填充了 Fe3O4-水纳米流体饱和多孔介质的方形空腔中的水磁对流传热

Md Shariful Alam, Md Nurul Huda, S. M. C. Hossain
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引用次数: 0

摘要

在斜周期磁场的作用下,对纳米流体在泡沫铝多孔介质饱和的方形空腔中的传热事件进行了数值研究。空腔壁从左侧加热,从右侧冷却,而水平壁假定为绝热。在构建导热模型时考虑了纳米粒子的布朗运动。包括达西-布林克曼(Darcy-Brinkman)模型在内的无量纲控制方程采用 Galerkin-FEM 方法求解。结果显示了流线、等温线和平均努塞尔特数。数值研究的参数包括达西数、瑞利数、哈特曼数、孔隙率、周期磁场倾斜角、周期数和纳米粒子体积分数。随着纳米颗粒体积分数、周期数、达西数和雷利数的增加,传热速率明显上升,但哈特曼数和孔隙率的变化趋势相反。从获得的数值结果来看,当 λ = 1 时,δ=π/4 时的传热速率最大。
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Hydromagnetic Convective Heat Transfer in a Square Cavity Filled with Fe3O4-Water Nanofluid Saturated Porous Medium
A numerical study is carried out to demonstrate the heat transmission events of  nanofluid in a square cavity saturated by aluminum foam porous medium under the effect of slanted periodic magnetic field. The cavity wall is heated from left and cooled from right while horizontal walls are supposed to be adiabatic. The Brownian motion of nanoparticle is taken into consideration in the thermal conductivity model construction. The dimensionless governing equations including Darcy-Brinkman model are solved by Galerkin-FEM. The outcomes are exposed with depictions of streamlines, isotherms and average Nusselt numbers. The numerical investigation is performed for parameters: Darcy number, Rayleigh number, Hartmann number, porosity, leaning angle of the periodic magnetic field, period number, and nanoparticle volume fraction. The heat transfer rate upsurges noticeably for the rise of nanoparticle volume fraction, period number, Darcy number and Rayleigh number but the reverse trend is found for the parameter Hartmann number as well as porosity. From the acquired numerical outcomes, the maximum rate of heat transfer is attained at δ=π/4   when λ = 1. Jagannath University Journal of Science, Volume 10, Number II, Dec. 2023, pp. 145-158
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