Numerical prediction of film cooling effectiveness over flat plate using variable turbulent prandtl number closures |
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Authors: | Tomasz Ochrymiuk |
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Affiliation: | Institute of Fluid-Flow Machinery,Polish Academy of Sciences(IMP PAN),Fiszera 14,80-952 Gdansk |
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Abstract: | Numerical simulations were performed to predict the film cooling effectiveness on the fiat plate with a three-dimensional discrete-hole film cooling arrangement.The effects of basic geometrical characteristics of the holes,i.e.diameter D,length L and pitch S/D were studied.Different turbulent heat transfer models based on constant and variable turbulent Prandtl number approaches were considered.The variability of the turbulent Prandtl number Prt in the energy equation was assumed using an algebraic relation proposed by Kays and Crawford,or employing the Abe,Kondoh and Nagano eddy heat diffusivity closure with two differential transport equations for the temperature variancekθ and its destruction rate εθ The obtained numerical results were directly compared with the data that came from an experiment based on Transient Liquid Crystal methodology.All implemented models for turbulent heat transfer performed sufficiently well for the considered case.It was confirmed,however,that the two-equation closure can give a detailed look into film cooling problems without using any time-consuming and inherently unsteady models. |
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Keywords: | turbulent heat flux two-equation model turbulent Prandtl number film cooling |
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