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Heat generation in mixed convected Williamson liquid stretching flow under generalized Fourier concept
Applied Nanoscience Pub Date : 2020-07-14 , DOI: 10.1007/s13204-020-01500-0 Z. Asghar , Muneeba Kousar , M. Waqas , M. Irfan , M. Bilal , W. A. Khan
中文翻译:
广义傅里叶概念下混合对流威廉姆森液体拉伸流中的热量产生
更新日期:2020-07-14
Applied Nanoscience Pub Date : 2020-07-14 , DOI: 10.1007/s13204-020-01500-0 Z. Asghar , Muneeba Kousar , M. Waqas , M. Irfan , M. Bilal , W. A. Khan
We addressed mixed convected stretching flow considering Williamson liquid subjected to variable conductivity. Transportation of heat is investigated employing generalized Fourier law and heat generation. Governing non-linear expressions are achieved through well-known boundary-layer concept. Transformation procedure converts PDEs into ODEs. Homotopy concept is used for non-linear analysis. Novel attributes of non-dimensional variables are scrutinized via graphical outcomes. We found higher temperature subjected to generalized Fourier law in comparison to well-known Fourier law.
中文翻译:
广义傅里叶概念下混合对流威廉姆森液体拉伸流中的热量产生
我们考虑了考虑可变电导率的威廉姆森液体的混合对流拉伸流。利用广义傅里叶定律和热量产生来研究热量的传输。通过众所周知的边界层概念可以实现对非线性表达式的控制。转换过程将PDE转换为ODE。同伦概念用于非线性分析。通过图形结果检查无量纲变量的新颖属性。我们发现,与众所周知的傅立叶定律相比,更高的温度受广义傅立叶定律的影响。