Basic Research on the Suitable Fuel for HCCI Engine From the Viewpoint of Chemical Reaction

Authors

• Susumu Sato - Keio University
• Daesu Jun - Keio University
• Soonpyo Kweon - Keio University
• Daisuke Yamashita - Keio University
• Norimasa Iida - Keio University

Topic

• HCCI engines
• Dimethyl ether (DME)
• Methane
• Combustion and combustion processes
• Hydrogen fuel
• Knock
• Research and development

Citation

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References

1. Onishi S. Hong S. Shoda K. Jo P. D. Kato S. “Active Thermo-Atmosphere Combustion (ATAC)-A New Combustion Process for Internal Combustion Engines” SAE paper 790501 1979
2. Thring R. H. “Homogeneous Charge Compression Ignition (HCCI) Engines” SAE paper 892068 1989
3. Ishibashi Y. “Basic Understanding of Activated Radical Combustion and its Two-Stroke Engine Application and Benefits” SAE paper 2000-01-1836 2000
4. Tsurushima T. Shimazaki N. Asaumi Y. Aoyagi Y. “An Experimental Study on Ignition Processes of Premixed Compression Ignition Engine using In-cylinder Gas Sampling Method” 16th ICE Symposium 133 138 2000
5. Kee R. J. Rupley F. M. Miller J. A. “CHEMKIN-II: A FORTRAN Chemical Kinetics Package for the Analysis of Gas-Phase Chemical Kinetics” Sandia National Laboratories Report 1989
6. Luz A. E. Kee R. J. Miller J. A. “SENKIN: A FORTRAN Program for Predicting Homogeneous Gas Phase Chemical Kinetics With Sensitivity Analysis” Sandia National Laboratories Report 1988
7. Kojima S. “Detailed Modeling of n-Butane Autoignition Chemistry” COMBUSTION AND FLAME 99 87 136 1994
8. Yamasaki Y. Iida N. “Numerical Analysis of Auto Ignition and Combustion of n-Butane Air Mixture in the Homogeneous Charge Compression Ignition Engine by Using Elementary Reactions” SAE paper 2003-01-1090 2003
9. Curran H. J. Pitz W. J. Westbrook C. K. Dagaut P. Boettner J-C Cathonnet M. “A Wide Range Modeling Study of Dimethyl Ether Oxidation” International Journal Chemical Kinetics 30-3 229 241 2000
10. Saijo K. Kojima T. Nishiwaki K. Yoshihara Y. “Numerical Prediction Method for the Combustion Process in a Homogeneous Charge Compression Ignition Engine” JSME annual conference 3 133 134 2003
11. Kumano K. Iida N. “Analysis of the Effect of Charge Inhomogeneity on HCCI Combustion by Chemiluminescence Measurement” SAE Paper, 2004-01-1902 2004
12. Zheng J. Miller D. Cernansky N.P. Liu D. Zhang M. “The Effect of Active Species in Internal EGR on Preignition Reactivity and on Reducing UHC and CO Emissions in Homogeneous Charge Engines” SAE Paper, 2003-01-1831 2003
13. Osborne R. J. Li G. Sapaford S. M. Lake T. H. Heikal M. R. “Evaluation of HCCI for Future Gasoline Powertrains” SAE Paper, 2003-01-0750 2003
14. Koopmans L. Storms H. Lundgren S. Backlund O. Denbratt I. “Demonstrating a SI-HCCI-SI Mode Change on a Volvo 5-Cylinder Electronic Valve Control Engine” SAE Paper, 2003-01-0753 2003
15. Chen R. Milovanovic N. Turner J. Blundell D. “The Thermal Effect of Internal Exhaust Gas Recirculation on Controlled Auto Ignition” SAE Paper, 2003-01-0751 2003
16. Urushihara T. Hiraya K. Kakuhou A. Itoh T. “Expansion of HCCI Operating Region by the Combination of Direct Fuel Injection, Negative Valve Overlap and Internal Fuel Reformation” SAE Paper, 2003-01-0749 2003
17. Ryan T. W. III Mehta D. Callahan T. J. “HCCI: Fuel and Engine Interaction” IFP International Conference 59 67 2004
18. Olsson J-O Tunestal P. Johansson B. Fiveland S. Agama R. Willi M. Assanis D. “Compression Ratio Influence on Maximum Load of a Natural Gas Fueled HCCI Engine” SAE Paper, 2002-01-0111 2002
19. Hiltner J. Fiveland S. Agama R. Willi M. “System Efficiency Issues for Natural Gas Fueled HCCI Engines in Heavy-Duty Stationary Applications” SAE Paper, 2002-01-0417 2002
20. Jun D. Iida N. “A Study of High Combustion Efficiency and Low CO Emission in a Natural Gas HCCI Engine” SAE Paper, 2004-01-1974 2004
21. Ogawa H. Miyamoto N. Kaneko N. Ando H. “Combustion Control and Operating Range Expansion with Direct Injection of Reaction Suppressors in a Premixed DME HCCI Engine” SAE Paper, 2003-01-0746 2003
22. Sato S. Iida N. “Analysis of DME Homogeneous Charge Compression Ignition Combustion” SAE Paper, 2003-01-1825 (JSAE 20030236) 2003
23. Sakanashi H. Yamauchi M. Inada Y. Choi N. Tezaki A. “Laser-Induced Fluorescence Measurements of Formaldehyde in Homogeneous Charge Compression Ignition (HCCI) of Dimethyl Ether” Transactions of the Japan Society of Mechanical Engineers B 70 690 503 510 2004
24. Shibata G. Oyama K. Urushihara T. Nakano T. “The Effect of Fuel Properties on HCCI Engine Combustion Characteristics and Performances” IFP International Conference 45 58 2004
25. Xu H. M. Wilson T. Richardson S. Wyszynski M. L. Megaritis T. Yap D. Golunski S. James D. “Extension of the Boundary of HCCI Combustion Using Fuel Reforming Technology” JSAE Annual Congress Proceedings 60-04 23 26 2004
26. Sato S. Yamasaki Y. Kawamura H. Iida N. “Research on the Influence on Natural Gas HCCI Combustion of Hydrogen and Carbon Monoxide” COMODIA 2004 Proceedings 247 254 2004
27. Shudo T. Ono Y. Takahashi T. “Ignition Control by DME-Reformed Gas in HCCI Combustion of DME” SAE Paper, 2003-01-1824 2003
28. Konno M. Chen Z. Kashiwagi D. “Compression Ignition Mechanisms of Methane/DME Composite Fuel” Mechanical Engineering Congress, 2003 Japan (MECJ-03) 3 119 120 2003
29. Frenklash M. Goldenberg M. Moriarty N. Bowman C. T. Davidson D. F. Gardiner W. C. Jr. Smith G. P. Golden D. M. Serauskas R. V. “Optimized Kinetics Mechnism and Calculator for Natural Gas Combustion, NOx Production and Reburing (GRI-Mech 3.0)” International Gas Research Conference 5 329 335 1998 http://www.me.berkeley.edu/gri_mech/
30. Amano T. Morimoto S. Kawabata Y. “Modeling of the Effect of Air/Fuel Ratio and Temperature Distribution on HCCI Engines” SAE Paper, 2001-01-1024 2001
31. Kweon S. Yamashita D. Iida N. “Improving the Maximum IMEP of Knocking Limit on Homogeneous Charge Compression Ignition Engine Using 2 Component Mixing Fuels” JSAE Annual Autumn Congress Proceedings 105-04 17 22 2004

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