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Numerical Analysis of Fluid Flow and Heat Transfer During Melting Inside a Cylindrical Container for Thermal Energy Storage System

机译：热能储存系统圆柱形容器内熔化过程中流体流动和传热的数值分析

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This paper presents a numerical analysis of unconstrained melting of high temperature (>1000K) phase change material (PCM) inside a cylindrical container. Sodium chloride and Silicon carbide have been used as phase change material and shell of the capsule respectively. The control volume discretization approach has been used to solve the conservation equations of mass, momentum and energy. The enthalpy-porosity method has been used to track the solid-liquid interface of the PCM during melting process. Transient numerical simulations have been performed in order to study the influence of radius of the capsule and the Stefan number on the heat transfer rate. The simulation results show that the counter-clockwise Buoyancy driven convection over the top part of the solid PCM enhances the melting rate quite faster than the bottom part.

机译：本文介绍了圆柱形容器内的高温（> 1000K）相变材料（PCM）的无约束熔化的数值分析。分别用作氯化钠和碳化硅作为胶囊的相变材料和壳。控制体积离散化方法已用于解决质量，动量和能量的保护方程。焓 - 孔隙度法已用于熔化过程中PCM的固液界面。已经进行了瞬态数值模拟，以研究胶囊半径和斯特凡数对传热速率的影响。仿真结果表明，实心PCM顶部上的逆时针浮力驱动对流比底部更快地增强了熔融速率。

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《International Conference on Concentrating Solar Power and Chemical Energy Systems 》|2017年|various paging|共8页
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Selvan Bellan; Cho Hyun Cheok; Nobuyuki Gokon; Koji Matsubara; Tatsuya Kodama;
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中图分类计量学 ;
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4. Numerical Analysis of Fluid Flow and Heat Transfer During Melting Inside a Cylindrical Container for Thermal Energy Storage System [C] . Selvan Bellan, Cho Hyun Cheok, Nobuyuki Gokon, International Conference on Concentrating Solar Power and Chemical Energy Systems . 2017

机译：热能储存系统圆柱形容器内熔化过程中流体流动和传热的数值分析
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Numerical Analysis of Fluid Flow and Heat Transfer During Melting Inside a Cylindrical Container for Thermal Energy Storage System

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