Shear‐improved Smagorinsky modeling of turbulent channel flow using generalized Lattice Boltzmann equation |
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Authors: | Saeed Jafari Mohammad Rahnama |
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Affiliation: | Mechanical Engineering Department, Shahid Bahonar University of Kerman, Kerman, Iran |
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Abstract: | Generalized Lattice Boltzmann equation (GLBE) was used for computation of turbulent channel flow for which large eddy simulation (LES) was employed as a turbulence model. The subgrid‐scale turbulence effects were simulated through a shear‐improved Smagorinsky model (SISM), which is capable of predicting turbulent near wall region accurately without any wall function. Computations were done for a relatively coarse grid with shear Reynolds number of 180 in a parallelized code. Good numerical stability was observed for this computational framework. The results of mean velocity distribution across the channel showed good correspondence with direct numerical simulation (DNS) data. Negligible discrepancies were observed between the present computations and those reported from DNS for the computed turbulent statistics. Three‐dimensional instantaneous vorticity contours showed complex vortical structures that appeared in such flow geometries. It was concluded that such a framework is capable of predicting accurate results for turbulent channel flow without adding significant complications and the computational cost to the standard Smagorinsky model. As this modeling was entirely local in space it was therefore adapted for parallelization. Copyright © 2010 John Wiley & Sons, Ltd. |
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Keywords: | Lattice Boltzmann method large eddy simulation turbulent flow Smagorinsky model channel flow |
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