Operational Time and Melt Fraction Based Optimization of a Phase Change Material Longitudinal Fin Heat Sink

Krishna D. Jaya

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Operational Time and Melt Fraction Based Optimization of a Phase Change Material Longitudinal Fin Heat Sink

机译：基于操作的时间和熔融馏分的相变材料纵向翅片散热器的优化

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In the present study, the numerical investigation has been performed for a phase change material (PCM)-based longitudinal fin heat sink. The fins are taken as an integral part of the heat sink and are made up of aluminum. The PCM considered in the study is RT44HC. Heat is transferred to the heat sink through its horizontal base. In order to simulate the melting behavior of the PCM, volume of fluid model has been used. To attain the best configuration with optimum operational time, Taguchi method has been used followed by analysis of melt fraction and maximum base temperature. The optimized heat sink configuration with maximum operational time has been obtained at the critical temperatures of 54.8 degrees C, 63 degrees C, and 72.6 degrees C.

机译：在本研究中，已经为基于相变材料（PCM）的纵向翅片散热器进行了数值研究。翅片作为散热器的组成部分，由铝制成组成。在研究中考虑的PCM是RT44HC。通过其水平底座将热量转移到散热器。为了模拟PCM的熔化行为，已经使用了流体模型的体积。为了实现具有最佳运行时间的最佳配置，已经使用了Taguchi方法，然后分析了熔体分数和最大基础温度。具有最大运行时间的优化散热器配置在54.8℃，63摄氏度和72.6摄氏度的临界温度下获得。

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《Journal of Thermal Science and Engineering Applications: Transactions of the ASME》 |2018年第6期|共4页
作者
Krishna D. Jaya;
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作者单位

Natl Inst Technol Dept Mech Engn Warangal 506004 Andhra Pradesh India;

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原文格式 PDF
正文语种 eng
中图分类热力工程、热机;
关键词
thermal management; longitudinal fin; heat sink; phase change material; optimization; Taguchi method;

机译：热管理;纵向鳍;散热器;相变材料;优化;Taguchi方法;

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专利

1. Operational Time and Melt Fraction Based Optimization of a Phase Change Material Longitudinal Fin Heat Sink [J] . Krishna D. Jaya Journal of Thermal Science and Engineering Applications: Transactions of the ASME . 2018,第6期

机译：基于操作的时间和熔融馏分的相变材料纵向翅片散热器的优化
2. Genetic Algorithm Based Optimization of PCM Based Heat Sinks and Effect of Heat Sink Parameters on Operational Time [J] . Atul Nagose, Ankit Somani, Aviral Shrot, Journal of Heat Transfer . 2008,第1期

机译：基于遗传算法的基于PCM的散热器优化及散热器参数对运行时间的影响
3. Effect of the time-dependent volumetric heat flux on heat transfer performance inside a heat sink based on the phase change materials [J] . Nadezhda S. Bondareva, Mikhail A. Sheremet Clean technologies and environmental policy . 2021,第4期

机译：时间依赖性容积热通量对基于相变材料的散热器内部传热性能的影响
4. Numerical studies on heating performance of phase change material based heat sink with internal fin [C] . Shameer K., Binulal B R International Conference on Energy Efficient Technologies for Sustainability . 2016

机译：内翅片相变材料散热器散热性能的数值研究
5. Optimization of Phase Change Material (PCM)-Based Heat Sink for Electronics Cooling Application [D] . Taremi, Nahal. 2017

机译：电子冷却应用中基于相变材料（PCM）的散热器的优化
6. Indoor Solar Thermal Energy Saving Time with Phase Change Material in a Horizontal Shell and Finned-Tube Heat Exchanger [O] . S. Paria, A. A. D. Sarhan, M. S. Goodarzi, 2015

机译：在卧式壳体和翅片管式热交换器中使用相变材料来节省室内太阳能热时间
7. Flow and Heat Transfer in Micro Pin Fin Heat Sinks With Nano-Encapsulated Phase Change Materials [O] . Bahram Rajabifar, Hamid Reza Seyf, Yuwen Zhang, 2016

机译：微销翅片散热器的流动和传热与纳米封装相变材料

Operational Time and Melt Fraction Based Optimization of a Phase Change Material Longitudinal Fin Heat Sink

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