Effect of the inclination angle of finned cylinder over a BFS on the MHD behavior in the presence of a nanofluid

Metallurgical and Materials Engineering Pub Date : 2022-03-12 DOI:10.30544/760
Djamila Derbal, M. Bouzit, Fayçal Bouzit
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引用次数: 1

Abstract

The present numerical study is based on the forced magnetohydrodynamic (MHD) convection of a ferrofluid through a backward facing step (BFS). A cylinder with two fixed fins and fixed dimensions is implanted inside fluid. The dimensionless governing equations have been solved using the multigrid finite element method. Several parameters were considered, such as the Hartmann number 0≤ Ha ≤100, the magnetic field inclination angle 0°≤ ɣ ≤90°, the Reynolds number 10≤ Re ≤200, the nanoparticle volume fraction 0%≤ φ ≤10%, and the fins inclination angle 0°≤ a ≤180°. The results have shown that the presence of the fins improves the heat transfer, especially at the position a = 90° where the Nuave number increases with a ratio of 113% for Re = 200.  
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在纳米流体存在下,翅片圆柱体在BFS上的倾角对MHD行为的影响
本文的数值研究是基于铁磁流体通过后向阶跃(BFS)的强制磁流体动力学(MHD)对流。将具有两个固定翅片和固定尺寸的圆柱体植入流体中。采用多网格有限元法求解了无量纲控制方程。考虑了哈特曼数0≤Ha≤100、磁场倾角0°≤θ≤90°、雷诺数10≤Re≤200、纳米颗粒体积分数0%≤φ≤10%、翅片倾角0°≤a≤180°等参数。结果表明,翅片的存在改善了换热,特别是在a = 90°位置,Re = 200时,Nuave数增加了113%。
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Metallurgical and Materials Engineering
Metallurgical and Materials Engineering
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