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Effect of a Heated Electrode On Lean Propane-Air Flame Development
Technical Paper
2001-24-0043
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
In previous studies, we have shown that even if local conditions and coil charge seem remaining constant, electrical energy deposit by a spark plug was never the same. In fact, its mean and variations depend on local conditions in the vicinity of the plug, and may be linked to phenomena during the breakdown. In this paper, we will focus on spark plug temperature effects, both on the electrical energy deposit and on the early flame kernel development for propane-air lean mixtures in closed vessel.
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Authors
- S. Garnier - Laboratoire de Mécanique et Energétique, University of Orléans
- E. Depussay - Laboratoire de Mécanique et Energétique, University of Orléans
- C. Mounaïm-Rousselle - Laboratoire de Mécanique et Energétique, University of Orléans
- S. Burnel - Laboratoire de Mécanique et Energétique, University of Orléans
- N. Lamoureux - Laboratoire de Combustion et des Systèmes Réactifs, CNRS of Orléans
- N. Djebaïli-Chaumeix - Laboratoire de Combustion et des Systèmes Réactifs, CNRS of Orléans
- X. Jaffrezic - Direction de la Recherche, Renault SA
- A. Agneray - Direction de la Recherche, Renault SA
Citation
Garnier, S., Depussay, E., Mounaïm-Rousselle, C., Burnel, S. et al., "Effect of a Heated Electrode On Lean Propane-Air Flame Development," SAE Technical Paper 2001-24-0043, 2001, https://doi.org/10.4271/2001-24-0043.Also In
References
- Pajot O. “Experimental study of the effect of the aerodynamics on flame behavior and structure in SI-Engine” University of Orléans 2000
- Pajot O. Mounaïm-Rousselle C. “Instantaneous flow field effects on the flame kernel in SI-Engine by simultaneous optical diagnostics” SAE Paper 2000-01-1796
- Garnier S. et al. “Analyse d’un arc électrique en écoulement turbulent pressurisé (Analysis of an electrical arc in a turbulent pressurized flow)” Congrès de la Société Française de Thermique 2001
- Pischinger S. Heywood J.B. “How heat losses to the spark plug electrodes affect flame kernel development in an SI-Engine” SAE Paper 900021
- Raizer P. “Gas discharge physics” Springer 1997
- Chiriac R. Radu R. Apostolescu N. “A study of ignition discharge parameters effects on homogeneous mixtures in engine” SAE Paper 2001-01-1953
- Glassman I Combustion 3ed 1996
- Tseng L.K. Ismail M.A. Faeth G.M. “Laminar burning velocities and Markstein numbers of hydrocarbon/air flames” Combustion and Flame 95 410 426 1993
- Franke A. “Diagnostics of electrical phenomena in gases for the monitoring of spark-ignited combustion” University of Lund 2000
- Eschenbarch R.C. Agnew J.T. “Use of the constant volume bomb technique for measuring burning velocity” Combustion and Flame 2 273 285 1958
- Gatowski J.A. Heywood J.B. Delaplace C. “Flame photographs in a spark-ignition engine” Combustion and Flame 56 71 81 1984
- Metgohalchi M. Keck J.C. “Laminar burning velocity of propane-air mixtures at high temperature pressure” Combustion and Flame 38 143 154 1980
- Law C.K. “Dynamics of stretched flames” Twenty-second symposium (International) on Combustion 1381 1402 1988
- Kee R.J. Lutz A.E. Rupley F.M. Sandia National Laboratories Livermore 1993
- Reynolds W.C. “The elemental potential method for chemical equilibrium analysis : implementation in the interactive program STANJAN version 3” Department of Mechanical Engineering, Stantford University January 1986