Effects of Illumination on Thermionic Energy Converter Characteristics
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概要
- 論文の詳細を見る
The thermionic electron current density J_e from hot tungsten in a cesium atmosphere has a maximum at emitter temperatures TE lower than 1400 K and a cesium gas temperature T_<Cs> of around 500 K. Solar light can excite or ionize cesium atoms because of the atom's low excitation and ionization potentials. These phenomena can be applied to the development of a novel thermionic energy converter(TEC)using exclusively solar light or operated at a low T_E together with other heat sources. In the present work, the effect of illumination of a xenon lamp with a broad spectrum similar to solar light is examined from the viewpoint of the improvement of low T_E TEC. It is found that illumination cad improve TEC characteristics under the conditions that 1)space charge neutrality α<l0^<-2> 2)thermionic electron current density J_e>10^<-3>A/cm^2 and 3)the emitter work function Φ_E>2.2eV. These conditions ensure negative space potential formation in TEC. Electrons produced in the potential well by illumination can be accelerated at the electron sheath near the collector and ionize cesium atoms. As a result, illumination can accelerate the transition to the ignited mode and/or increase the TEC output current.
- 社団法人応用物理学会の論文
- 2000-05-15
著者
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Ogino A
Shizuoka Univ. Hamamatsu Jpn
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Ogino Akihisa
Graduate School Of Electronic Science And Technology Shizuoka University
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Kando Masashi
Graduate School Of Electronic Science And Technology Shizuoka University
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Zheng Wei
Graduate School Of Electronic Science And Technology Shizuoka University
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