Experimental Study of Thermal Energy Storage Characteristics using Heat Pipe with Nano-Enhanced Phase Change Materials

机译：用纳米增强相变材料热管热能储存特性的实验研究

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The paper presents experimental investigations to evaluate thermal performance of heat pipe using Nano Enhanced Phase Change Material (NEPCM) as an energy storage material (ESM) for electronic cooling applications. Water, Tricosane and nano enhanced Tricosane are used as energy storage materials, operating at different heating powers (13W, 18W and 23W) and fan speeds (3.4V and 5V) in the PCM cooling module. Three different volume percentages (0.5%, 1% and 2%) of Nano particles (Al2O3) are mixed with Tricosane which is the primary PCM. This experiment is conducted to study the temperature distributions of evaporator, condenser and PCM during the heating as well as cooling. The cooling module with heat pipe and nano enhanced Tricosane as energy storage material found to save higher fan power consumption compared to the cooling module that utilities only a heat pipe.

机译：本文介绍了使用纳米增强相变材料（NEPCM）作为电子冷却应用的储能材料（ESM）来评估热管的热性能。水，三胞烷和纳米增强三角甾烷用作储能材料，在PCM冷却模块中以不同的加热功率（13W，18W和23W）和风扇速度（3.4V和5V）操作。三种不同的体积百分比（0.5％，1％和2％）的纳米颗粒（Al 2 O 3）与作为初级PCM的三骨混合。进行该实验，以研究加热过程中蒸发器，冷凝器和PCM的温度分布以及冷却。具有热管和纳米增强的三角烷作为储能材料的冷却模块，发现与冷却模块相比，公用管的冷却模块相比，可以节省更高的风扇功耗。

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《International Conference on Materials, Alloys and Experimental Mechanics》|2017年|797 p.|共8页
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Jogi Krishna; P.S. Kishore; A. Brusly Solomon;
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中图分类工程材料学;
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Experimental Study of Thermal Energy Storage Characteristics using Heat Pipe with Nano-Enhanced Phase Change Materials

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