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Flat Plate Film Cooling Performance Predictions by RANS Turbulence Models

DOI: 10.1615/ICHMT.2012.ProcSevIntSympTurbHeatTransfPal.1300
pages 1262-1271

S. Inanli
Tusas Engine Industries, Inc., Cevreyolu Bulvari No:356, 26003 Eskisehir, Turkey

I. Gorgulu
Tusas Engine Industries, Inc., Cevreyolu Bulvari No:356, 26003 Eskisehir, Turkey

Tuba Okutucu-Ozyurt
Department of Mechanical Engineering, Middle East Technical University, Universiteler Mah., Dumlupinar Blv, No: 1, 06800, Ankara,, Turkey

O. Uzol
Department of Aerospace Engineering, Middle East Technical University, Universiteler Mah., Dumlupinar Blv, No: 1, 06800, Ankara,, Turkey

Resumo

Flat plate film cooling effectiveness is numerically predicted by different RANS-based turbulence models. Experimental work of Sinha et al. (1991) is selected as a validation case and predictions of analysis are compared with tabulated experimental data for three different density, velocity and momentum flux ratios. Fluent is used as a solver and postprocessor. Results are presented as centerline, laterally averaged and local lateral film cooling effectiveness. Predictions of Realizable k−ε, k−ω SST, RSM (Reynolds Stress Model) and V2-f turbulence models are compared and success of each model is evaluated. For centerline effectiveness, results reasonably show that k−ω SST, RSM and V2-f turbulence models accurately predict the experimental data for all three cases whereas Realizable k−ε generally has underpredictions. Results obtained by Realizable k−ε appear to match with experiments better for laterally averaged effectiveness near coolant exit but other models have better predictions for further downstream. Good agreement is also observed for local lateral effectiveness obtained by k−ω SST, RSM and V2-f turbulence models.

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