficiency and the power density of the converters, but the specific weight of the total system is decreased because of the reduction in radiator weight due to the increased heat rejection temperature. The effect of collector temperature on the performance of thermionic converters was investigated. The behavior of conventional ignited mode converters as well as advanced converters with lower collector work functions; the specific mass of an 'uninsulated' NEP system design was then evaluated as a function of collector temperature. The uninsulated design uses the electrical resistance of the heat pipes between the converters and the reactor to provide electrical insolation, eliminating the need for ceramic insulators at emitter temperature and providing other design advantages. The results indicate that an optimum collector temperature, which minimizes system weight, exists at a temperature above the optimum temperature for converter performance.
Document ID
19800064251
Acquisition Source
Legacy CDMS
Document Type
Conference Proceedings
Authors
Dick, R. S. (Rasor Associates, Inc. Sunnyvale, CA, United States)
Mcvey, J. (Rasor Associates, Inc. Sunnyvale, CA, United States)
Britt, E. J. (Rasor Associates, Inc. Sunnyvale, CA, United States)
Fitzpatrick, G. O. (Rasor Associates, Inc. Sunnyvale, Calif., United States)