Heat & Flow Mass Transfer over a Magnetized Wedge: A Numerical Study

IF 0.4 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Annals of Mathematical Sciences and Applications Pub Date : 2022-12-31 DOI:10.52700/msa.v1i1.5
K. Batool, K. Ali
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Abstract

The mass &. heat transport characteristics of. the flow incorporating microstructuresoevr a. wedge are interpreted in this article. The controlling parameters describe the primary characteristics of the issue. The distributions of both velocity and temperature are looked at using the different provided values of the parameters. The similarity variables are used to convert the fundamental controlling PDEs as a collection of ordinary ones, which then solving with the sequential over relaxation parameter (SOR) method. The flow is shown to decelerate using higher values for the material parameters where as beingsped up by raising the wedge angles using numerical results. Thermal radiation and the magnetic field have a negligible impact on temperature distributions. Additionally, when the wedge's values rise, the thermal boundary layer thickens.
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磁化楔上的热流传质:数值研究
质量&。的传热特性。本文对楔体上带有微结构的流动进行了解释。控制参数描述了问题的主要特征。速度和温度的分布是用不同的参数值来观察的。利用相似性变量将基本控制偏微分方程转化为普通偏微分方程的集合,然后用序贯过松弛参数(SOR)法求解。通过数值结果表明,通过提高楔形角度可以加速流动,而使用较高的材料参数值可以使流动减速。热辐射和磁场对温度分布的影响可以忽略不计。此外,当楔的值升高时,热边界层变厚。
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来源期刊
Annals of Mathematical Sciences and Applications
Annals of Mathematical Sciences and Applications MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
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