The low-concentration photovoltaic (LCPV) system has been identified as one of the potential solutions in lowering the overall installation cost of a building integrated photovoltaic (BIPV) system. This paper evaluates the performance of a novel type of LCPV concentrator known as the rotationally asymmetrical compound parabolic concentrator (RACPC). A specific RACPC design with a geometrical concentration ratio of 3.6675× was fabricated and integrated with a 1 cm by 1 cm monocrystalline laser grooved buried contact silicon solar cell. This design was tested indoors to evaluate its current–voltage (I–V), angular response and thermal characteristics. Under standard test conditions, it was found that the RACPC increases the short circuit current by 3.01× and the maximum power by 3.33× when compared with a bare solar cell. The opto-electronic gain from the experiment showed good agreement when compared with the simulation results, with a deviation of 11%.
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机译:低浓度光伏(LCPV)系统已被认为是降低建筑物集成光伏(BIPV)系统总体安装成本的潜在解决方案之一。本文评估了一种新型的LCPV浓缩器(称为旋转非对称复合抛物面浓缩器(RACPC))的性能。制造了具有3.6675x几何浓度比的特定RACPC设计,并将其与1 cm x 1 cm单晶激光开槽埋入式接触硅太阳能电池集成在一起。在室内对该设计进行了测试,以评估其电流-电压(IV),角度响应和热特性。在标准测试条件下,发现与裸太阳能电池相比,RACPC的短路电流增加了3.01倍,最大功率增加了3.33倍。与模拟结果相比,实验的光电增益显示出良好的一致性,偏差为11%。
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