A Stochastic Model of an Unsteady Turbulent Diffusion Flame in a Confined Space : 2nd Report, Application to Diesel Combustion
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概要
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Based on the stochastic model developed in the first report, description of the combustion process occurring in a diesel engine has been made. The model has been revised to include several factors such as volume change caused by piston motion, an air purity in the cylinder charge. The results show that the measured pressure-time relations in a direct-injection engine may well be reproduced for a range of operational conditions through a proper selection of two empirical parameters that describe initial segregation of fuel and air and the rate of turbulent mixing. The capability of the model to describe the diesel combustion phenomena is finally suggested by the model prediction carried out for nitric oxide formation. The comparison of the prediction with the experimental data shows that the correlation between predicted and exhaust measured concentration is fairly good.
- 一般社団法人日本機械学会の論文
著者
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Ikegami Makoto
Faculty Of Engineering Kyoto University
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SHIOJI Masahiro
Faculty of Engineering, Kyoto University
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Shioji Masahiro
Faculty Of Engineering Kyoto University
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- Analyses of the Diesel Combustion Process Based on Varying Delay Mechanism : Second Report, Effect of Pilot Injection
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- Formation of Oxides of Nitrogen in a Diesel Engine : In the Case of Swirl Chamber Type
- A Stochastic Model of an Unsteady Turbulent Diffusion Flame in a Confined Space : 1st Report, Formulation of the Model and Its Nature
- A Stochastic Model of an Unsteady Turbulent Diffusion Flame in a Confined Space : 2nd Report, Application to Diesel Combustion
- Measurement of Particulates in Flames by Laser Homodyne Technique
- A Consideration on the Relation between Laminar Burning Velocity and Ignition Delay