Impact of thermal diffusion and diffusion-thermal effects on MHD Maxwell fluid subject to Newtonian heat and mass conditions over a stretching cylinder

Q4 Engineering

ARPN Journal of Engineering and Applied Sciences Pub Date : 2024-01-30 DOI:10.59018/1123296

引用次数: 0

Abstract

Current research's main focus is to incorporate the novel idea of Newtonian flux condition in MHD stretching flow of Maxwell liquid with Stefan blowing. An analysis is done to explore the heat and mass transfer characteristics of MHD Maxwell fluid towards a stretching cylinder, including thermal diffusion and diffusion-thermal energy implications in the presence of activation energy. Polar coordinates (z, r) in the shape of a cylinder are used to model the issue. To convert controlling PDEs into ODEs, similarity the variables are used. The governing equations of motion that result are tackled via the notorious R-K 4th order approach. Through graphical portrayal, the impacts of various factors, including curvature, magnetics, Stefan blowing, reaction, and activation energy parameters, are studied. Furthermore, the validation of numerical findings is prepared by benchmarking with previously determined limiting conditions, and we launch a wonderful communication with these results.

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热扩散和扩散-热效应对拉伸圆柱体上牛顿热质条件下的 MHD 麦克斯韦流体的影响

当前研究的主要重点是将牛顿通量条件的新思想纳入麦克斯韦液体的 MHD 拉伸流与斯特凡吹气。研究分析了 MHD 麦克斯韦流体向拉伸圆柱体的传热和传质特性，包括热扩散和存在活化能时的扩散-热能影响。采用圆柱体形状的极坐标 (z, r) 来模拟这一问题。为了将控制 PDE 转换为 ODE，使用了相似变量。通过著名的 R-K 四阶方法来处理由此产生的运动控制方程。通过图形描绘，研究了各种因素的影响，包括曲率、磁性、斯特凡吹、反应和活化能参数。此外，我们还以先前确定的极限条件为基准，对数值结果进行了验证，并就这些结果进行了精彩的交流。

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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来源期刊

ARPN Journal of Engineering and Applied Sciences Engineering-Engineering (all)

CiteScore

0.70

自引率

0.00%

发文量

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