Enhancement of Energy Recovery in a Phase Change Energy Storage Module with Embedded Radiation Absorbing Particles

Journal of Clean Energy Technologies Pub Date : 2020-07-01 DOI:10.18178/jocet.2020.8.3.521
Marwan Belaed, M. M. Rahman
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Abstract

 Abstract —The present study investigated combined enhancement of heat conduction and thermal radiation in a finned cylinder during the solidification (energy recovery) of a non-gray, non-opaque phase change material. Transient heat transfer in a symmetric, two-dimensional design is considered. The radiative transport equation is solved by using the Discrete Ordinate Method (DOM) while Finite Volume Method is used to discretize and solve equations for the conservation of mass, momentum, and energy. It was found that energy recovery time can be reduced by 74% by controlling the optical thickness property of the PCM with embedded radiation absorbing
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嵌入辐射吸收粒子增强相变储能模块的能量回收
摘要-本研究研究了非灰色、非不透明相变材料在翅片圆柱体中凝固(能量回收)过程中热传导和热辐射的联合增强。考虑了对称二维设计中的瞬态传热。采用离散坐标法求解辐射输运方程,采用有限体积法离散求解质量、动量和能量守恒方程。研究发现,通过控制内嵌式吸波介质的光学厚度特性,可使能量回收时间缩短74%
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Journal of Clean Energy Technologies
Journal of Clean Energy Technologies
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