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Predicting Exhaust Emissions in a Glow-Assisted DI Methanol Engine Using a Combustion Model Combined with Full Kinetics
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English
Abstract
A numerical model has been developed to predict the formation of NOx and formaldehyde in the combustion and post-combustion zones of a methanol DI engine. For this purpose, a methanol-air mixture model combined with a full kinetics model has been introduced, taking into account 39 species with their 157 related elementary reactions. Through these kinetic simulations, a concept is proposed for optimizing methanol combustion and reducing exhaust emissions.
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Citation
Kusaka, J., Daisho, Y., Kihara, R., and Saito, T., "Predicting Exhaust Emissions in a Glow-Assisted DI Methanol Engine Using a Combustion Model Combined with Full Kinetics," SAE Technical Paper 961935, 1996, https://doi.org/10.4271/961935.Also In
References
- Miller S. et al. 10th International Symposium on Alcohol Fuels Proceedings 1 1993 453
- Stucki, S. et al. 11th International Symposium on Alcohol Fuels Proceedings 2 1996 455
- Kato T. Sano T. Tokai University bulletin 32 1 223
- Daisho Y. Saito T. Trans. of JSAE 7 May 1974 43
- Kee R.J. et al SANDIA REPORT August 1993
- Kee R.J. et al SANDIA REPORT August 1993
- Gear C.W. Numerical initial value problems in ordinary differential equations Prentice-Hall 1971
- Yano T. Ito K. Trans. of JSME 48 4295 1981 962
- Yano T. Ito K. Trans. of JSME 51 464 1983 1312
- Kusaka J. Daisho Y. et al. SAE 941909