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Numerical modeling of spark ignition and flame initiation in a quiescent methane-air mixture

Conference · · Combustion and Flame; (United States)
OSTI ID:6571139
;  [1]
  1. Ben-Gurion Univ. of the Negev, Beer-Sheva (Israel). Pearlstone Center for Aeronautical Engineering Studies
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The initiation of a spark kernel and the subsequent propagation of a self-sustained flame in an internal combustion engine have been investigated numerically. A theoretical model which employs a two-dimensional cylindrical coordinate system and assumes axial symmetry has been developed. It considers the various physical and chemical phenomena associated with the ignition process and employs a detailed chemical reaction scheme for a methane-air mixture which contains 29 chemical species and 97 reaction steps. The thermodynamics and transport properties of the plasma at high temperatures are evaluated by a statistical thermodynamics approach while assuming local thermodynamic equilibrium. Using the PHOENICS and the CHEMKIN codes, the appropriate conservation equations are solved in the domain of solution. It was concluded that the kernel growth can be described as a two-step process. In the early short stage (1--5 [mu]s) the mass and energy transfer processes are very much dominated by the pressure wave and the violently expanding plasma kernel, while the contribution of the chemical reactions is negligible. This stage is followed by a much longer period in which diffusion and thermal conduction control mass and energy transfer as the flame becomes gradually self-sustained. Owing to the heat release by chemical reactions, the expansion of the combustible mixture is accelerated at the beginning of the diffusive stage.

OSTI ID:
6571139
Report Number(s):
CONF-940711--
Journal Information:
Combustion and Flame; (United States), Journal Name: Combustion and Flame; (United States) Vol. 99:3-4; ISSN CBFMAO; ISSN 0010-2180
Country of Publication:
United States
Language:
English

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Related Subjects

03 NATURAL GAS
034000* -- Natural Gas-- Combustion
33 ADVANCED PROPULSION SYSTEMS
330101 -- Internal Combustion Engines-- Spark-Ignition
330800 -- Emission Control-- Alternative Fuels
ALKANES
C CODES
CHEMICAL REACTION KINETICS
COMBUSTION KINETICS
COMBUSTION WAVES
COMPUTER CODES
ENERGY TRANSFER
ENGINES
FLAME PROPAGATION
HEAT ENGINES
HEAT TRANSFER
HYDROCARBONS
IGNITION
INTERNAL COMBUSTION ENGINES
KINETICS
MASS TRANSFER
MATHEMATICAL MODELS
METHANE
ORGANIC COMPOUNDS
P CODES
REACTION KINETICS
SPARK IGNITION ENGINES
TWO-DIMENSIONAL CALCULATIONS