THERMAL RADIATION EFFECTS ON MHD CASSON AND MAXWELL NANOFLUIDS OVER A POROUS STRETCHING SURFACE

Tagallamudi Srinivasa Rao, Matam Mohan Babu, Ramesh Reddy Bojja, Naga Santoshi P., Venkata Ramana Reddy Gurrampati
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Abstract

The main goal of the work is to investigate to the influence the magnetohydrodynamic slip flow through a nonlinear porous stretching surface's upper Maxwell Casson convected nanofluid boundary layer flow was considered. The governing partial differential equations are transformed into nonlinear ordinary differential equations using the proper similarity transformations. The Shooting method was utilized to achieve the numerical solution of the updated equations utilizing the Runge-Kutta-Fehlberg approach. A wide range of essential fluid characteristics were thoroughly examined, including the Schmidt number, magnetic parameter, temperature slip parameter, concentration slip parameter, velocity, and nonlinear stretching parameter. Using graphs and tables, the impacts on temperature, concentration, and velocity were examined and reported. The investigation included calculating and thoroughly debating the skin friction coefficient, local Sherwood numbers, and local Nusselt numbers.
多孔拉伸表面上的 MHD 卡松和麦克斯韦纳米流体的热辐射效应
这项工作的主要目标是研究通过非线性多孔拉伸表面的上麦克斯韦-卡森对流纳米流体边界层流动对磁流体滑移流动的影响。利用适当的相似变换将控制偏微分方程转换为非线性常微分方程。利用 Runge-Kutta-Fehlberg 方法,采用射击法实现了更新方程的数值求解。对各种基本流体特性进行了深入研究,包括施密特数、磁参数、温度滑移参数、浓度滑移参数、速度和非线性拉伸参数。通过图表,研究并报告了对温度、浓度和速度的影响。调查包括计算和深入讨论表皮摩擦系数、局部舍伍德数和局部努塞尔特数。
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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