内部生热/吸热条件下Casson流体通过具有对流边界条件的运动楔的MHD传热的粘性耗散和辐射效应

IF 2.7 Q3 NANOSCIENCE & NANOTECHNOLOGY Journal of Nanofluids Pub Date : 2023-04-01 DOI:10.1166/jon.2023.1948

N. Amar, N. Kishan, B. Shankar Goud

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引用次数: 3

摘要

本文研究的问题是粘滞耗散、热辐射对卡森流体通过具有对流边界条件的移动楔体的MHD换热流动的影响。利用相似变量将控制方程转化为非非线性的耦合微分方程。利用MATLAB包求解器bvp5c对方程进行了数值计算。通过图表讨论了动量和温度相关约束的变化，并以表格形式列出了表面摩擦和传热系数的数值。在λ λ的情况下，速度随λ > 1的增大而增大，温度随辐射参数的增大而减小，温度随辐射参数的增大而增大。

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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Viscous Dissipation and Radiation Effects on MHD Heat Transfer Flow of Casson Fluid Through a Moving Wedge with Convective Boundary Condition in the Existence of Internal Heat Generation/Absorption

In this investigation the problem of study is the impacts of viscous dissipation, thermal radiation on the MHD heat transfer flow of Casson fluid across a moving wedge with convective boundary condition in the existence of and internal heat generation/absorption. The governing equations are changed to some coupled differential equations which are not nonlinear with aid of similarity variable. The numerical calculations of the equations are elucidated by the MATLAB package solver bvp5c. The changes of the pertinent constraints on the momentum and temperature have been discussed through graphs and numerical values of skin friction and heat transfer factor are listed in the tabular pattern. The velocity increases and the temperature decreases as λ > 1 increases in the instance λ, also temperature increases with an increase of Radiation parameter.

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来源期刊

Journal of Nanofluids NANOSCIENCE & NANOTECHNOLOGY-

自引率

14.60%

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期刊介绍： Journal of Nanofluids (JON) is an international multidisciplinary peer-reviewed journal covering a wide range of research topics in the field of nanofluids and fluid science. It is an ideal and unique reference source for scientists and engineers working in this important and emerging research field of science, engineering and technology. The journal publishes full research papers, review articles with author''s photo and short biography, and communications of important new findings encompassing the fundamental and applied research in all aspects of science and engineering of nanofluids and fluid science related developing technologies.