EXPERIMENTAL CONVECTIVE HEAT TRANSFER WITH NANOFLUIDS

机译：纳米流体的对流换热实验

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Nanofluids are colloidal suspensions with nano-sized particles (<100nm) dispersed in a base fluid. From literature it is seen that these fluids exhibit better heat transfer characteristics. In our present work, thermal conductivity and the forced convective heat transfer coefficient of an alumina-water nanofluid is investigated. Thermal conductivity is measured by a steady state method using a Guarded Hot Plate apparatus customized for liquids. Forced convective heat transfer characteristics are evaluated with help of a test loop under constant heat flux condition. Controlled experiments under turbulent flow regime are carried out using two particle concentrations (0.5vol% and 1vol %). Experimental results show that, thermal conductivity of nanofluids increases with concentration, but the heat transfer coefficient in the turbulent regime does not exhibit any remarkable increase above measurement uncertainty.

机译：纳米流体是具有分散在基础流体中的纳米级颗粒（<100nm）的胶体悬浮液。从文献中可以看出，这些流体表现出更好的传热特性。在我们目前的工作中，研究了氧化铝-水纳米流体的导热系数和强制对流换热系数。使用为液体量身定制的Guarded Hot Plate设备通过稳态方法测量热导率。在恒定热通量条件下，借助测试回路评估强制对流换热特性。使用两种浓度的颗粒（0.5vol％和1vol％）在湍流条件下进行了对照实验。实验结果表明，纳米流体的热导率随浓度的增加而增加，但在湍流状态下的传热系数在测量不确定度以上并没有表现出明显的增加。

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来源
《6th international conference on nanochannels, microchannels and minichannels 2008》|2008年|1035-1041|共7页
会议地点 Darmstadt(DE);Darmstadt(DE)
作者
S. Kabelac; K.B. Anoop;
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作者单位

Institute for Thermodynamics, Helmut Schmidt University, Germany;

Dept of Mech Engg. Indian Institute of Technology Madras, India;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
c_p: specific heat J/kgK; D: diameter of the tube m; k: thermal conductivity W/m K; Nu: Nusselt number; q": heat flux W/m~2;

机译：c_p：比热[J / kgK]； D：管子的直径[m]； k：导热系数[W / m K]； Nu：努塞尔特数； q“：热通量[W / m〜2];

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EXPERIMENTAL CONVECTIVE HEAT TRANSFER WITH NANOFLUIDS

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