以薄多孔边界为界的水平流体层中的自然对流

2008 Second International Conference on Thermal Issues in Emerging Technologies Pub Date : 2008-12-01 DOI:10.1109/THETA.2008.5167191

Z. Alloui, H. Beji, P. Vasseur

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引用次数: 0

摘要

本文报道了在两个水平多孔壁之间的水平二元流体层中自然对流的解析和数值研究。腔体由一个恒定的热流从底部加热，而长侧壁是不透水和绝热的。在流体和多孔层之间的界面处应用了速度的Beavers-Joseph滑移条件。双扩散对流和索雷特感应对流都被考虑在内。提出了一种基于平行流近似的浅层解析模型。根据问题的控制参数得到了流动变量和传热传质变量。在不同的流体动力边界条件下，预测了超临界和亚临界对流发生的临界瑞利数。以固体壁和自由表面为界的流体层的结果作为极限情况从本分析中得到。通过对整个控制方程的数值解完成了研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Natural convection in a horizontal fluid layer bounded by thin porous boundaries

This paper reports an analytical and numerical study of natural convection in a horizontal binary fluid layer confined between two horizontal porous walls. The cavity is heated from the bottom by a constant heat flux while the long side walls are impermeable and adiabatic. The Beavers-Joseph slip condition on velocity is applied at the interface between the fluid and porous layers. Both double-diffusive convection and Soret-induced convection are considered. An analytical model, based on the parallel flow approximation, is proposed for the case of a shallow layer. The flow and heat and mass transfer variables are obtained in terms of the governing parameters of the problem. The critical Rayleigh numbers for the onset of supercritical and subcritical convection are predicted for various hydrodynamic boundary conditions. The results for a fluid layer bounded by solid walls and free surfaces emerge from the present analysis as limiting cases. The study is completed by a numerical solution of the full governing equations.

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2008 Second International Conference on Thermal Issues in Emerging Technologies

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