具有磁场依赖粘度的磁性纳米流体饱和多孔介质中的热磁对流

Q4 Engineering

International Journal of Nanoparticles Pub Date : 2019-09-27 DOI:10.1504/ijnp.2019.10024298

A. Mahajan, M. Sharma

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引用次数: 2

摘要

在本文中，针对磁性纳米流体（或铁磁流体）饱和多孔层的水平层，研究了磁场相关（MFD）粘度对热磁对流开始的影响。考虑了布朗扩散、热泳、磁泳和达西定律的影响。我们采用Chebyshev伪光谱QZ方法来求解所建立的数学模型，并导出了水基和酯基磁性纳米流体的结果。分析了重力和微重力环境中对流开始时重要参数的影响。图解说明了MFD粘度、渗透率参数、流体层宽度、Lewis数、Langevin参数、颗粒浓度和热磁对流开始时的浓度Rayleigh数的影响。

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Thermomagnetic convection in a layer of magnetic nanofluid saturating porous medium with magnetic field dependent viscosity

In this paper, the effect of magnetic field dependent (MFD) viscosity on the onset of thermomagnetic convection is examined for a horizontal layer of magnetic nanofluid (or ferrofluid) saturated porous layer. A model that comprises the effect of Brownian diffusion, thermophoresis, magnetophoresis, and Darcy's law is considered. We employed the Chebyshev pseudospectral QZ-method to solve the developed mathematical model and the results are derived for water-based and ester-based magnetic nanofluids. The effects of significant parameters are analysed at the onset of convection in the gravity as well as in the microgravity environment. The influence of MFD viscosity, permeability parameter, the width of the fluid layer, Lewis number, Langevin parameter, particle concentration, and the concentration Rayleigh number at the onset of thermomagnetic convection are graphically illustrated.

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来源期刊

International Journal of Nanoparticles Engineering-Mechanical Engineering

CiteScore

1.60

自引率

0.00%

发文量