CFD study of turbulent jet impingement on curved surface

CFD study of turbulent jet impingement on curved surface

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摘要 The heat transfer and flow characteristics of air jet impingement on a curved surface are investigated with computational fluid dynamics(CFD)approach.The first applied model is a one-equation SGS model for large eddy simulation(LES)and the second one is the SST-SAS hybrid RANS-LES.These models are utilized to study the flow physics in impinging process on a curved surface for different jet-to-surface(h/B)distances at two Reynolds numbers namely,2960 and 4740 based on the jet exit velocity(U_e)and the hydraulic diameter(2B).The predictions are compared with the experimental data in the literature and also the results from RANS k-εmodel.Comparisons show that both models can produce relatively good results.However,one-equation model(OEM)produced more accurate results especially at impingement region at lower jet-to-surface distances.In terms of heat transfer,the OEM also predicted better at different jet-to-surface spacings.It is also observed that both models show similar performance at higher h/B ratios. The heat transfer and flow characteristics of air jet impingement on a curved surface are investigated with com- putational fluid dynamics （CFD） approach. The first applied model is a one-equation SGS model for large eddy simulation （LES） and the second one is the SST-SAS hybrid RANS-LES, These models are utilized to study the flow physics in impinging process on a curved surface for different jet-to-surface （h/B） distances at two Reynolds numbers namely, 2960 and 4740 based on the jet exit velocity （Ue） and the hydraulic diameter （2B）, The predic- tions are compared with the experimental data in the literature and also the results from RANS k-ε model. Com- parisons show that both models can produce relatively good results. However, one-equation model （OEM） produced more accurate results especially at impingement region at lower jet-to-surface distances. In terms of heat transfer, the OEM also predicted better at different jet-to-surface spacings. It is also observed that both models show similar performance at higher h/B ratios.

作者 Javad Taghinia Md Mizanur Rahman Timo Siikonen

机构地区 Aalto University Hong Kong University of Science and Technology

出处《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2016年第5期588-596,共9页 中国化学工程学报（英文版）

关键词 Jet impingement Curved surface RAST one-equation model Large eddy simulation Heat transfer 计算流体力学射流冲击曲面原始设备制造商方程模型湍流弯曲表面射流特性

分类号 O35 [理学—流体力学] TK124 [理学—力学]

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CFD study of turbulent jet impingement on curved surface

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