可再生能源2017,Vol.35Issue(9):1310-1317,8.
一种太阳能储能装置的模拟计算与实验分析
Simulation and experimental analysis of a solar energy storage device
摘要
Abstract
In this paper a novel solar energy storage device is proposed by use of solar phase change energy storage technology, and then the experimental test bed is set up. Finally a brief annlysis, the structure and working principle of the device is explained. The integration design of solar collector has excellent exothermic and endothermic performance, which makes the coefficient of heat conductivity to be enhanced and the storage space reduced. The experiment results also show that the heat storage time is 307 minutes while total heat storage is 10.64 MJ. The exothermic duration is 60 minutes and total hot water discharge capacity is 132 L. The quantity of discharge thermal energy is 8.43 MJ. The efficiency of the device is 64.7% on the condition that the flow rate of water is 2.2 L/min and the inlet temperature is 33.2 ℃. It has certain value that ANSYS simulation and the related experimental verification phase change energy storage unit internal temperature of the material and the interlayer temperature change on the design of the integrated collector.关键词
相变储能/一体化/ANSYS/实验Key words
phase change energy storage/integration/ANSYS/experiment分类
能源科技引用本文复制引用
刘锋,章学来,华维三,杜晓冬,高雅汉..一种太阳能储能装置的模拟计算与实验分析[J].可再生能源,2017,35(9):1310-1317,8.基金项目
上海市教委重点项目(12ZZ154). (12ZZ154)
