This paper describes the application of computational fluid dynamics (CFD) to the prediction of the characteristics of high-momentum vertical and horizontal flames in ambient air flows. The KIVA-II code has been modified by extending the range of boundary conditions and by the addition of the following: a version of the coherent flame-sheet model, Tesner's soot generation and Magnussen's soot oxidation model, and an implementation of the discrete transfer radiation model. To assess the accuracy of the complete model for prediction purposes, results are compared with experimental data. Predictions of temperature and flame profiles are in good agreement with data while predictions of radiative heat transfer are not entirely satisfactory.
History
School
Mechanical, Electrical and Manufacturing Engineering
Citation
BEERI, Z.A. ... et al, 1996. Comprehensive modelling of turbulent flames with the coherent flame sheet model: part II: high-momentum reactive jets. Journal of Energy Resources Technology: Transactions of the ASME, 118, pp 72-76.