Koo‐Kleinstreuer‐Li magneto‐nanofluid model for non‐Newtonian micropolar fluid through porous channel

ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik Pub Date : 2024-05-23 DOI:10.1002/zamm.202300285

S. Lone, M. Bilal, Y. Mehmood, T. Sajid, M. Nadeem

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Abstract

The primary concern of writing this article is to study the rheological properties of the micropolar non‐Newtonian nanofluid flowing through the porous medium along with magnetic field effects. In it, the outer boundary of the sheet is heated by applying an external heat source. The insertion of aluminum oxide nanoparticles in water turned it into a nanofluid. Together with the viscous dissipation phenomena, adding a magnetic field has another effect known as a Joule heating impact that is considered in the energy equation. To investigate the impact of viscosity and thermal conductivity on flow patterns, we considered the Koo‐Kleinstreuer‐Li model. A generalized Proudman‐Johnson equation is obtained by using similarity transformation on Navier‐Stokes equations. The well‐known classical shooting method is used to get the numerical solution to the said problem. Graphical results are portrayed for variant rheological parameters lke power law index, Reynolds number, volume fraction, Prandtl number, expansion ratio, and Hartmann number on the velocity and temperature of nanofluids.

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Koo-Kleinstreuer-Li 磁纳米流体模型用于非牛顿微多孔流体通过多孔通道

撰写本文的主要目的是研究流经多孔介质的微波非牛顿纳米流体的流变特性以及磁场效应。其中，通过外部热源加热薄片的外部边界。在水中加入氧化铝纳米粒子后，水变成了纳米流体。除了粘滞耗散现象外，加入磁场还会产生另一种效应，即焦耳热影响，这在能量方程中得到了考虑。为了研究粘度和热导率对流动模式的影响，我们考虑了 Koo-Kleinstreuer-Li 模型。通过对纳维-斯托克斯方程进行相似性转换，得到了广义的普鲁德曼-约翰逊方程。我们使用著名的经典射击法对上述问题进行数值求解。图形结果描述了不同流变参数（如幂律指数、雷诺数、体积分数、普朗特数、膨胀比和哈特曼数）对纳米流体速度和温度的影响。

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ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik

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