The initial size and growth of the plasma and flame kernel just after spark discharge in S.I. engines determines if the flame becomes self-sustainable or extinguishes. On the other hand, the development of the kernel during the initial phases has non-negligible influences on the further combustion. For example, cyclic variations often find their origin in the beginning of combustion and determine the working limits of the engine and the driving behavior of the vehicle. These factors demonstrate the crucial importance of the knowledge of the initial growth of the plasma and flame kernel in S.I. engines. A complete model is developed for the growth of the initial plasma and flame kernel in S.I. engines, which takes into account the fundamental properties of the ignition system (electrical energy and power, geometry of the spark plug, heat losses to the electrodes and the cylinder wall), the combustible mixture (pressure, temperature, equivalence ratio, fraction of residual gasses, kind of fuel), and the flow (average flow velocity, turbulence intensity, stretch, characteristic time and length scales). The proposed model distinguishes three phases: the pre-breakdown, the plasma, and the initial combustion phase. The model of the first two phases is proposed in a previous article of the same authors [1], the latter is exposed in this article. A thermodynamic model based on flamelet models and which takes stretch into account, is used to describe the initial combustion phase. The difference between heat losses to the electrodes and the cylinder wall is considered. The burning velocity varies from the order of the laminar velocity to the fully developed burning velocity. The evolution is determined as well by the life time as by the size of the kernel. The stretch (caused by turbulence and by the growth of the kernel), the nonadiabatic character of the flame, and instabilities have influence on the laminar burning velocity. Validation of this model is done using measurements of the expansion in a propane-air mixture executed by Pischinger [2] at M.I.T. The agreement seems very good.
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e-mail: Hilde.Willems@hogent.be
e-mail: Roger.Sierens@rug.ac.be
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April 2003
Technical Papers
Modeling the Initial Growth of the Plasma and Flame Kernel in SI Engines
H. Willems,
e-mail: Hilde.Willems@hogent.be
H. Willems
Laboratory of Transporttechnology, Ghent University, Sint-Pietersnieuwstraat 41, B-9000 Ghent, Belgium
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R. Sierens
e-mail: Roger.Sierens@rug.ac.be
R. Sierens
Laboratory of Transporttechnology, Ghent University, Sint-Pietersnieuwstraat 41, B-9000 Ghent, Belgium
Search for other works by this author on:
H. Willems
Laboratory of Transporttechnology, Ghent University, Sint-Pietersnieuwstraat 41, B-9000 Ghent, Belgium
e-mail: Hilde.Willems@hogent.be
R. Sierens
Laboratory of Transporttechnology, Ghent University, Sint-Pietersnieuwstraat 41, B-9000 Ghent, Belgium
e-mail: Roger.Sierens@rug.ac.be
Contributed by the Internal Combustion Engine Division of THE AMERICAN SOCIETY OF MECHANICAL ENGINEERS for publication in the ASME JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER. Manuscript received by the ICE Division May 2001; final revision received by the ASME Headquarters Feb. 2002. Associate Editor: D. Assanis.
J. Eng. Gas Turbines Power. Apr 2003, 125(2): 479-484 (6 pages)
Published Online: April 29, 2003
Article history
Received:
May 1, 2001
Revised:
February 1, 2002
Online:
April 29, 2003
Citation
Willems, H., and Sierens, R. (April 29, 2003). "Modeling the Initial Growth of the Plasma and Flame Kernel in SI Engines ." ASME. J. Eng. Gas Turbines Power. April 2003; 125(2): 479–484. https://doi.org/10.1115/1.1501912
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