CFD Simulation of Stratified Combustion Process in a Direct Injection Spark Ignition Engine
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概要
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A three-dimensional simulation technique for the stratified combustion process in direct injection gasoline engines is developed. The effects of a widely distributed mixture equivalence ratio and a large amount of EGR on laminar flame speed are briefly modeled taking into account only the temperature of the unburned mixture and the flame temperature. The suggested laminar flame speed model is incorporated into a CFD code in combination with the coherent flame model. In burned gas, chemical equilibrium depending on the local equivalence ratio is assumed so that the post flame reaction upon mixing rich burned gas and lean burned gas or fresh air can be simply modeled as a change of the equilibrium. The calculated flame propagation process, heat release rate and exhaust emissions are confirmed by the results of measurements including the LIF technique. The good agreements obtained under various conditions indicate the applicability of this method.
- 2003-05-15
著者
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Koike Makoto
Research Domain 11 Toyota Central R&d Labs. Inc.
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Nomura Yoshihiro
Research-domain 11 Toyota Central R&d Labs. Inc.
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Tomoda Terutoshi
Higashifuji Technical Center Toyota Motor Corp.
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MIYAGAWA Hiroshi
Research Domain 11, Toyota Central R&D Labs. Inc.
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Miyagawa Hiroshi
Research Domain 11 Toyota Central R&d Labs. Inc.
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Nomura Yoshihiro
Research Domain 11 Toyota Central R&d Labs. Inc.
関連論文
- CFD Simulation of Stratified Combustion Process in a Direct Injection Spark Ignition Engine
- Numerical Analysis of Mixture Formation of a Direct Injection Gasoline Engine(Recent Combustion Technology in Internal Combustion Engines)
- Numerical Analysis of Mixture Formation of a Direct Injection Gasoline Engine
- (2-02) Numerical Analysis of Mixture Formation of a Direct Injection Gasoline Engine((SI-1)S. I. Engine Combustion 1-Direct Injection Engines)