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ガス温度300—3500Kにおける空気の実効電離係数と臨界電界の数値解析的検討
https://doi.org/10.24517/00009185
https://doi.org/10.24517/00009185d6f43cca-b0fa-4809-8cc6-bccc8b423cca
名前 / ファイル | ライセンス | アクション |
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TE-PR-TANAKA-Y-1380.pdf (1.4 MB)
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Item type | 学術雑誌論文 / Journal Article(1) | |||||
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公開日 | 2019-05-24 | |||||
タイトル | ||||||
タイトル | ガス温度300—3500Kにおける空気の実効電離係数と臨界電界の数値解析的検討 | |||||
タイトル | ||||||
言語 | en | |||||
タイトル | Investigation on Effective Ionization Coefficient and Critical Electric Field in Air in Temperature Range of 300–3500K by Solving Boltzmann Equation | |||||
言語 | ||||||
言語 | jpn | |||||
資源タイプ | ||||||
資源タイプ識別子 | http://purl.org/coar/resource_type/c_6501 | |||||
資源タイプ | journal article | |||||
ID登録 | ||||||
ID登録 | 10.24517/00009185 | |||||
ID登録タイプ | JaLC | |||||
著者 |
田中, 康規
× 田中, 康規× 作田, 忠裕× 渋谷, 正豊 |
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著者別表示 |
Tanaka, Yasunori
× Tanaka, Yasunori× Sakuta, Tadahiro× Shibuya, Masatoyo |
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書誌情報 |
IEEJ Transactions on Power and Energy = 電気学会論文誌B(電力・エネルギー部門誌) 巻 123, 号 11, p. 1380-1386, 発行日 2003-01-01 |
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ISSN | ||||||
収録物識別子タイプ | ISSN | |||||
収録物識別子 | 0385-4213 | |||||
NCID | ||||||
収録物識別子タイプ | NCID | |||||
収録物識別子 | AN10136334 | |||||
DOI | ||||||
関連タイプ | isIdenticalTo | |||||
識別子タイプ | DOI | |||||
関連識別子 | 10.1541/ieejpes.123.1380 | |||||
出版者 | ||||||
出版者 | Institute of Electrical Engineers of Japan = 電気学会 | |||||
抄録 | ||||||
内容記述タイプ | Abstract | |||||
内容記述 | The present paper describes a prediction method of the dielectric strength of the air in gas temperature range of 300–3500K. First, the equilibrium composition of the air at gas temperatures of 300–3500K was calculated through Saha and Guldburg-Waage equations. Secondly, the electron energy distribution function (EEDF) was calculated by an adoption of the two-term expansion of Boltzmann equation. Finally, the effective ionization coefficient ᾱ was derived from the EEDF obtained. The critical reduced electric field strength (E/N)cr, which gives zero effective ionization coefficient ᾱ = 0, was obtained at gas temperatures of 300–3500K. The result indicates that (E/N)cr decreases as the gas temperature increases from 1500K to 3500K, which is due mainly to an increase in the mole fraction of NO molecule which has a much lower ionization potential compared with N2 and O2. This calculated result fairly agrees with an experimental one. © 2003, The Institute of Electrical Engineers of Japan. All rights reserved. | |||||
内容記述 | ||||||
内容記述タイプ | Other | |||||
内容記述 | 出版者照会後に全文公開 | |||||
権利 | ||||||
権利情報 | Copyright © Institute of Electrical Engineers of Japan | |||||
著者版フラグ | ||||||
出版タイプ | VoR | |||||
出版タイプResource | http://purl.org/coar/version/c_970fb48d4fbd8a85 | |||||
関連URI | ||||||
識別子タイプ | URI | |||||
関連識別子 | https://www.jstage.jst.go.jp/browse/ieejpes | |||||
関連URI | ||||||
識別子タイプ | URI | |||||
関連識別子 | http://www.iee.jp/ |