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A New Soot Emission Model for Diesel Methanol Dual Fuel Engine

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Abstract:

The modified Hiroyasu soot model is widely used to describe the soot emission from diesel engine, but diesel methanol dual fuel engine is different from diesel one. In order to obtain quantitative comparisons with experiments, a new soot emission model was presented, which was formulated to incorporate the effects of both chemical kinetics and turbulent mixing. The model was applied to simulate soot emission from diesel methanol dual fuel engine. The calculating results indicate that the predicted soot emission from the new model agrees well with the measured data.

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Periodical:

Advanced Materials Research (Volumes 655-657)

Pages:

94-97

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.655-657.94

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Cite this paper

Online since:

January 2013

Authors:

Hong Fu Wang, Jun Hua Xiong

Keywords:

Combustion, Diesel Methanol Dual Fuel Engine, Numerical Simulation, Soot Emissions

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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References

[1] Chunde Yao, C.S. Cheung, Chuanhui Cheng, Yinshan Wang, Energy and Fuels. 21(2007)686-691.

Google Scholar

[2] Feng Tao, Valeri I.Golovitchev, Jerzy Chomiak, Combust. Flame. 136(2004)270-282

Google Scholar

[3] A.Fusco, A.L. Knox-Kelecy, D.E. Foster, COMODIA1994, pp.571-576.

Google Scholar

[4] Andrei Kazakov, David E.Foster, Soc. Auto. Eng. SAE 982463(1998).

Google Scholar

[5] Hiroyasu H, Kadota T, Arai M, JSME 26(1983)569-575

Google Scholar

[6] Zhiyu Han, Ali Uludogan, Gregory J. Hampson, Rolf D. Reitz, Soc. Auto. Eng. SAE 960633(1996).

Google Scholar

[7] Richards, K.J., Subramaniam, M.N., Reitz, R.D., Lai M. C., Henein, N.A., Soc. Auto. Eng. SAE 2001-01-1004(2001).

Google Scholar

[8] Zhu, Y., Zhao, H., Melas, D.A., Ladommatos, N., Soc. Auto. Eng. SAE 2004-01-0118(2004).

Google Scholar

[9] Chunde Yao, Hongfu Wang, Jinou Song, Journal of Tianjin University 41(3)(2008) 271-275(In Chinese).

Google Scholar

[10] Timothy J.held, Frederick L.dryer, Int. J. Chem. Kinet. 30(1998)805-830.

Google Scholar

[11] Egolfopoulos F N, Du D x, Law C K, Combust. Sci. Technol. 83(1992)33-75.

Google Scholar

[12] Egolfopoulos F N, Du D x, Law C K, Proc. Combust. Inst. 24(1992), pp.833-841.

Google Scholar

[13] C.Y. Choi, R.D. Reitz, Fuel 78 (1999) 1303-1317.

Google Scholar

[14] Frenklach M. Final Technical Report to NASA-Lewis Research Center, (25) (1985)

Google Scholar

[15] Neoh, K.G, Howard, J.B, Sarofim, A.F, Proc. Combust. Inst. 20(1984) 951-957.

Google Scholar

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