使用 Akbari-Gangi 方法建立流经多孔拉伸片的磁流体卡松纳米流的非傅里叶热通量模型

Q3 Engineering

WSEAS Transactions on Fluid Mechanics Pub Date : 2024-04-02 DOI:10.37394/232013.2024.19.16

A. El Harfouf, Rachid Herbazi, S. Mounir, Hassane Mes-Αdi, A. Wakif

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引用次数: 0

摘要

本研究探讨了磁流体力学中带有多孔材料的卡松流体流动。此外，还使用银水纳米流体研究了其他半分析结果。在考虑热辐射因素后，采用 Akbari-Ganji 方法（AGM）求解半解析 Cattaneo-Christov 热通量模型。利用适当的参数，如弛豫时间参数、普朗特数、辐射参数、磁参数等，可以研究壁面的归一化剪应力、温度曲线和热流速率。这一问题在工业应用和技术程序中有着广泛的应用，例如橡胶板的挤压和玻璃纤维的制造。主要的物理应用是发现热松弛参数和普朗特数的上升可以保持流体温度恒定。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Non-Fourier Heat Flux Model for the Magnetohydrodynamic Casson Nanofluid Flow Past a Porous Stretching Sheet using the Akbari-Gangi Method

The Casson fluid flow with porous material in magnetohydrodynamics is examined in this work. Additional semi-analytical results are investigated using the Silver-Water nanofluid. The Akbari-Ganji Method (AGM) is used to solve the semi-analytical Cattaneo-Christov heat flux model after taking thermal radiation into account. With the use of appropriate parameters, such as the relaxation time parameter, Prandtl number, radiation parameter, magnetic parameter, and so on, the normalized shear stress at the wall, temperature profile, and rate of heat flux may be examined. This issue has numerous industrial applications and technical procedures, such as the extrusion of rubber sheets and the manufacture of glass fiber. The main physical application is the discovery that a rise in the thermal relaxation parameter and Prandtl number maintains a constant fluid temperature.

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来源期刊

WSEAS Transactions on Fluid Mechanics Engineering-Computational Mechanics

CiteScore

1.50

自引率

0.00%

发文量

期刊介绍： WSEAS Transactions on Fluid Mechanics publishes original research papers relating to the studying of fluids. We aim to bring important work to a wide international audience and therefore only publish papers of exceptional scientific value that advance our understanding of this particular area. The research presented must transcend the limits of case studies, while both experimental and theoretical studies are accepted. It is a multi-disciplinary journal and therefore its content mirrors the diverse interests and approaches of scholars involved with multiphase flow, boundary layer flow, material properties, wave modelling and related areas. We also welcome scholarly contributions from officials with government agencies, international agencies, and non-governmental organizations.