Radiation effect on the turbulent compressible boundary layer flow with adverse pressure gradient

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• 作者：Michalis Xenos^a ; ^{mxenos@cc.uoi.gr} ; Ioan Pop ; ^b ; ^{popm.ioan@yahoo.co.uk} ; ^{pop.ioan@hotmail.com}
• 关键词：Compressible boundary layer ; Turbulent flow ; Thermal radiation ; Localized suction ; Adverse pressure gradient
• 刊名：Applied Mathematics and Computation
• 出版年：2017
• 出版时间：15 April 2017
• 年：2017
• 卷：299
• 期：Complete
• 页码：153-164
• 全文大小：1445 K
• 卷排序：299

文摘

The effects of thermal radiation and localized suction on the steady turbulent compressible boundary layer flow with adverse pressure gradient are numerically studied. The compressible flow is subjected to a constant localized suction velocity and the fluid is considered as a radiative optically thin gray fluid. The plate is adiabatic and the flow is subjected to adverse pressure gradient.The Reynolds Averaged Boundary Layer (RABL) equations with appropriate boundary conditions are transformed using the compressible Falkner Skan transformation. The resulting nonlinear, coupled system of partial differential equations (PDEs) is solved using the Keller box method. For the eddy kinematic viscosity, the turbulent models of Cebeci Smith and Baldwin Lomax are employed. For the turbulent Prandtl number, the extended Kays Crawford model is used. The obtained results are validated with previously published computational results and with experimentally based correlations, showing a good agreement.The results show that the flow is influenced by the combined effect of radiation and localized suction. The coupled effect moves the separation point downstream, towards the plate’s end, and increases total drag. Radiation alters the thermal boundary layer above the plate by cooling the fluid at plate’s vicinity and by slightly increasing the boundary layer maximum temperature.