High-efficiency thermionic converter studies
The objective is to improve thermionic converter performance by means of reduced interelectrode losses, greater emitter capabilities, and lower collector work functions until the converter performance level is suitable for out-of-core space reactors and radioisotope generators. Electrode screening experiments have identified several promising collector materials. Back emission work function measurements of a ZnO collector in a thermionic diode have given values less than 1.3 eV. Diode tests were conducted over the range of temperatures of interest for space power applications. Enhanced mode converter experiments have included triodes operated in both the surface ionization and plasmatron modes. Pulsed triodes were studied as a function of pulse length, pulse potential, inert gas fill pressure, cesium pressure, spacing, emitter temperature and collector temperature. Current amplifications (i.e., mean output current/mean grid current) of several hundred were observed up to output current densities of one amp/sq cm. These data correspond to an equivalent arc drop less than 0.1 eV.
- Research Organization:
- Thermo Electron Corp., Waltham, MA (USA)
- OSTI ID:
- 7308267
- Report Number(s):
- N-77-13820; NASA-CR-135125; TE-4202-12-77
- Country of Publication:
- United States
- Language:
- English
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300401* -- Thermionic Converters-- Design & Development
CHALCOGENIDES
DESIGN
DIODE TUBES
DIRECT ENERGY CONVERTERS
EFFICIENCY
ELECTRON TUBES
NESDPS Office of Nuclear Energy Space and Defense Power Systems
OXIDES
OXYGEN COMPOUNDS
PERFORMANCE
PERFORMANCE TESTING
RESEARCH PROGRAMS
TESTING
THERMIONIC COLLECTORS
THERMIONIC CONVERTERS
THERMIONIC DIODES
THERMIONIC EMITTERS
THERMIONIC TUBES
WORK FUNCTIONS
ZINC COMPOUNDS
ZINC OXIDES