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    梁若冰

    • 副教授       硕士生导师
    • 性别:女
    • 毕业院校:大连理工大学
    • 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
    • 办公地点:土木3号楼602室
    • 联系方式:0411-84706203
    • 电子邮箱:liangrb@dlut.edu.cn

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    NUMERICAL SIMULATION OF THERMAL PROCESSES OF A FLAT-PLATE SOLAR COLLECTOR USING HIGH TEMPERATURE CIRCULATING FLUID R245FA PART II: COMPARISON OF THERMAL PROCESSES IN DIFFERENT CITIES OF CHINA

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    论文类型:会议论文

    发表时间:2009-01-01

    收录刊物:CPCI-S

    页面范围:678-684

    关键字:Solar energy; Flat-plate collector; High temperature circulating fluid; Numerical simulation; Thermal process

    摘要:In part I of this article, numerical simulation method to study the thermal process of the flat-plate collector (FPC) was introduced. And the thermodynamic and transport properties models are described for the high temperature working fluid. Instantaneous curve of temperature variation with time of each parts of FPC and the working fluid have been obtained, and the thermal process characteristics have been analyzed. In this paper, based on the new refrigerant R245fa, the thermal processes of flat-plate solar collector are investigated numerically in different regions of China. Here, five cities, Lhasa, Urumchi, Lanzhou, Van, Dalian, have been chosen as research objectives. The thermal collection processes characteristics of the flat-plate solar collector in the five cities are analyzed. And the influences of the total mass of the working fluid and the areas of the flat-plate solar collector on thermal collection processes are investigated. It is found that the thermal collection processes of the solar energy collection system is influenced strongly by the solar radiation, and the influence of the initial working fluid temperature and the ambient temperature on the thermal collection processes is small compared with the solar radiation. In the processes of working fluid temperature rising from the ambient temperature to the evaporation state, the running time of the solar collection system can be decrease effectively if the total mass of the working fluid in the system is decreased or the area of solar collector is increased. And the scheme to increase area of solar collector is best compare with that to decrease total mass of the working fluid.