Accession Number : ADP003151

Title :   Evaluation of Multi-Dimensional Flux Models for Radiative Transfer in Combustion Chambers: A Review,

Corporate Author : MIDDLE EAST TECHNICAL UNIV ANKARA (TURKEY) DEPT OF CHEMICAL ENGINEERING

Personal Author(s) : Selcuk,N.

Report Date : 1984

Pagination or Media Count : 10

Abstract : In recent years, flux methods have been widely employed as alternative, albeit intrinsically less accurate, procedures to the zone or Monte-Carlo methods in complete prediction procedures. Flux models of radiation fields take the form of partial differential equations, which can conveniently and economically be solved simultaneously with the equations representing flow and reaction. The flux models are usually tested and evaluated from the point of view of predictive accuracy by comparing their predictions with exact values produced using the zone or Monte-Carlo models. In the present paper, evaluations of various multi-dimensional flux-type models, such as De Marco and Lockwood, Discrete-Ordinate, Schuster-Schwarzschild and moment, are reviewed from the points of view of both accuracy and computational economy. The six-flux model of Schuster-Schwarzschild type with angular subdivisions related to the enclosure geometry is recommended for incorporation into existing procedures for complete mathematical modelling of rectangular combustion chambers.

Descriptors :   *Combustion chambers, *Radiative transfer, *Heat flux, Mathematical models, Partial differential equations, Mathematical prediction, Accuracy, Flow fields, Reaction kinetics, Rectangular bodies, Turkey

Distribution Statement : APPROVED FOR PUBLIC RELEASE