Thermal radiation effect on unsteady three-dimensional MHD flow of micropolar fluid over a horizontal surface of a parabola of revolution

IF 5.4 2区工程技术 Q1 ENGINEERING, AEROSPACE

Propulsion and Power Research Pub Date : 2022-03-01 DOI:10.1016/j.jppr.2022.01.001

S.R.R. Reddy , P. Bala Anki Reddy

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引用次数: 20

Abstract

This paper explores the time-dependent magnetohydrodynamics (MHD) micropolar fluid flow over a three-dimensional variable stretching surface in the occurrence of radiation effect. The model time-dependent partial differential equations (PDE's) in three independent variables are transformed into ordinary differential equations (ODE's) by the suitable self-similarity variables. Homotopy perturbation method (HPM) and Runge-Kutta (RK) 4^th order method along with shooting technique are used in the present model. And also, HPM results are compared with Runge-Kutta (RK) 4^th order method along with the shooting technique. The velocity, micro rotation in x and y directions, temperature, skin friction factor and heat transfer rates are examined for the emerging parameters. The velocity profiles and momentum boundary layer thickness intensification with increasing values of the vortex viscosity parameter. The higher value of a magnetic parameter declines the skin friction coefficient. This type of investigation may be profitable to the polymer fluids, exotic lubricants, electronic chips, artificial fibers, drawing of copper wires, etc.

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微极流体在旋转抛物线水平面上非定常三维MHD流动的热辐射效应

本文研究了辐射效应发生时三维可变拉伸表面上的时变磁流体力学微极流体流动。通过选取合适的自相似变量，将具有三个自变量的模型时变偏微分方程转化为常微分方程。该模型采用了同伦摄动法(HPM)和龙格-库塔(RK)四阶方法以及射击技术。并结合射击技术与龙格-库塔(RK)四阶方法进行了比较。速度，在x和y方向上的微旋转，温度，皮肤摩擦系数和传热率对新出现的参数进行了检查。速度分布和动量边界层厚度随旋涡黏度参数的增大而增强。磁性参数值越高，表面摩擦系数越低。这类研究对聚合物流体、特种润滑剂、电子芯片、人造纤维、铜线拉丝等领域具有重要的指导意义。

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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来源期刊

Propulsion and Power Research Multiple-

CiteScore

7.50

自引率

5.70%

发文量

期刊介绍： Propulsion and Power Research is a peer reviewed scientific journal in English established in 2012. The Journals publishes high quality original research articles and general reviews in fundamental research aspects of aeronautics/astronautics propulsion and power engineering, including, but not limited to, system, fluid mechanics, heat transfer, combustion, vibration and acoustics, solid mechanics and dynamics, control and so on. The journal serves as a platform for academic exchange by experts, scholars and researchers in these fields.