Add to ORKGLanthanum hexaboride electrodes in 1700 K cesium diodes may triple power outputs compared with those demonstrated for nuclear thermionic space applications. Still greater relative gains seem possible for emitters below 1700 K. Further improvements in cesium diode performance should result from the lower collector temperatures allowed for earth and low power space duties. Decreased temperatures will lessen thermal transport losses that attend thermionic conversion mechanisms. Such advantages will add to those from collector Carnot and electrode effects. If plasma ignition difficulties impede diode temperature reductions, recycling small fractions of the output power could provide ionization. So high efficiency, low temperature cesium diodes ...
Investigating electric potential in cesium thermionic diode for minimum plasma-loss by electrostatic...
Ion generation and recombination mechanisms in the cesium plasma as they pertain to the advanced mod...
Applied research-and-technology (ART) work reveals that optimal thermionic energy conversion (TEC) w...
Thermionic conversion data obtained from a variable gap cesium diminiode with a hot pressed, sintere...
Outputs are presented for some cesium diodes having primarily emitters of highly oriented polycrysta...
The objective is to improve thermionic converter performance by means of reduced interelectrode loss...
Cesium-filled thermionic energy converters are considered as electrical energy sources in future spa...
Thermal, field emitters of lanthanum (or perhaps cerium) hexaboride (LaB6) with temperature variabil...
A brief review of several thermionic nuclear power plants leads to the conclusion that the in-core c...
Emitter and collector sheaths for cesium thermionic diodes with polycrystalline tungsten electrode
Thermionic energy conversion is an ideal way of converting concentrated solar energy into electricit...
Thermionic energy conversion is an ideal way of converting concentrated solar energy into electricit...
Results from tests of the first variable-gap diminiode at an initial interelectrode spacing of 0.23 ...
Diminiodes are fixed-or variable-gap cesium diodes with plane miniature emitters and guarded collect...
A research diode with polycrystalline molybdenum electrodes is described. Voltage-current characteri...
Investigating electric potential in cesium thermionic diode for minimum plasma-loss by electrostatic...
Ion generation and recombination mechanisms in the cesium plasma as they pertain to the advanced mod...
Applied research-and-technology (ART) work reveals that optimal thermionic energy conversion (TEC) w...
Thermionic conversion data obtained from a variable gap cesium diminiode with a hot pressed, sintere...
Outputs are presented for some cesium diodes having primarily emitters of highly oriented polycrysta...
The objective is to improve thermionic converter performance by means of reduced interelectrode loss...
Cesium-filled thermionic energy converters are considered as electrical energy sources in future spa...
Thermal, field emitters of lanthanum (or perhaps cerium) hexaboride (LaB6) with temperature variabil...
A brief review of several thermionic nuclear power plants leads to the conclusion that the in-core c...
Emitter and collector sheaths for cesium thermionic diodes with polycrystalline tungsten electrode
Thermionic energy conversion is an ideal way of converting concentrated solar energy into electricit...
Thermionic energy conversion is an ideal way of converting concentrated solar energy into electricit...
Results from tests of the first variable-gap diminiode at an initial interelectrode spacing of 0.23 ...
Diminiodes are fixed-or variable-gap cesium diodes with plane miniature emitters and guarded collect...
A research diode with polycrystalline molybdenum electrodes is described. Voltage-current characteri...
Investigating electric potential in cesium thermionic diode for minimum plasma-loss by electrostatic...
Ion generation and recombination mechanisms in the cesium plasma as they pertain to the advanced mod...
Applied research-and-technology (ART) work reveals that optimal thermionic energy conversion (TEC) w...