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纳米流体中界面层的热物理性质。

Thermophysical properties of interfacial layer in nanofluids.

作者信息

Lee Donggeun

机构信息

School of Mechanical Engineering, RIMT, Pusan National University, 30 Jangjeon-dong, Geumjeong-gu, Busan 609-735, Korea.

出版信息

Langmuir. 2007 May 22;23(11):6011-8. doi: 10.1021/la063094k. Epub 2007 Apr 19.

Abstract

Although recent experiments have revealed that nanofluids have superior thermal conductivities to base fluids, the inherent physics are not fully understood. In this study, an interfacial layer, competing with Brownian motion as a corresponding mechanism, is conceptually connected with the surface-charge-induced electrical double layer. By applying colloidal science, the first explicit equations for the thickness and thermal conductivity of the layer are obtained. A fractal model including the new concept of the layer is developed. The model predictions are compared with experimental data for effects of pH, temperature, volume fraction, and primary particle size of CuO-water nanofluids.

摘要

尽管最近的实验表明,纳米流体的热导率优于基础流体,但其内在物理机制尚未完全理解。在本研究中,作为一种相应机制与布朗运动相竞争的界面层,在概念上与表面电荷诱导的双电层相关联。通过应用胶体科学,获得了该层厚度和热导率的首个明确方程。开发了一个包含该层新概念的分形模型。将模型预测结果与关于pH值、温度、体积分数和氧化铜-水纳米流体初级粒径影响的实验数据进行了比较。

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