Authors: Fridhi Hadia, Soua Wadhah, Hidouri Ammar, Omri Ahmed

Abstract:

In order to understand the auto-ignition process in a HCCI engine better, the influence of some important parameters on the auto-ignition is investigated. The inlet temperature, the inlet pressure, and the compression ratio were varied and their influence on the ignition delays and emission characteristics were studied. The inlet temperature was changed from 400 K to 460 K (in step of 15 K), the inlet pressure from 0.9 to 3 atm, while the compression ratio varied from 15 to 23. The fuel that was investigated is isooctane. The inlet temperature, the inlet pressure, and the compression ratio appeared to decrease the ignition delays, with the inlet pressure having the least influence and the compression ratio the most. The effect of these parameters on emissions’ characteristics were also investigated. Results indicate that increasing the compression ratio results in increasing the concentration of all the species.

Keywords: Compression Ratio, intake temperature, intake pressure, HCCI engine, isooctane.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1124127

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References:

[1] W. Ying, H. Li, Z. Jie, and Z. Longbao. “Study of HCCI-DI combustion and emissions in a DME engine,” Fuel, vol. 88, no 11, pp. 2255-2261, 2009.
[2] M. Fathi, R. K. Saray and M. D. Checkel. “The influence of Exhaust Gas Recirculation (EGR) on combustion and emissions of n-heptane/natural gas fueled Homogeneous Charge Compression Ignition (HCCI) engines,” Applied Energy, vol. 88, no 12, pp. 4719-4724, 2011.
[3] J. Jang, Y. Lee, C. Cho, Y. Woo and C. Bae. “Improvement of DME HCCI engine combustion by direct injection and EGR,” Fuel, vol. 113, pp. 617-624, 2013.
[4] F. Foucher, P. Higelin, C. Mounaїm-Rousselle and P. Dagaut. “Influence of Ozone on the Combustion of n-Heptane in a HCCI Engine,” Proceedings of the Combustion Institute, vol. 34, no 2, pp. 3005-3012, 2013.
[5] H. S. Yücesu, T. Topgül, C. Cinar, and M. Okur. “Effect of ethanol–gasoline blends on engine performance and exhaust emissions in different compression ratios,” Applied Thermal Engineering, vol. 26, no 17, pp. 2272-2278, 2006.
[6] R. C. Costa, and J. R. Sodré. “Compression ratio effects on an ethanol/gasoline fuelled engine performance,” Applied Thermal Engineering, vol. 31, no 2, pp. 278-283, 2011.
[7] P. M. Najt and D. E. Foster, “Compression-ignited homogeneous charge combustion,” SAE Technical paper, 1983.
[8] N. Iida and T. Igarashi, “Auto-ignition and combustion of n-butane and DME/air mixtures in a homogeneous charge compression ignition engine,” SAE Technical Paper, 2000.
[9] C. Sayin and M. Gumus. “Impact of compression ratio and injection parameters on the performance and emissions of a DI diesel engine fueled with biodiesel-blended diesel fuel,” Applied thermal engineering, vol. 31, no 16, pp. 3182-3188, 2011.
[10] S. S. Karhale, R. G. Nadre, D. K. Das and S. K. Dash. “Studies on comparative performance of a compression ignition engine with different blends of biodiesel and diesel under varying operating conditions,” Karnataka Journal of Agricultural Sciences, vol. 21, no 2, 2010.
[11] S. Puhan, R. Jegan, K. Balasubbramanian and G. Nagarajan. “Effect of injection pressure on performance, emission and combustion characteristics of high linolenic linseed oil methyl ester in a DI diesel engine,” Renewable Energy, vol. 34, no 5, pp. 1227-1233, 2009.
[12] J. B. Heywood. “Internal combustion engine fundamentals,” New York: McGraw-Hill, 1988.
[13] G. Woschni. “A universally applicable equation for the instantaneous heat transfer coefficient in the internal combustion engine,” SAE Technical paper, 1967.
[14] M. Yanbin. “HCCI Heat Release Rate and Combustion Efficiency: A Couple KIVA Multi-Zone Modeling Study,” ProQuest, 2008.
[15] E. A. Ajav, B. Singh and T. K. Bhattacharya. “Performance of a stationary diesel engine using vapourized ethanol as supplementary fuel,” Biomass and Bioenergy, vol. 15, no 6, pp. 493-502, 1998.
[16] T. D'Andrea, P. F. Henshaw and D. K. Ting. “The addition of hydrogen to a gasoline-fuelled SI engine,” International Journal of Hydrogen Energy, vol. 29, no 14, pp. 1541-1552, 2004.
[17] B. Challen and R. Baranescu, “Diesel engine reference book,” McFarland, 1999.