Velocity and Thermal Slips Impact on the Williamson Fluid Flow above a Stretching Sheet in the Existence of Radiation and Inclined Magnetic Field

Q2 Mathematics CFD Letters Pub Date : 2024-03-04 DOI:10.37934/cfdl.16.7.118135
Srinu Anagandula, K. Sreeram Reddy
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Abstract

Research has been conducted on the study of the velocity and thermal slips' impact on the Williamson fluid flow above a stretching sheet in the existence of an inclined magnetic field and Radiation. By applying the proper similarity conversions, the governing equations (PDEs) are reduced to a set of non-linear ODEs, and a numerical solution is produced by using MATLAB in-built solver bvp4c package. The impacts of the dimensionless characteristics on the flow patterns are analyzed visually, and the values of the friction, Nusselt, and mass transfer quantities are tabulated to exemplify how the various physical factors have an influence. We noted that the velocity profile enhances the rising estimations of velocity slip and the temperature profile increases with Q increase.
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速度和热滑移对存在辐射和倾斜磁场的拉伸片上威廉姆森流体流动的影响
研究了在存在倾斜磁场和辐射的情况下,速度和热滑移对拉伸片上威廉姆森流体流动的影响。通过应用适当的相似性转换,将支配方程(PDEs)简化为一组非线性 ODEs,并使用 MATLAB 内置求解器 bvp4c 软件包进行数值求解。我们直观地分析了无量纲特征对流动模式的影响,并将摩擦、努塞尔特和传质量的值列表,以说明各种物理因素的影响。我们注意到,速度剖面增强了对速度滑移的上升估计,而温度剖面则随着 Q 值的增加而增加。
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来源期刊
CFD Letters
CFD Letters Chemical Engineering-Fluid Flow and Transfer Processes
CiteScore
3.40
自引率
0.00%
发文量
76
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