Diffusion flame analysis of twin plane jets via a kinetic theory approach
Abstract
Diffusion flame solutions of twin plane jets based on a turbulent kinetic theory due to Chung and a Green function method by Hong are presented. The chemical reaction between fuel and oxidizer is assumed to be onestep, nedirection and infinitely fast. The solutions are obtained by direct integration over a constructed probability density function in velocity space. The probability density functions of reactants in transverse velocity space, species mass fraction distributions, turbulent transport of momentum and heat, temperature distributions and flame structure are also considered in this paper. The diffusion flame phenomena of the twin plane jets show that the interaction between the two jets is a dominant factor.
 Publication:

International Journal for Numerical Methods in Fluids
 Pub Date:
 July 1991
 DOI:
 10.1002/fld.1650130306
 Bibcode:
 1991IJNMF..13..341C
 Keywords:

 Diffusion Flames;
 Jet Flow;
 Kinetic Theory;
 Turbulent Heat Transfer;
 Chemical Reactions;
 Green'S Functions;
 Probability Density Functions;
 Temperature Distribution;
 Fluid Mechanics and Heat Transfer