Ignition and Combustion Characteristics of Methanol Mixture in a Dual Fuel Diesel Engine(Diesel Engines, Performance and Emissions, Intake Gas Treatment)
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概要
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Methanol was injected into the suction port of each cylinder in an ordinary direct injection diesel engine, and was ignited by a small amount of gas oil as an ignition source. The effects of the equivalence ratio of methanol, the injection amount and the injection timing of gas oil, the intake temperature and the compression ratio on ignition, the maximum burning rate of methanol mixture and the knock limit were investigated experimentally. It is found that the maximum burning rate of methanol is almost independent on the intake temperature until knock onset, then, the burning process of methanol is "flame propagation". As results, a marked improvement in the trade-off between NO_x and smoke was achieved maintaining a high thermal efficiency by a suitable combination between the parameters mentioned above for each engine load further adopting the high EGR rate and the small orifice size nozzle as well.
- 2004-08-02
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 Masahiro
Graduate School of Science & Technology, Nagasaki University
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Tagai Tetsuya
Graduate School of Science & Technology, Nagasaki University
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Sakaguchi Daisaku
Graduate School of Science & Technology, Nagasaki University
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Ishida Masahiro
Graduate School Of Science And Technology Nagasaki University
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Ishida Masahiro
Graduate School Of Science & Technology Nagasaki University
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Sakaguchi Daisaku
Graduate School Of Science And Technology Nagasaki University
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Sakaguchi Daisaku
Graduate School Of Science & Technology Nagasaki University
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Tagai Tetsuya
Graduate School Of Science & Technology Nagasaki University
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Tagai Tetsuya
Division Of Advanced Materials & Energy Graduate School Of Science And Technology Nagasaki Unive
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SAKAGUCHI Daisaku
Nagasaki University
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