Performance evaluation of standard second-order finite volume method for DNS solution of turbulent channel flow

被引:0
作者
Victor W. F. de Azevedo
Fabian Denner
Fabien Evrard
Emilio E. Paladino
机构
[1] Federal Rural University of the Semi-arid Region,Department of Engineering and Technology
[2] Federal University of Santa Catarina,SINMEC Lab, Department of Mechanical Engineering
[3] Otto-von-Guericke-Universität Magdeburg,Mechanical Process Engineering
来源
Journal of the Brazilian Society of Mechanical Sciences and Engineering | 2021年 / 43卷
关键词
Direct numerical simulation; Finite volume method; Channel flow; Mesh refinement;
D O I
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摘要
DNS of turbulent flows is usually performed with high resolution meshes which demand high computational power. In addition, most classic studies use spectral methods due to its accuracy and lack of numerical dissipation. However, the effects of mesh refinement on turbulence structure was not much explored in the literature, mainly when finite volume methods (instead of usual spectral ones) are used to integrate the flow equations. In the present paper, DNS of a single phase channel flow is performed solving the primitive variables in space and time domains, using the Finite Volume Method and its influence on turbulence statistics is analyzed based on four different meshes. The results show some differences in turbulent statistics according to the resolution adopted and confirm that a turbulence analysis can be performed in domains without extreme refinement, at least, for lower order statistics.
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