Combustion model for a spark-ignited lean hydrocarbon-air mixture near misfire.
En cours de chargement...
Fichiers
Date
Authors
Craig, Angus G.
Nom de la revue
ISSN de la revue
Titre du volume
Éditeur
University of Ottawa (Canada)
Résumé
A phenomenological model for a turbulent premixed flame in homogeneous turbulence, which incorporates the conservation of the probability distribution function (pdf) of a scalar, was developed. This was used to simulate the lean burn and misfire limits of combustion within a constant volume chamber. A one-dimensional numerical approximation of the pdf equation in spherical co-ordinates was obtained using the control volume formulation. The air-fuel premixture in the chamber was divided into particles of equal mass, which in turn were distributed among control volumes considered as spherical concentric shells. Monte-Carlo methods were applied to model the diffusion of particles between and mixing of particles within the concentric spherical shells. The chemical reaction of the mixture used a first order reaction from which a set of ordinary differential equations were solved for the evolution of the temperature and species concentration of each particle. Turbulence was modelled using the rapid distortion theory. A parametric study was conducted with the present model to show its operation in the misfire region of combustion. There has also been a comparison of mean expansion speeds with the compiled experimental combustion data of Bradley (1992). A suggestion for future research with the established model involves the adoption of the k-epsilon theory for the development of turbulence-related properties. This would allow comparison to the results obtained with the present rapid distortion theory for turbulence.
Description
Mots-clés
Citation
Source: Masters Abstracts International, Volume: 41-05, page: 1503.
