Benchmark solutions for the natural convective heat transfer problem in a square cavity

机译：方腔内自然对流换热问题的基准解决方案

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In this study, benchmark solutions are derived for the problem of two-dimensional laminar flow of air in a square cavity which is heated on the left, cooled on the right and insulated on the top and bottom boundaries. The temperature differences between the hot and the cold wall are large. No Boussinesq nor low-Mach number approximations of the Navier-Stokes equations are used. The ideal-gas law is used and viscosity is given by Sutherland's law. A constant local Prandtl number is assumed. An accurate and fast multigrid solver is used, which was developed in previous work. The solver is constructed so that its convergence behaviour is independent of grid size, grid aspect ratio, Mach number and Rayleigh number. Grid converged results with an accuracy of 4 up to 5 digits are obtained for a variety of Rayleigh numbers.

机译：在这项研究中，针对方形空腔中的二维空气层流问题导出了基准解决方案，该空腔在左侧被加热，在右侧被冷却，在顶部和底部边界被隔热。冷热壁之间的温差很大。既没有使用Boussinesq方程，也没有使用Navier-Stokes方程的低马赫数近似。使用理想气体定律，而粘度由萨瑟兰定律给出。假定本地Prandtl数恒定。使用了一种精确，快速的多网格求解器，该求解器是在先前的工作中开发的。求解器的构造使其收敛行为与网格大小，网格长宽比，马赫数和瑞利数无关。对于各种瑞利数，可以得到4到5位精度的网格收敛结果。

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《Fourth International Conference on Advances in Fluid Mechanics (AFM 2002) May, 2002 Ghent》|2002年|p.45-54|共10页
会议地点 Ghent(BE);Ghent(BE)
作者
J. Vierendeels; B. Merci; E. Dick;
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作者单位

Department of Flow, Heat and Combustion Mechanics, Ghent University, Belgium;

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原文格式 PDF
正文语种 eng
中图分类力学;
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Benchmark solutions for the natural convective heat transfer problem in a square cavity

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