A study on the effects of compression ratio, engine speed and equivalence ratio on HCCI combustion of DME

Authors

• Troels Dyhr Pedersen - Technical University of Denmark
• Jesper Schramm - Technical University of Denmark

Topic

• Dimethyl ether (DME)
• Combustion and combustion processes
• HCCI engines

Citation

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References

1. Zheng Zunqing Shi Chuntao Yao Mingfa Experimental study on Dimethyl Ether Combustion Process in Homogeneous Charge Compression Ignition Mode Transactions of Tianjin University 10 4 Dec. 2004
2. Tiegang Hu Shenghua Liu Longbao Zhou Chi Zhu Combustion and emission characteristics of a homogeneous charge compression ignition engine Proceedings of the Institution of Mechanical Engineers, journal of Automobile engineering 219 1133 1139 2005
3. Tiegang Hu Shenghua Liu Longbao Zhou Wei Li Effects of compression ratio on performance, combustion, and emission characteristics on an HCCI engine Proceedings of the Institution of Mechanical Engineers, Journal of Automobile engineering 220 637 645 2006
4. Hamada Keisuke Niijima Shun Yoshida Kazunori Yoshida Koji Shoji Hideo Shimada Kazuto Shibano Kenji The effects of the Compression Ratio, Equivalence Ratio, And Intake Air Temperature on Ignition Timing in an HCCI Engine using DME Fuel SAE paper 2005-32-002
5. Ikemoto Masato Kojima Yuichiro Lida Norimasa Development of the Control System using EGR for the HCCI Engine running on DME SAE paper 2005-32-0062
6. Ohmura Tetsuo Ikemoto Masato Lida Norimasa A Study on Combustion Control by using Internal and External EGR for HCCI Engines Fuelled with DME SAE paper 2006-32-0045
7. Yamada Hiroyuki Yoshii Masataka Tezaki Atsumu Chemical mechanistic analysis of additive effects in homogeneous charge compression ignition of dimethyl ether Proceedings of the Combustion Institute 30 2 2773 2780 2004
8. Ogawa Hideyuki Miyamoto Noboru Kaneko Naoya Ando Hirokazu Combustion Control and Operating Range Expansion with Direct Injection of Reaction Suppressors in a Premixed DME HCCI Engine SAE paper 2003-01-0746
9. Zheng Zunqing Yao Mingfa Chen Zheng Zhang Bo Experimental Study on HCCI Combustion of Dimethyl Ether (DME) /Methanol Dual Fuel SAE paper 2004-01-2993
10. Yao Mingfa Zheng Zunqing Qin Jin Experimental Study on Homogeneous Charge Compression Ignition Combustion With Fuel of Dimethyl Ether and Natural Gas Transactions of ASME 128 414 420 2006
11. Sato Susumu Jun Daesu Kweon Soonpyo Yamashita Daisuke Lida Norimasa Basic Research on the Suitable Fuel for HCCI Engine from the Viewpoint of Chemical Reaction SAE paper 2005-01-0149
12. Shudo T. Ono Y. Takahashi T. Ignition Control by DME-Reformed Gas in HCCI combustion of DME SAE paper 2003-01-1824
13. Yao Mingfa Qin Jin Zheng Zunqing Numerical study of the combustion mechanism of a homogenous charge compression ignition engine fuelled with dimethyl ether and methane, with a detailed kinetics model. Part 1: the raction kinetics of dimethyl ether Proceedings of the Institution of Mechanical Engineers, journal of Automobile engineering 219 1213 1223 2005
14. Vressner Andreas Lundin Andreas Christensen Magnus Tunestal Per Johansen Bengt Pressure Oscillations During Rapid Hcci Combustion SAE paper 2003-01-3217
15. Tsurushima Tadashi Asaumi Yasuo Aoyagi Yuzo The Effect of Knock on Heat Loss in Homogeneous Charge Compression Ignition Engines SAE paper 2002-01-0108
16. Schramm Jesper Sorensen Spencer C. A Model for Hydrocarbon Emissions from SI Engines SAE paper 902169
17. Lida M. Aroonsrisopon T. Hayashi M. Foster D. Martin J. The Effect of Intake Air Temperature, Compression Ratio and Coolant Temperature on the Start of Heat Release in An HCCI (Homogeneous Charge Compression Ignition) Engine SAE paper 2001-01-1880

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