Exact Solution of an MHD Natural Convection Flow in Vertical Concentric Annulus with Heat Absorption

Yusuf S. Taiwo
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引用次数: 11

Abstract

This paper presents an exact solution of a fully developed natural convection flow in a vertical concentric annulus in the presence of transverse magnetic field and heat absorption. The non-dimensional form of the equation governing the flow is first obtained and then the unified analytical solutions for the temperature field, velocity field, and skin-frictions as well as rate of heat transfer are obtained for both isothermal and constant heat flux case on the outer surface of the inner cylinder. The effect of various identified governing parameters on the flow was illustrated with the aid of line graphs. It is found that the magnitude of maximum fluid velocity is greater in the case of isothermal heating compared with the constant heat flux case when the gap between the cylinders is less or equal to radius of the inner cylinder. More also, the various values of the non-dimensional heat absorption parameter (H) and the corresponding values of annular gap where these fields are almost the same are presented in table 1.
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带吸热的MHD垂直同心环空自然对流的精确解
本文给出了存在横向磁场和吸热的垂直同心环空中充分发展的自然对流流动的精确解。首先得到了流动方程的无量纲形式,然后得到了内筒外表面等温和等热流密度情况下的温度场、速度场、摩擦和换热速率的统一解析解。用折线图说明了各种确定的控制参数对流动的影响。结果表明,等温加热条件下的最大流体速度比等温加热条件下的最大流体速度更大,当柱间间隙小于或等于内柱半径时。此外,表1给出了无量纲吸热参数(H)的各种值以及这些场几乎相同的环形间隙的相应值。
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