A numerical scheme that has already proved to be efficient and accurate for laminar heat transfer is extended for turbulent, axisymmetric heat transfer calculations. The extended scheme is applied to the steady‐state heat transfer of axisymmetric turbulent jets, impinging onto a flat plate. Firstly, the low‐Reynolds version of the standard k‐ε model is employed. As is well known, the classical k‐ε turbulence model fails to predict the heat transfer of impinging jets adequately. A non‐linear k‐ε model, with improved ε‐equation, yields much better results. The numerical treatment of the higher order terms in this model is described. The effect on the heat transfer predictions of a variable turbulent Prandtl number is shown to be small. It is also verified that the energy equation can be simplified, without affecting the results. Results are presented for the flow field and the local Nusselt number profiles on the plate for impinging jets with different distances between the pipe exit and the flat plate.
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1 February 2003
Conceptual Paper|
February 01 2003
Numerical simulation of heat transfer of turbulent impinging jets with two‐equation turbulence models
Bart Merci;
Bart Merci
Department of Flow, Heat and Combustion Mechanics, Gent University, Gent, Belgium
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Jan Vierendeels;
Jan Vierendeels
Department of Flow, Heat and Combustion Mechanics, Gent University, Gent, Belgium
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Chris De Langhe;
Chris De Langhe
Department of Flow, Heat and Combustion Mechanics, Gent University, Gent, Belgium
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Erik Dick
Erik Dick
Department of Flow, Heat and Combustion Mechanics, Gent University, Gent, Belgium
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Publisher: Emerald Publishing
Online ISSN: 1758-6585
Print ISSN: 0961-5539
© MCB UP Limited
2003
International Journal of Numerical Methods for Heat & Fluid Flow (2003) 13 (1): 110–132.
Citation
Merci B, Vierendeels J, De Langhe C, Dick E (2003), "Numerical simulation of heat transfer of turbulent impinging jets with two‐equation turbulence models". International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 13 No. 1 pp. 110–132, doi: https://doi.org/10.1108/09615530310456787
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