A Computational Analysis on Steady MHD Casson Fluid Flow Across A Vertical Porous Channel Affected By Thermal Radiation Effect

International Journal of Science for Global Sustainability Pub Date : 2023-03-31 DOI:10.57233/ijsgs.v9i1.393

Ojemeri Ojemeri, E. Omokhuale, M. Hamza, I. Onwubuya, A. Shuaibu

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引用次数: 6

Abstract

This article investigates the MHD free convection flow of a Casson fluid that is electrically conductive, affected by thermal radiation effect in a vertical porous channel. The resulting solutions of the leading differential equations describing the velocity and temperature flows characteristics are obtained analytically using regular perturbation method. The actions of Casson fluid parameter, magnetic field effect, thermal radiation parameters on the velocity field, temperature distribution, skin friction coefficient and rate of heat transfer has been presented for relevant temperature jump and velocity slip conditions. The results obtained revealed that by taking varying values of the major controlling parameters, such as Casson parameter, thermal radiation parameter, magnetic field effect, rarefaction parameter and wall ambient temperature difference ratio parameter, the velocity and temperature profiles are substantially influenced. Additionally, when the Casson parameter is set to be 1000, the numerical computations of these findings agree very well with those of Abbas et al., 2020.

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热辐射效应影响下MHD卡森流体垂直多孔通道稳态流动的计算分析

本文研究了导电卡森流体在垂直多孔通道中受热辐射效应影响的MHD自由对流流动。用正则摄动法解析得到了描述速度和温度流动特性的主要微分方程的结果解。在相应的温度跳跃和速度滑移条件下，给出了卡森流体参数、磁场效应、热辐射参数对速度场、温度分布、表面摩擦系数和换热率的作用。结果表明，当卡森参数、热辐射参数、磁场效应、稀薄参数和壁面环境温差比参数等主要控制参数取值不同时，速度和温度分布都会受到较大影响。此外，当Casson参数设置为1000时，这些结果的数值计算与Abbas et al.， 2020的结果非常吻合。

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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International Journal of Science for Global Sustainability

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