Comments on the effect of liquid layering on the thermal conductivity of nanofluids

Elham Doroodchi; Thomas Michael Evans; Behdad Moghtaderi

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Comments on the effect of liquid layering on the thermal conductivity of nanofluids

机译：评论液体分层对纳米流体导热性的影响

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This article provides critical examinations of two mathematical models that have been developed in recent years to describe the impact of nano-layering on the enhancement of the effective thermal conductivity of nanofluids. Discrepancy between the two models is found to be an artefact of an incorrect derivation used in one of the models. With correct formulation, both models predict effective thermal conductivity enhancements that are not significantly greater than those predicted by classical Maxwell theory. This study indicates that nano-layering by itself is unable to account for the effective thermal conductivity enhancements observed in nanofluids.

机译：本文对近年来开发的两个数学模型进行了严格的检查，这些模型描述了纳米层对增强纳米流体有效导热率的影响。发现两个模型之间的差异是其中一个模型中使用的不正确推导的伪影。如果采用正确的公式，这两个模型都可以预测有效的热导率增加，但不会明显大于经典麦克斯韦理论所预测的。这项研究表明，纳米层本身不能解决纳米流体中观察到的有效导热率提高问题。

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来源
《Journal of Nanoparticle Research》 |2009年第6期|1501-1507|共7页
作者
Elham Doroodchi; Thomas Michael Evans; Behdad Moghtaderi;
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作者单位

Centre for Advanced Particle Processing Chemical Engineering Faculty of Engineering ampamp Built Environment The University of Newcastle Callaghan NSW 2308 Australia;

Faculty of Science The Australian National University Canberra ACT Australia;

Centre for Energy Chemical Engineering Faculty of Engineering ampamp Built Environment The University of Newcastle Callaghan NSW 2308 Australia;

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正文语种 eng
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关键词
Nanofluids; Thermal conductivity; Conductivity enhancement; Fluid layering; Nanoparticles; Modeling and simulation;

机译：纳米流体;导热系数;电导率增强;流体分层;纳米颗粒;建模与仿真;

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专利

1. A response to 'Comments on the effect of liquid layering on the thermal conductivity of nanofluids', E. Doroodchi, T. M. Evans & B. Moghtaderi, 2009. J Nanopart Res 11(6):1501-1507 [J] . Murshed S.M.S., Leong K.C., Yang C. Journal of nanoparticle research: An interdisciplinary forum for nanoscale science and technology . 2010,第6期

机译：对“关于液体分层对纳米流体导热性的影响的评论”的回应，E。Doroodchi，T。M. Evans和B. Moghtaderi，2009年。JNanopart Res 11（6）：1501-1507
2. Comments on the effect of liquid layering on the thermal conductivity of nanofluids [J] . Doroodchi E, Evans TM, Moghtaderi B Journal of nanoparticle research: An interdisciplinary forum for nanoscale science and technology . 2009,第6期

机译：评论液体分层对纳米流体导热系数的影响
3. Liquid-layering induced, temperature-dependent thermal conductivity enhancement in ZnO-propylene glycol nanofluids [J] . Suganthi K.S., Parthasarathy M., Rajan K.S. Chemical Physics Letters . 2013,第Null期

机译：ZnO-丙二醇纳米流体中液层诱导的温度依赖性导热系数的提高
4. LIQUID LAYERING AND THE ENHANCED THERMAL CONDUCTIVITY OF Ar-Cu NANOFLUIDS: A MOLECULAR DYNAMICS STUDY [C] . Jithu Paul, A. K. Madhu, U. B. Jayadeep, ASME heat transfer conference . 2016

机译：Ar-Cu纳米流体的液体分层和增强的热导率：分子动力学研究
5. Reacting Magnetohydrodynamic (MHD) Flow of Nanofluids with Variable Thermal Conductivity and Viscosity in Presence of Thermal Radiation [D] . Jimoh, Muinat Oluwatosin. 2021

机译：在热辐射存在下使纳米流体（MHD）纳米流体的磁性动力学（MHD）流动反应
6. A Novel Method to Determine the Thermal Conductivity of Interfacial Layers Surrounding the Nanoparticles of a Nanofluid [O] . Rajinder Pal 2014

机译：确定围绕纳米流体纳米粒子的界面层导热系数的新方法
7. Effect of interfacial thermal resistance and nanolayer on estimates of effective thermal conductivity of nanofluids [O] . Ali Khodayari, Matteo Fasano, Masoud Bozorg Bigdeli, 2018

机译：界面热阻和纳米层对纳米流体有效导热率估计的影响
8. Effect of Sonication Time and Particle Volume Fraction on Thermal Conductivity of Alumina Nanofluids. [R] . Jeyashekar, N. S. 2014

机译：超声时间和颗粒体积分数对氧化铝纳米流体导热系数的影响。

Comments on the effect of liquid layering on the thermal conductivity of nanofluids

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