Rayleigh–Bénard instability in nanofluids: a comprehensive review

IF 4.7 Q2 NANOSCIENCE & NANOTECHNOLOGY
Jyoti Ahuja, Jyoti Sharma
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引用次数: 18

Abstract

The extraordinary enhancement in heat transfer efficiency of nanofluids at extremely low volume fractions has attracted a lot of attention in identifying the governing mechanisms. The nanoscale effects, Brownian motion (random motion of particles inside the base fluid) and thermophoresis (diffusion of particles due to temperature gradient) are found to be important slip mechanisms in nanofluids. Based on these findings, a set of partial differential equations for conservation laws for nanofluids was formed. Since then, a large number of mathematical studies on convective heat transfer in nanofluids became feasible. The present paper summarizes the studies pertaining to instability of a horizontal nanofluid layer under the impact of various parameters such as rotation, magnetic field, Hall currents and LTNE effects in both porous and non-porous medium. Initially, investigations were made using the model considering fixed initial and boundary conditions on the layer, gradually the model was revised in the light of more practical boundary conditions and recently it has been modified to get new and more interesting results. The exhaustive analysis of instability problems is presented in the paper and prospects for future research are also identified.

Abstract Image

纳米流体中的瑞利-巴姆纳德不稳定性:综合综述
纳米流体在极低体积分数下传热效率的显著提高引起了人们对其控制机制的关注。纳米尺度效应、布朗运动(粒子在基流体内部的随机运动)和热泳动(粒子由于温度梯度而扩散)是纳米流体中重要的滑动机制。在此基础上,建立了纳米流体守恒定律的偏微分方程。自此,对纳米流体中对流换热的大量数学研究成为可能。本文综述了在多孔和非多孔介质中,受旋转、磁场、霍尔电流和LTNE效应等参数影响的水平纳米流体层的不稳定性研究。最初,使用考虑层上固定初始条件和边界条件的模型进行研究,逐渐根据更实际的边界条件对模型进行修改,最近又进行了修改,得到了新的更有趣的结果。本文对不稳定性问题进行了详尽的分析,并对今后的研究进行了展望。
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
Micro and Nano Systems Letters
Micro and Nano Systems Letters Engineering-Biomedical Engineering
CiteScore
10.60
自引率
5.60%
发文量
16
审稿时长
13 weeks
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