Analytical analysis of water and engine oil base nanofluid flow with the influence of viscous dissipation and variable viscosity on stretching surface

Ali Rehman, Ma Chau Khun, Mustafa Inc, Lakhdar Ragoub, Shahram Rezapour, Taseer Muhammad
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Abstract

In this study, we will look at the analytical characterization of water and motor oil‐based nanofluid flow and the effects of viscous dissipation and variable viscosity on stretching surfaces. The primary goal of this research is to improve heat transfer efficiency in a range of systems, including cooling applications, refrigeration systems, and heat exchangers. The addition of nanoparticles to the base fluid increases its thermal conductivity, which boosts heat transfer rates. The flow system considers the impact of viscous dissipation. In addition, this methodology accounts for temperature and velocity slips during stretching. We utilized the proper transformations to convert a set of PDEs to NLODEs. To solve this system of equations, we use hybrid nanofluid. The impact of different parameters obtained from temperature and velocity equations involving the porosity parameter, power law number, ratio velocity, dynamic viscosity, Forchheimer parameter, and Eckert number input factors are shown in the form of graphs.
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拉伸表面粘性耗散和可变粘性影响下的水和发动机油基纳米流体流动分析
在本研究中,我们将探讨水和机油基纳米流体流动的分析特性,以及粘性耗散和可变粘度对拉伸表面的影响。这项研究的主要目标是提高一系列系统的传热效率,包括冷却应用、制冷系统和热交换器。在基础流体中添加纳米粒子可提高其热传导率,从而提高传热率。流动系统考虑了粘性耗散的影响。此外,该方法还考虑了拉伸过程中的温度和速度滑移。我们利用适当的变换将一组 PDE 转换为 NLODE。为了求解这个方程组,我们使用了混合纳米流体。从温度和速度方程中获得的不同参数,包括孔隙度参数、幂律数、速度比、动态粘度、福克海默参数和埃克特数输入因子的影响,以图表的形式显示出来。
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