A REVIEW OF MODELLING APPROACHES FOR FLOW AND HEAT TRANSFER IN NANOFLUIDS

Advances in Fluid Mechanics XII Pub Date : 2018-07-10 DOI:10.2495/AFM180021
J. Ravnik, J. Tibaut
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Abstract

When designing devices in the field of process, power and heat engineering the choice of the fluid that transports heat, mass and momentum is crucial. The thermal properties of such a fluid defines the efficiency of the device. Since the thermal properties of the standard heat transfer fluids, such as water or oil, are not optimal, nanofluids were introduced. A nanofluid is a term describing a dilute dispersion of particles in a fluid. The diameter of particles is in the order of ten nanometres. The particles are made of metal oxides, which enhance the thermal properties of the suspension. In this paper we will present the current trends in nanofluid modelling – from the effective properties approach, an approach that features additional equation for nanofluid concentration – to Euler–Lagrange type approaches.
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纳米流体流动和传热建模方法综述
在过程、动力和热力工程领域设计设备时,传递热量、质量和动量的流体的选择是至关重要的。这种流体的热性质决定了装置的效率。由于标准传热流体(如水或油)的热性能不是最佳的,因此引入了纳米流体。纳米流体是描述流体中粒子的稀释分散的术语。粒子的直径约为十纳米。这些颗粒是由金属氧化物制成的,可以增强悬浮液的热性能。在本文中,我们将介绍纳米流体建模的当前趋势-从有效性质方法,一种具有纳米流体浓度附加方程的方法-到欧拉-拉格朗日型方法。
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Advances in Fluid Mechanics XII
Advances in Fluid Mechanics XII
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