Theme: Thermal and Dynamic Study of Convection-Radiation Coupling in a Closed Enclosure

Physical Science International Journal Pub Date : 2023-12-02 DOI:10.9734/psij/2023/v27i6808

Sanembaye Adrien, Konfé Amadou, Toussakoe Karim, K. T. S. Maurice, B. D. Joseph

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Abstract

In this work, we present a two-dimensional study of natural convection in a square air-filled cavity whose two vertical sides are subjected to a temperature difference, while the other two horizontal ones are adiabatic. The numerical method used is that of finite elements used in the COMSOL calculation code. We first studied pure natural convection, by varying the Rayleigh number from to , then its coupling with surface radiation, by varying the emissivity of the cavity surfaces from 0 to 0.6. The results are presented in the form of isotherms, pressure, current etc. It appears from this study that for a Rayleigh number less than 100, the fluid presents a vertical thermal stratification due to heat transfer only by conduction which does not generate any convective flow. The presence of surface radiation does not modify the equations governing fluid movements but only alternates the thermal boundary conditions. The coupling of natural convection and surface radiation occurs only through thermal boundary conditions. The variation in the emissivity of the walls does not influence the temperature isotherms.

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主题封闭外壳中对流-辐射耦合的热学和动力学研究

在这项工作中，我们提出了一个二维的自然对流的研究，在一个方形的充满空气的空腔，其两个垂直的侧面受到温差，而其他两个水平的是绝热的。所采用的数值方法是COMSOL计算代码中使用的有限元方法。我们首先通过改变瑞利数来研究纯自然对流，然后通过改变空腔表面的发射率从0到0.6来研究其与表面辐射的耦合。结果以等温线、压力、电流等形式给出。从本研究中可以看出，当瑞利数小于100时，流体仅通过传导传热而呈现垂直热分层，不产生任何对流流动。表面辐射的存在并不改变控制流体运动的方程，而只是改变热边界条件。自然对流和地表辐射的耦合只有通过热边界条件才能发生。壁面发射率的变化不影响温度等温线。

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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Physical Science International Journal

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