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太阳能光伏发电-辐射制冷建筑一体化复合装置的性能分析 被引量:9

PERFORMANCE ANALYSIS OF BUILDING INTEGRATED COMPOSITE APPARATUS FOR BOTH SOLAR PHOTOVOLTAIC AND RADIATIVE COOLING
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摘要 一种光谱选择性复合板芯同时具有太阳能光伏发电和辐射制冷2种功能,在光电转换波段(0.2~1.1μm)和辐射制冷波段(8~13μm)具有高发射比,而在其余辐射波段具有低发射比。基于该复合板芯设计一种太阳能光伏发电-辐射制冷建筑一体化复合装置,该装置具有白天光伏发电和夜间辐射制冷2种功能。建立复合装置的数学模型,对该复合装置在夏季炎热潮湿地区(中国合肥)和炎热干燥地区(埃及Kharga)的光电性能和辐射制冷性能进行数值模拟。计算结果表明:在中国合肥和埃及Kharga,晴天条件下复合装置夏季白天平均光电功率可达74.60和91.00 W/m^2,夜间平均制冷功率分别为42.46和57.24 W/m^2,全天能量收益达3.37和4.27 MJ/m^2,分别比传统光伏装置的全天能量收益高53.78%和56.70%。 A spectral selectivity absorber for both solar photovoltaic and radiative cooling was proposed. It has a high spectral emittance in photovoltaic conversion band and atmospheric window band(i.e. 0.2-1.1 μm and 8-13 μm),as well as a low emittance in the other band. Then a building integrated composite apparatus for both solar photovoltaic and radiative cooling was proposed based on the spectral absorber. It has two kinds of functions for both diurnal solar photovoltaic and nocturnal radiative cooling. Mathematic model was established,then numerical analysis was conducted to study the solar photovoltaic and radiative cooling performance of the composite apparatus in hot-moist areas(i.e.Hefei,China)and hot-dry areas(i.e. Kharga,Egypt). The results showed that in Hefei and Kharga,the average electric power reached 74.60 and 91.00 W/m^2,respectively,and the average nocturnal radiative cooling power reached 42.46 and 57.24 W/m^2,respectively,and the day energy gain reached 3.37 and 4.27 MJ/m^2,respectively,which are 58.76%and 61.10%,respectively,higher than traditional PV modules.
作者 赵斌 胡名科 敖显泽 裴刚 Zhao Bin;Hu Mingke;Ao Xianze;Pei Gang(Department of Thermal Science and Energy Engineering, University of Science and Technology of China, Hefei 230027, China)
出处 《太阳能学报》 EI CAS CSCD 北大核心 2019年第5期1267-1275,共9页 Acta Energiae Solaris Sinica
基金 国家自然科学基金(51476159) 东莞市引进创新科研团队计划(2014607101008) 国家科技支撑计划(2015BAD19B02) 安徽省科技厅国际科技合作计划(BJ2090130038)
关键词 光伏发电 辐射制冷 建筑一体化 光谱选择性 solar photovoltaic radiative cooling building integration spectral selectivity
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