具有对流边界条件的反应性 MHD 耦合应力流体通过饱和多孔物质的热力学研究

IF 1.8 4区 物理与天体物理 Q3 PHYSICS, APPLIED
Huda Alsaud, Anthony R. Hassan, Mustafa Inc, Akeem B. Disu, A. S. Oke, Shahram Rezapour
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引用次数: 0

摘要

本研究探讨了反应性水磁性液体流经渗透性材料时的热力学行为,并在壁面上施加了对流冷却。这项研究对优化热管理系统具有实际意义,对提高控制热失控的效率至关重要。流动被模拟为一个偏微分方程系统,并对其进行数值求解。在求解方程时使用了改进的阿多米分解法和帕德近似技术。速度和温度分布的结果被用于估算熵产生率,其临界值与各种边界对改善热失控的众多影响有关,利用帕德近似技术来显示对流冷却项(比奥特数)和其他热物理参数对流体流动的重大影响。结果表明,流体速度随着反偶应力值的增加而持续增加,流体温度也会增加比奥特数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermodynamic survey of a reactive MHD couple stress fluid through saturated porous substances with convective boundary conditions

This study explores the thermodynamic behavior of a reactive hydromagnetic liquid flowing through permeable materials, with convective cooling applied to the walls. This study holds practical significance in optimization of thermal management systems and it is crucial for enhancing the efficiency of controlling thermal runaway. The flow is modeled as a system of partial differential equations which are numerically solved. The modified Adomian Decomposition Method and Pade approximation technique are utilized in solving the equations. The results acquired for velocity and temperature distributions are thereby employed to estimate entropy generation rate with critical values over numerous effects of various boundaries over improvement of thermal runaway utilizing Pade approximation technique to show the significant impact of convective cooling term (Biot number) and other thermophysical parameters on the fluid flow. The outcomes show that fluid velocity continuously increases with rising values of inverse couple stress and fluid temperature increases Biot number.

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来源期刊
Modern Physics Letters B
Modern Physics Letters B 物理-物理:凝聚态物理
CiteScore
3.70
自引率
10.50%
发文量
235
审稿时长
5.9 months
期刊介绍: MPLB opens a channel for the fast circulation of important and useful research findings in Condensed Matter Physics, Statistical Physics, as well as Atomic, Molecular and Optical Physics. A strong emphasis is placed on topics of current interest, such as cold atoms and molecules, new topological materials and phases, and novel low-dimensional materials. The journal also contains a Brief Reviews section with the purpose of publishing short reports on the latest experimental findings and urgent new theoretical developments.
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