Method comparison and measurement accuracy of thermal conductivity for several nanofluids

机译：几种纳米流体的导热系数的方法比较和测量精度

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Nanofluid is a promising candidate to become the working fluid of pulsating heat pipes, the physical properties should be known before application. Several methods of measuring thermal conductivity of liquid are compared, especially for the single and double transient hot-wire methods. The obtained thermal conductivities by single Φ50μm and Φ20μm wire are close to those by double Φ50μm wire. The suspension characteristics of nanofluids are visualized. The evenly suspending state could be achieved in TiO2/H2O nanofluid by ultrasonic and pH value adjustment, however it is less effective for CuO/H2O nanofluids. Also, the measurement setup is established and the thermal conductivities of four kinds of nanofluids are measured. The results show that the thermal conductivity will increase remarkably with the particle ratio for good suspension nanofluids TiO2/H2O. The measurement error could be less 3%.

机译：纳米流体是一个有希望的候选者，成为脉动热管的工作流体，在施用之前应该知道物理性质。比较了测量液体导热率的几种方法，特别是对于单个和双瞬态热线方法。通过单φ50μm和φ20μm丝通过双φ50μm线靠近那些所获得的热导体。纳米流体的悬浮特性是可视化的。通过超声波和pH值调节，可以在TiO 2 / H 2 O纳米流体中实现均匀的悬浮状态，但对于CuO / H 2 O纳米流体而言，它较低。而且，确定测量设置，测量四种纳米流体的热导体。结果表明，热导率随着良好悬浮型纳米流体TiO2 / H2O的粒子比率显着增加。测量误差可能少3％。

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《Proceedings of the 2010 5th IEEE International Conference on Nano/Micro Engineered and Molecular Systems》|2010年|P.492-496|共5页
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Qu Wei; Feng Jianchao;
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中图分类特种结构材料;
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measurement error; nanlfluid; particle ratio; suspension characteristics; thermal conductivity;

机译：测量误差纳米流体颗粒比悬浮特性导热系数;

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Method comparison and measurement accuracy of thermal conductivity for several nanofluids

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