Diesel Combustion Analysis Based on Two-Zone Model : Examination of Excess Air Ratio in Burned Zone
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概要
- 論文の詳細を見る
The burned zone excess air ratio λ_d in the diffusion combustion process was analyzed using the two-zone model, and it was compared with the excess air ratio λ_f estimated using a steady diffusion flame model of the fuel spray. It is found that λ_d is dependent on the fuel spray penetration and ignition delay. If the premixed combustion fraction is less than 50%, the NO formation is minimally influenced by the excess air ratio during premixed combustion and is dependent on the excess air ratio λ_d which determines the maximum temperature during diffusion combustion. It is clarified by analysis of the two-zone model that the large reduction in NO_x due to timing retard is mainly caused by decreases in both combustion temperature and combustion pressure, and the small reduction in NO_x occurring when the nozzle-hole diameter is decreased, is due to a small decrease in combustion pressure resulting from a decrease in the heat release rate during premixed combustion.
- 一般社団法人日本機械学会の論文
- 1996-08-15
著者
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Ueki Hironobu
Graduate School Of Science And Technology Nagasaki University
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Ueki H
Faculty Of Engineering Nagasaki University
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Ueki Hironobu
Graduate School Of Science & Technology Nagasaki University
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Ishida M
Faculty Of Engineering Nagasaki University
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ISHIDA Masahiro
Faculty of Engineering, Nagasaki University
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UEKI Hironobu
Faculty of Engineering, Nagasaki University
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MATSUMURA Noboru
Mantech Co. Ltd.
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CHEN Zhi-Li
Graduate School of Marine Science and Engineering, Ngasaki University
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Chen Zhi-li
Graduate School Of Marine Science And Engineering Ngasaki University
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Ishida Masahiro
Faculty Of Engineering Nagasaki University
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