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Numerical Simulation of Auto-Ignition and Combustion of n-Butane and Air Mixtures in a 4 Stroke HCCI Engine by Using Elementary Reactions
Technical Paper
2000-01-1834
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
HCCI (Homogeneous Charge Compression Ignition) engine is expected to a new engine to be high efficiency and low emission. But it is difficult to control ignition timing and combustion duration, because ignition and combustion mainly depend on oxidation process of fuel. In this study, the focus is to clear the combustion mechanism of auto-ignition engine. By calculating chemical kinetics of elementary reactions, effects of compression speed, equivalence ratio, initial temperature and compression ratio on auto-ignition were investigated. And also, behaviors of chemical species under auto-ignition process were cleared.
Authors
Citation
Yamasaki, Y. and Iida, N., "Numerical Simulation of Auto-Ignition and Combustion of n-Butane and Air Mixtures in a 4 Stroke HCCI Engine by Using Elementary Reactions," SAE Technical Paper 2000-01-1834, 2000, https://doi.org/10.4271/2000-01-1834.Also In
References
- Najt. P.M. Foster, D.E. “Compression-Ignited Homogeneous Charge Combustion” SAE paper 830264 1983
- Thring. R.H. “Homogeneous Charge Compression-Ignition (HCCI) Engines” SAE Paper 892068 1989
- Igarashi T Iida N. “Auto Ignition and Combustion of DME and n-Butane / Air Mixtures in Homogeneous Charge Compression Ignition Engine” Proceedings of Japan Society of Mechanical Engineers (JSME) 64-618 B 279 186 1998
- Takahashi K Ohta Y Low Temperature Flame (1) Internal Combustion 22-13 41 46 1983
- Chevalier C. Iouessard P. Muller U.C. Warnatz J. A Detailed Low-Temperature Reaction Mechanism of n-Heptane Auto Ignition International Symposium COMODIA 90 93 97 1990
- Takatsuto R. Igarashi Tetsuya Iida Norimasa Auto Ignition and Combustion of DME and n-Butane / Air Mixtures in Homogeneous Charge Compression Ignition Engine The Fourth International Symposium COMODIA 98 (Diagnostics and Modeling of Combustion in Internal Combustion Engines) July 20-23 Kyoto 185 190 1998
- Kee Robert.J. Rupley Fran M. Meeks Ellen Miller James A. A Fortran Chemical Kinetics Package for The Analysis of Gasphase Chemical and Plasma Kinetics Sandia National Laboratories 1996
- Luz Andrew E. Kee Robert J. Miller James A. “SENKIN: A FORTRAN Program for Predicting Homogeneous Gas Phase Chemical Kinetics With Sensitivity Analysis” Sandia National Laboratories Report 1988
- Warth V. Stef N. Glaude P.A. Battin-Leclerc F. Scacchi G. Come G.M. “Computer-Aided Derivation of Gas-Phase Oxidation Mechanisms: Application to the Modeling of the Oxidation of n-Butane” Combustion and Flame 114 81 102 1998
- Kojima S. “Detailed Modeling of n-Butane Autoignition Chemistry” COMBUSTION AND FLAME 99 87 136 1994
- Ciezki H.K. Adomeit G. “Shock-Tube Investigation of Self-Ignition of n-Heptane-Air Mixtures Under Engine Relevant Conditions” Combustion and Flame 93 421 433 1993
- Pfahl, U. Fieweger, K Adomeit, G “Self-Ignition of Diesel-Relevant Hydrocarbon-Air-Mixtures Under Engine Conditions” Twenty-Sixth Symposium (international) on Combustion The Combustion Institute Pittsburgh 781 189 1996
- Burcat Alexander Scheller Karl Lifshitz Assa “Shock-Tube Investigation of Comparative Ignition Delay Times for C1-C5 Alkanes” Combustion and Flame 16 29 33 1971
- Minetti R. Ribaucour M. Carlier M. Fittschen C. Sochet L. R. “Experimental and Modeling Study of Oxidation and Autoignition of Butane at High Pressure” COMBUSTION AND FLAME 96 201 211 1994
- Glassman I. Combustion 2nd Academic Press SanDiego, California 37 57 1987