Magnetohydrodynamic radiative nanofluid flow over a rotating surface with Soret effect

IF 1.9 4区材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Multidiscipline Modeling in Materials and Structures Pub Date : 2017-12-19 DOI:10.1108/MMMS-05-2017-0042

C. Sulochana, S. Samrat, N. Sandeep

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引用次数: 15

Abstract

Purpose The purpose of this paper is to theoretically investigate the boundary layer nature of magnetohydrodynamic nanofluid flow past a vertical expanding surface in a rotating geometry with viscous dissipation, thermal radiation, Soret effect and chemical reaction. Design/methodology/approach The self-similarity variables are deliberated to transmute the elementary governing equations. The analytical perturbation technique is used to elaborate the united nonlinear ODEs. Findings To check the disparity on the boundary layer nature, the authors measured two nanofluids, namely, Cu-water and Cu-Kerosene based nanofluids. It is found that the Cu-water is effectively enhancing the thermal conductivity of the flow when compared with the Cu-kerosene. Originality/value Till now no analytical studies are reported on heat transfer enhancement of the rotating nanofluid flow by considering two different base fluids.

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具有Soret效应的旋转表面上的磁流体动力学辐射纳米流体流动

目的从理论上研究磁流体动力纳米流体在旋转几何形状下流过垂直膨胀表面时的边界层性质，包括粘性耗散、热辐射、索雷特效应和化学反应。设计/方法/途径考虑自相似变量来改变初等控制方程。采用解析摄动技术对统一的非线性微分方程进行了阐述。为了检查边界层性质的差异，作者测量了两种纳米流体，即cu -水基纳米流体和cu -煤油基纳米流体。结果表明，与cu -煤油相比，cu -水有效地提高了流体的导热性。独创性/价值考虑两种不同基液对旋转纳米流体传热增强的分析研究至今尚未见报道。

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