Heat transfer analysis of Radiative-Marangoni Convective flow in nanofluid comprising Lorentz forces and porosity effects

I. Zari, T. Gul, K. Dosmagulova, T. Khan, Safia Haq
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引用次数: 2

Abstract

The present work investigates the impacts of the Lorentz forces, porosity factor, viscous dissipation and radiation in thermo-Marangoni convective flow of a nanofluids (comprising two distinct kinds of carbon nanotubes ($CNT_{s}$)), in water ($H_{2}O$). Heat transportation developed by Marangoni forces happens regularly in microgravity situations, heat pipes, and in crystal growth. Therefore, Marangoni convection is considered in the flow model. A nonlinear system is constructed utilizing these assumptions which further converted to ordinary differential equations (ODEs) by accurate similarity transformations. The homotopic scheme is utilized to compute the exact solution for the proposed system. The study reveals that higher estimations of Hartmann number and Marangoni parameter speed up the fluid velocity while the opposite behavior is noted for porosity factor. Further, the rate of heat transfer shows upward trend for the Hartmann number, Marangoni parameter, nanoparticle solid volume fraction, radiation parameter whereas a downward trend is followed by the Brinkman number and porosity factor. It is fascinating to take observe that contemporary analytical outcomes validate the superb convergence with previous investigation.
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包含洛伦兹力和孔隙率效应的纳米流体辐射-马兰戈尼对流换热分析
本文研究了洛伦兹力、孔隙因子、粘性耗散和辐射对含两种不同碳纳米管($CNT_{s}$)的纳米流体在水($H_{2}O$)中的热-马兰戈尼对流流动的影响。由马兰戈尼力产生的热传递在微重力、热管和晶体生长中有规律地发生。因此,在流动模型中考虑了马兰戈尼对流。利用这些假设构造了一个非线性系统,并通过精确的相似变换将其转化为常微分方程。利用同伦格式计算系统的精确解。研究表明,Hartmann数和Marangoni参数值越高,流体速度越快,而孔隙度系数越高,流体速度越快。Hartmann数、Marangoni参数、纳米颗粒固体体积分数、辐射参数的传热速率呈上升趋势,而Brinkman数和孔隙率因子的传热速率呈下降趋势。观察到当代分析结果验证了与先前调查的卓越收敛,这是令人着迷的。
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