收缩表面传热的非定常流动及线性时间稳定性分析

International Journal for Computational Methods in Engineering Science and Mechanics Pub Date : 2023-03-08 DOI:10.1080/15502287.2023.2185553

G. M. Sarkar, B. Sahoo

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引用次数: 0

摘要

摘要本文着重研究了在磁场和吸力作用下收缩表面上的非定常流动和换热问题。通过Matlab求解器bvp4c生成自相似方程的相似解。不同速比参数(c)值对应的解揭示了一些有趣的结果，并对其进行了详细讨论。已经观察到，要获得相似解，需要足够的吸力。剪切应力和传热速率受吸力强度、速度比参数和磁场的显著影响。与非定常拉伸板问题不同，自相似方程在一定的非定常参数范围内得到对偶解。重点进行了时间稳定性分析，揭示了上分支是一个稳定的解分支。

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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Unsteady flow with heat transfer over a shrinking surface and linear temporal stability analysis

Abstract The present study accentuates an unsteady flow and heat transfer over a shrinking surface in the presence of magnetic field and suction effects. Similarity solutions of the self-similar equations are generated via Matlab solver ‘bvp4c’. The solutions corresponding to different values of the velocity ratio parameter (c) reveal some interesting results, which are discussed in detail. It has been observed that adequate suction is required to obtain the similarity solutions. The shear stresses and heat transfer rate are prominently affected by the intensity of suction, velocity ratio parameter, and magnetic field. Unlike an unsteady stretching sheet problem, dual solutions of the self-similar equations are found in a certain range of unsteadiness parameter. An emphasis has been given to performing a temporal stability analysis which reveals that the upper branch is a stable solution branch.

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International Journal for Computational Methods in Engineering Science and Mechanics

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