两种非混相耦合应力流体在渗透层间的MHD脉动流动与传热

Pub Date : 2021-01-01 DOI:10.5666/KMJ.2021.61.2.323
D. Kumar, M. Agarwal
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引用次数: 3

摘要

摘要本文研究了两种不可混溶、不可压缩、导电的耦合应力流体在两个可渗透层之间的磁流体脉动流动和传热问题。假设渗流层间的流动由Stokes[28]耦合应力流体流动方程控制,而渗流层间的动力学由Darcy定律决定。本研究在流体-流体界面采用匹配条件,在流体-孔隙界面采用B-J滑移边界条件。对控制方程进行了解析求解,得到了速度、温度、质量通量、表面摩擦和换热速率的表达式。对解析表达式进行了数值计算,并以图表的形式给出了结果。
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MHD Pulsatile Flow and Heat Transfer of Two Immiscible Couple Stress Fluids Between Permeable Beds
Abstract. The present paper addresses magnetohydrodynamic pulsating flow and heat transfer of two immiscible, incompressible, and conducting couple stress fluids between two permeable beds. The flow between the permeable beds is assumed to be governed by Stokes’ [28] couple stress fluid flow equations, whereas the dynamics of permeable beds is determined by Darcy’s law. In this study, matching conditions were used at the fluid– fluid interface, whereas the B-J slip boundary condition was employed at the fluid–porous interface. The governing equations were solved analytically, and the expressions for velocity, temperature, mass flux, skin friction, and rate of heat transfer were obtained. The analytical expressions were numerically evaluated, and the results are presented through graphs and tables.
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