Quantitative Analysis of Mixture Preparation Processes in New Direct-Injection Spark Ignition Engines(<Special Issue>Advanced Combustion Technology in Internal Combustion Engines)
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概要
- 論文の詳細を見る
Visualization plays an effective role in the establishment of a new combustion concept by helping to find the optimal results quickly among many different parameters and contributing to a shorter development period. Laser-induced fluorescence, Raman scattering and infrared absorption were used to measure the air/fuel ratio quantitatively in a third-generation direct-injection gasoline (DIG) engine with a spray-guided mixture formation process and comparisons were made with the mixture formation concepts of the first-and second-generation DIG engines. The optimum combination of fuel spray, gas flow and combustion chamber configuration was found to be different for the three generations of DIG engines. The characteristics of the stable combustion region for obtaining higher thermal efficiency and cleaner exhaust emissions differed among the three mixture formation concepts.
- 一般社団法人日本機械学会の論文
- 2005-11-15
著者
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Hiraya Koji
Technology Research Laboratory No.3 Nissan Research Center Nissan Motor Co. Ltd.
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ITOH Teruyuki
Technology Research Laboratory No.3, Nissan Research Center, Nissan Motor Co., Ltd.
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KAKUHO Akihiko
Technology Research Laboratory No.3, Nissan Research Center, Nissan Motor Co., Ltd.
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TAKAHASHI Eiji
Technology Research Laboratory No.3, Nissan Research Center, Nissan Motor Co., Ltd.
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URUSHIHARA Tomonori
Technology Research Laboratory No.3, Nissan Research Center, Nissan Motor Co., Ltd.
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Takahashi Eiji
Technology Research Laboratory No.3 Nissan Research Center Nissan Motor Co. Ltd.
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Itoh Teruyuki
Power Source Laboratory No. 3 Nissan Research Center Nissan Motor Co. Ltd
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Kakuho Akihiko
Power Source Laboratory No. 3 Nissan Research Center Nissan Motor Co. Ltd
関連論文
- Quantitative Analysis of Mixture Preparation Processes in New Direct-Injection Spark Ignition Engines(Advanced Combustion Technology in Internal Combustion Engines)
- Quantitative Analysis of Mixture Preparation Processes in New Direct-Injection Spark Ignition Engines(S.I. Engines, Stratified-Charge Combustion)
- LIF Analysis of Mixture Formation in a DISI Engine with a Centrally Located Injector
- Development of a technique for quantifying in-cylinder A/F ratio distribution using LIF image processing