On the Microscopic Flow Characteristics of Nanofluids by Molecular Dynamics Simulation on Couette Flow

The Open Fuels & Energy Science Journal Pub Date : 2012-04-19 DOI:10.2174/1876973X01205010021

W. Cui, Min-li Bai, Jizu Lv, X. Li

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引用次数: 16

Abstract

Adding a small amount of nanoparticles to conventional fluids (nanofluids) has been proved to be an effective way for improving capability of heat transferring in base fluids. The change in micro structure of base fluids and micro motion of nanoparticles may be key factors for heat transfer enhancement of nanofluids. Therefore, it is essential to examine these mechanisms on microscopic level. The present work performed a Molecular Dynamics simulation on Couette flow of nanofluids and investigated the microscopic flow characteristics through visual observation and statistic analysis. It was found that the even-distributed liquid argon atoms near solid surfaces of nanoparticles could be seemed as a reform to base liquid and had contributed to heat transfer enhancement. In the process of Couette flow, nanoparticles moved quickly in the shear direction accompanying with motions of rotation and vibration in the other two directions. When the shearing velocity was increased, the motions of nanoparticles were strengthened significantly. The motions of nanoparticles could disturb the continuity of fluid and strengthen partial flowing around nanoparticles, and further enhanced heat transferring in nanofluids.

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基于Couette流分子动力学模拟的纳米流体微观流动特性研究

在常规流体(纳米流体)中加入少量纳米颗粒已被证明是提高基流体传热能力的有效途径。基液微观结构的变化和纳米颗粒的微运动可能是纳米流体强化传热的关键因素。因此，有必要在微观水平上研究这些机制。本文对纳米流体的couette流动进行了分子动力学模拟，并通过目视观察和统计分析研究了纳米流体的微观流动特征。研究发现，纳米颗粒固体表面附近均匀分布的液态氩原子似乎是基液的一种转化，有助于强化传热。在Couette流动过程中，纳米颗粒在剪切方向上快速移动，同时在其他两个方向上进行旋转和振动运动。随着剪切速度的增加，纳米颗粒的运动明显增强。纳米颗粒的运动扰乱了流体的连续性，增强了纳米颗粒周围的局部流动，进一步增强了纳米流体的传热。

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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The Open Fuels & Energy Science Journal

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