Heat Transfer Characteristics of Al2O3-Cu/Water Hybrid Nanofluid inside a Square Cavity in the Presence of Inclined Periodic Magnetic Field

Jagannath University Journal of Science Pub Date : 2024-02-07 DOI:10.3329/jnujsci.v10i2.71257

Md Nurul Huda, Md Shariful Alam, S. M. C. Hossain

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Abstract

The goal is to scrutinize the thermal features of hybrid nanofluid in a square cavity with the effect of oblique periodic magnetic field. The modified hybrid nanofluid is a combination of nanoparticles , and base fluid water with equal volume fraction of and The finite element method based Galerkin weighted residual scheme is chosen to find the solution of the non-dimensional governing equations. The effects of different model factors such as oblique angle and period of the periodic magnetic field, Hartmann number, Rayleigh number, nanoparticles volume fraction on the heat transfer are scrutinized. The outcomes are exhibited with the help of isotherms and average Nusselt number as well. The numerical results show that when the period of the slanted periodic magnetic field increases gradually, the distinct model factors (Rayleigh number, nanoparticles volume fraction, and slanting angle) raise the heat transfer rate progressively, whereas augmentation of the Hartmann number diminutions the entire heat transfer rate. Jagannath University Journal of Science, Volume 10, Number II, Dec. 2023, pp. 75-86

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倾斜周期磁场下方形空腔内的 Al2O3-Cu/Water 混合纳米流体的传热特性

目的是研究在斜周期磁场作用下方形空腔中混合纳米流体的热特性。改良后的混合纳米流体是纳米颗粒、水和基流体的组合，其体积分数分别为和。仔细研究了不同模型因素（如周期性磁场的斜角和周期、哈特曼数、瑞利数、纳米颗粒体积分数）对传热的影响。结果还借助等温线和平均努塞尔特数进行了展示。数值结果表明，当斜周期磁场的周期逐渐增加时，不同的模型因素（瑞利数、纳米颗粒体积分数和斜角）会逐渐提高传热速率，而哈特曼数的增加则会降低整个传热速率。

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Jagannath University Journal of Science

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