THERMAL CONDUCTIVITY ENHANCEMENT OF ROOM TEMPERATURE IONIC LIQUIDS (RTILS) WITH VARIOUS MAGNETIC NANOPARTICLES

机译：带有各种磁性纳米粒子的室温离子液体（RTIS）的热导率增强

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This paper reports an experimental study of thermal conductivity of room temperature ionic liquids (RTILs) based magnetic nanofluids. Various magnetic nanoparticles of metal oxides with high thermal conductivity, such as CuO, AI_2O_3, Fe_3O_4 and Carbon Nano Tubes (CNTs), were used to prepare magnetic nanofluids, while RTIL, trihexyl (tetradecyl) posphonium dicyanamide was used as the base fluid. Two major parameters that affect to the thermal conductivity enhancement of fluids were investigated. The effect of particle concentration and external magnetic fields were tested. It was observed that the magnetic nanofluids thermal conductivities increase with increment of particle concentration and external magnetic field parallel to the temperature gradient. Besides, it was observed that under higher magnetic fields, thermal conductivity enhancement tends to approach a saturation state. Surfactant was used to disperse magnetic nanoparticles within the RTILs. The transient hot wire method was used for this investigation.

机译：本文报道了基于室温离子液体（RTILs）的磁性纳米流体的热导率的实验研究。各种具有高热导率的金属氧化物的磁性纳米粒子，例如CuO，Al_2O_3，Fe_3O_4和碳纳米管（CNT），均用于制备磁性纳米流体，而RTIL，三己基（十四烷基）正膦二氰胺用作基础液。研究了影响流体导热系数提高的两个主要参数。测试了颗粒浓度和外部磁场的影响。观察到，磁性纳米流体的热导率随颗粒浓度和与温度梯度平行的外部磁场的增加而增加。此外，观察到在更高的磁场下，热导率增强趋于接近饱和状态。表面活性剂用于将磁性纳米颗粒分散在RTIL中。瞬态热线法用于该研究。

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《Proceedings of the ASME microanoscale heat and mass transfer international conference 2012 : Microanofluidics and Lab-on-a-chip ....》|2012年|p.213-217|共5页
会议地点 Atlanta GA(US);Atlanta GA(US)
作者
N. Y. Jagath B. Nikapitiya; Hyejin Moon;
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The University of Texas at Arlington Arlington, Texas, USA;

The University of Texas at Arlington Arlington, Texas, USA;

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正文语种 eng
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4. THERMAL CONDUCTIVITY ENHANCEMENT OF ROOM TEMPERATURE IONIC LIQUIDS (RTILS) WITH VARIOUS MAGNETIC NANOPARTICLES [C] . N. Y. Jagath B. Nikapitiya, Hyejin Moon ASME micro/nanoscale heat and mass transfer international conference . 2012

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THERMAL CONDUCTIVITY ENHANCEMENT OF ROOM TEMPERATURE IONIC LIQUIDS (RTILS) WITH VARIOUS MAGNETIC NANOPARTICLES

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