Add to ORKGThe current emphasis is on out-of-core thermionic conversion (TEC). The additional degrees of freedom offer new potentialities, but high-temperature material effects determine the level and lifetime of TEC performance: New electrodes not only raise power outputs but also maintain them regardless of emitter-vapor deposition on collectors. In addition, effective electrodes serve compatibly with hot-shell alloys. Space TEC withstands external and internal high-temperature vaporization problems, and terrestrial TEC tolerates hot corrosive atmospheres outside and near-vacuum inside. Finally, reduction of losses between converter electrodes is essential even though rather demanding geometries appear to be required for some modes of enhanced oper...
Design, fabrication, and test of advanced rhenium alloy electrode thermionic converter
Fabrication and evaluation of out-of-core thermionic converter heated and cooled by heat pipe
Applied research-and-technology (ART) work reveals that optimal thermionic energy conversion (TEC) w...
Technological processes in out-of-core thermionic energy conversion are described. The emphasis was ...
Research progress is briefly outlined in the areas of activation experiments, enchanced mode convers...
Thermionic energy conversion (TEC) is the direct conversion of heat into electricity by the mechanis...
Theoretic converter outputs and efficiencies indicate the need to consider thermionic energy convers...
Efforts were made to develop a thermionic energy conversion TEC technology appropriate for nuclear e...
Current designs for out of core thermionic energy conversion (TEC) to power nuclear electric propuls...
Progress made in different tasks of the advanced thermionic technology program is described. The tas...
Developments towards space and terrestrial applications of thermionic energy conversion are presente...
The objective is to improve thermionic converter performance by means of reduced interelectrode loss...
Performance expectations for thermionic and thermoelectric energy conversion systems are reviewed. I...
Literature survey of materials for gaseous thermionic conversion systems for use in spac
Thermionic research and development program - improvement of performance of low emitter temperature ...
Design, fabrication, and test of advanced rhenium alloy electrode thermionic converter
Fabrication and evaluation of out-of-core thermionic converter heated and cooled by heat pipe
Applied research-and-technology (ART) work reveals that optimal thermionic energy conversion (TEC) w...
Technological processes in out-of-core thermionic energy conversion are described. The emphasis was ...
Research progress is briefly outlined in the areas of activation experiments, enchanced mode convers...
Thermionic energy conversion (TEC) is the direct conversion of heat into electricity by the mechanis...
Theoretic converter outputs and efficiencies indicate the need to consider thermionic energy convers...
Efforts were made to develop a thermionic energy conversion TEC technology appropriate for nuclear e...
Current designs for out of core thermionic energy conversion (TEC) to power nuclear electric propuls...
Progress made in different tasks of the advanced thermionic technology program is described. The tas...
Developments towards space and terrestrial applications of thermionic energy conversion are presente...
The objective is to improve thermionic converter performance by means of reduced interelectrode loss...
Performance expectations for thermionic and thermoelectric energy conversion systems are reviewed. I...
Literature survey of materials for gaseous thermionic conversion systems for use in spac
Thermionic research and development program - improvement of performance of low emitter temperature ...
Design, fabrication, and test of advanced rhenium alloy electrode thermionic converter
Fabrication and evaluation of out-of-core thermionic converter heated and cooled by heat pipe
Applied research-and-technology (ART) work reveals that optimal thermionic energy conversion (TEC) w...