Numerical investigations of unconstrained melting of nano-enhanced phase change material (NEPCM) inside a spherical container

S. F. Hosseinizadeh; A. A. Rabienataj Darzi; F. L. Tan

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Numerical investigations of unconstrained melting of nano-enhanced phase change material (NEPCM) inside a spherical container

机译：球形容器内纳米增强相变材料（NEPCM）无约束熔化的数值研究

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This paper presents a numerical study of unconstrained melting of nano-enhanced phase change materials (NEPCM) inside a spherical container using RT27 and copper particles as base material and nano-particle, respectively. Numerical studies are performed for three different Stefan number and volume fraction of nano-particles with an initial sub-cooling of 6℃. Transient numerical simulations are performed for axi-symmetric melting inside a sphere. The simulation results show that the nano-particles cause an increase in thermal conductivity of NEPCM compared to conventional PCM. The enhancement in thermal conductivity with a decrease in latent heat results in higher melting rate of NEPCM.

机译：本文提供了一个数值研究，该研究分别使用RT27和铜粒子作为基础材料和纳米粒子，在球形容器内无约束地熔化纳米增强相变材料（NEPCM）。对初始温度为6℃的三种不同的Stefan数和纳米粒子的体积分数进行了数值研究。对球体内的轴对称熔化进行了瞬态数值模拟。仿真结果表明，与传统的PCM相比，纳米颗粒导致NEPCM的导热系数增加。导热系数的增加和潜热的减少导致NEPCM的熔融速率更高。

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《International Journal of Thermal Sciences》 |2012年第null期|共7页
作者
S. F. Hosseinizadeh; A. A. Rabienataj Darzi; F. L. Tan;
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正文语种 eng
中图分类热力工程、热机;
关键词
Unconstrained melting; NEPCM; Nano-particle; Phase change material; Melting inside sphere;

机译：无约束熔化NEPCM纳米粒子相变材料球内熔化;

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1. Numerical investigations of unconstrained melting of nano-enhanced phase change material (NEPCM) inside a spherical container [J] . S. F. Hosseinizadeh, A. A. Rabienataj Darzi, F. L. Tan International Journal of Thermal Sciences . 2012,第Null期

机译：球形容器内纳米增强相变材料（NEPCM）无约束熔化的数值研究
2. Unconstrained Melting Heat Transfer of Nano-Enhanced Phase-Change Materials in a Spherical Capsule for Latent Heat Storage: Effects of the Capsule Size [J] . Hu Nan, Zhu Zi-Qin, Li Zi-Rui, Journal of Heat Transfer . 2019,第7期

机译：潜热储存球形胶囊中纳米增强相变材料的无约束熔化传热：胶囊大小的影响
3. Unconstrained Melting Heat Transfer of Nano-Enhanced Phase-Change Materials in a Spherical Capsule for Latent Heat Storage: Effects of the Capsule Size [J] . Hu Nan, Zhu Zi-Qin, Li Zi-Rui, Journal of Heat Transfer . 2019,第7期

机译：纳米增强相变材料的无约束熔融传热在球形胶囊中进行潜热储存：胶囊尺寸的影响
4. AN EXPERIMENTAL STUDY OF INWARD SOLIDIFICATION OF NANO-ENHANCED PHASE CHANGE MATERIALS (NEPCM) INSIDE A SPHERICAL CAPSULE [C] . Min-Jie Liu, Zi-Qin Zhu, Li-Wu Fan, ASME heat transfer conference . 2016

机译：球形胶囊内纳米增强相变材料（NEPCM）向内凝固的实验研究
5. Numerical and Experimental Study of the Melting Process of a Phase Change Material in a Partially Filled Spherical Shell [D] . Xiong, Wen 2017

机译：部分填充球壳中相变材料熔化过程的数值和实验研究
6. Own-Synthetize Nanoparticles to Develop Nano-Enhanced Phase Change Materials (NEPCM) to Improve the Energy Efficiency in Buildings [O] . Camila Barreneche, Marc Martín, Jaume Calvo-de la Rosa, 2019

机译：自行合成的纳米粒子以开发纳米增强相变材料（NEPCM）以提高建筑物的能源效率
7. Simulation of melting of a nano-enhanced phase change material (NePCM) in a square cavity with two heat source–sink pairs [O] . Aziz Ebrahimi, Abdolrahman Dadvand 2015

机译：模拟纳米增强相变材料（NepCm）在具有两个热源 - 汇对的方形腔中的熔化

Numerical investigations of unconstrained melting of nano-enhanced phase change material (NEPCM) inside a spherical container

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