利用混合CPV改进光学性能

Q2 Energy

Journal of Daylighting Pub Date : 2020-11-19 DOI:10.15627/jd.2020.20

S. E. Himer, A. Ahaitouf

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引用次数: 2

摘要

混合聚光光伏(HCPVs)是一种系统，在该系统中增加了额外的低成本有机硅太阳能电池，以利用仅使用多结电池时所损失的漫射辐射产生的能量。这项工作已经通过模拟混合CPV系统的性能进行了测试，该系统由菲涅耳透镜与金字塔相关联，多结电池以及额外的硅太阳能电池组成。将该方案与普通CPV系统和仅基于硅太阳能电池的系统进行了比较。模拟结果表明，CPV使得金字塔出口在直接辐射时具有高达94%的光学效率，但在漫射辐射时该效率迅速下降到0%。在这种情况下，硅太阳能电池将这些扩散或非集中的光线转化为电能，其光学效率为85%。研究还发现，与CPV系统相比，混合CPV系统能够增加21%的功率。©2020作者。由solarlits.com出版。这是一篇基于CC BY许可(https://creativecommons.org/licenses/by/4.0/)的开放获取文章。

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Improvement of Optical Performances Using the Hybrid CPV

Hybrid Concentrated Photovoltaics (HCPVs) are systems in which additional low-cost silicone solar cells are added to take advantage of the power generated by the diffuse radiation lost when using only multi-junction cells that work only with direct radiation. The work has been tested by simulating the performance of a hybrid CPV system composed of a Fresnel lens associated with a pyramid, multi junction cell as well as additional silicon solar cells. This proposal is compared with an ordinary CPV system and a system based on only silicon solar cells. The simulation results show that the CPV makes it possible to have a high optical efficiency of 94% at the pyramid exit for direct radiation, but this high efficiency rapidly decreases to 0% for diffuse radiation. In this case, the silicon solar cell comes into the scene to converts these diffused or non-concentrated rays into electricity, with an optical efficiency of 85%. It was also found that the Hybrid CPV system was able to increase the power by 21% compared to the CPV system. © 2020 The Author(s). Published by solarlits.com. This is an open access article under the CC BY license (https://creativecommons.org/licenses/by/4.0/).

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来源期刊

Journal of Daylighting Energy-Renewable Energy, Sustainability and the Environment

CiteScore

4.00

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： Journal of Daylighting is an international journal devoted to investigations of daylighting in buildings. It is the leading journal that publishes original research on all aspects of solar energy and lighting. Areas of special interest for this journal include, but are not limited to, the following: -Daylighting systems -Lighting simulation -Lighting designs -Luminaires -Lighting metrology and light quality -Lighting control -Building physics - lighting -Building energy modeling -Energy efficient buildings -Zero-energy buildings -Indoor environment quality -Sustainable solar energy systems -Application of solar energy sources in buildings -Photovoltaics systems -Building-integrated photovoltaics -Concentrator technology -Concentrator photovoltaic -Solar thermal