张吉礼

个人信息Personal Information

教授

博士生导师

硕士生导师

主要任职:Vice Dean of Graduate School

其他任职:建筑能源研究所所长

性别:男

毕业院校:哈尔滨建筑大学

学位:博士

所在单位:土木工程系

学科:供热、供燃气、通风及空调工程. 控制理论与控制工程. 建筑学

办公地点:大连市凌工路2号大连理工大学建设工程学院3号楼601室

联系方式:0411-84706260

电子邮箱:zjldlut@dlut.edu.cn

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Performance improvement of solar photovoltaic/thermal heat pump system in winter by employing vapor injection cycle

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论文类型:期刊论文

发表时间:2019-06-05

发表刊物:APPLIED THERMAL ENGINEERING

收录刊物:SCIE、EI

卷号:155

页面范围:135-146

ISSN号:1359-4311

关键字:Direct expansion solar heat pump; Vapor injection compression cycle; Photovoltaic/thermal; Experiment

摘要:Direct-expansion solar assisted heat pump (DX-SAHP) is a promising technology for saving energy. In this paper, vapor injection (VI) cycle system to DX-SAHP system is studied. Thermodynamic comparative analyses of ideal VI cycle and ideal conventional vapor compression cycle was carried out for verifying the advantages by applying VI cycle into DX-SAHP. Additionally, photovoltaic/thermal (PVT) modules were used in the system to harvest thermal energy and electric power. A PVT based solar heat pump system employing VI cycle (PVT-VISHP) was proposed, fabricated and investigated experimentally. Performance of the experimental prototype was subsequently evaluated for seven days in winter. The system's performance was evaluated based on the average ambient temperature of -1.13 degrees C and solar irradiation of 164.03 W/m(2). Results showed that the total generated electricity, heat, and consumed power of the system were 0.51 kWh, 23.68 kWh, and 7.24 kWh, respectively. Moreover, average heating coefficient of performance (COPth) and advanced coefficient of performance (COPPVT) of the PVT-VISHP system were 3.27 and 3.45, respectively. In the study, the ambient-evaporating temperature difference ranged from 9.2 degrees C to 17.1 degrees C. Furthermore, variations of injected vapor's pressure, mass flow rate, mass flow rate ratio, and subcooling effects were analyzed in detail. Performance of the PVT modules during a sunny day was tested. It was found that the PVT modules' average thermal collecting and PV efficiencies were 49.9% and 7.51%, respectively.