CPV/PV混合技术的全球能量收集潜力

Ecology eJournal Pub Date : 2021-03-29 DOI:10.2139/ssrn.3815001

Juan F. Martínez, M. Steiner, M. Wiesenfarth, H. Helmers, G. Siefer, S. Glunz, F. Dimroth

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引用次数: 3

摘要

多结聚光光伏与单结平板太阳能电池(CPV/PV)的杂交提供了任何光伏技术中每个模块面积的最高输出功率。在AM1.5g光谱下，在标准测试条件下，EyeCon模块的转换效率高达34.2%，该模块结合了菲涅耳透镜和带有双面c - Si的III-V四结太阳能电池。我们在此研究其能量产量，并将其与传统CPV和平板PV进行比较。混合CPV/PV组件的优势在于，它利用最先进的多结电池技术转换直射阳光，同时利用硅电池获得漫射、透镜散射和背面辐照度，硅电池也充当聚光电池的热量分配器。本文量化了混合CPV/PV模块预计每个模块面积的额外能源产量，从而为该技术建立具有竞争力的商业案例提供了明确的指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Worldwide Energy Harvesting Potential of Hybrid CPV/PV Technology

Hybridization of multi‑junction concentrator photovoltaics with single‑junction flat plate solar cells (CPV/PV) delivers the highest power output per module area of any PV technology. Conversion efficiencies up to 34.2% have been published under the AM1.5g spectrum at standard test conditions for the EyeCon module which combines Fresnel lenses and III-V four‑junction solar cells with bifacial c‑Si. We investigate here its energy yield and compare it to conventional CPV as well as flat plate PV. The advantage of the hybrid CPV/PV module is that it converts direct sunlight with the most advanced multi‑junction cell technology, while accessing diffuse, lens‑scattered and back side irradiance with a Si cell that also serves as the heat distributor for the concentrator cells. This article quantifies the additional energy yield per module area expected from hybrid CPV/PV modules and therefore gives clear guidance towards establishing competitive business cases for the technology.

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Ecology eJournal

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