采用薄膜技术的混合集热器

Conference Record of the Twenty Sixth IEEE Photovoltaic Specialists Conference - 1997 Pub Date : 1997-12-31 DOI:10.1109/PVSC.1997.654325

R. Platz, D. Fischer, M.-A. Zufferey, J. Selvan, A. Haller, Arvind Shah

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引用次数: 27

摘要

基于非晶硅(a-Si:H)的太阳能电池在混合(即光伏/热)太阳能转换的背景下非常有趣。首先，它们的大面积性能和各种可能的衬底材料允许以低成本将a-Si:H光伏模块直接应用于传统集热器的表面。此外，a-Si:H电池的低温系数(0.1%/K)允许a-Si:H太阳能组件在高达100/spl度/C的温度下运行，而不会有很大的功率损失。作者重点研究了这种基于a- si:H电池的混合集热器的热性能，并强调了太阳能电池顶部的ZnO涂层。ZnO可以“调谐”吸收太阳光的红外部分，同时，其热辐射发射系数几乎与用于集热器的优化选择表面一样低。作者提出了一种具有高热转换效率潜力的集热器结构，同时保持高电转换效率。

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Hybrid collectors using thin-film technology

Amorphous silicon (a-Si:H) based solar cells are highly interesting in the context of hybrid (i.e. photovoltaic/thermal) solar energy conversion. First, their large area capability and the variety of possible substrate materials permit to apply a-Si:H PV modules directly on the surface of conventional heat collectors at low cost. Further, the low temperature coefficient of a-Si:H cells (0.1%/K) allows operation of a-Si:H solar modules at temperatures as high as 100/spl deg/C without substantial power loss. The authors focus on the thermal performance of such hybrid collectors based on a-Si:H cells, with emphasis on a ZnO coat on top of the solar cell. ZnO can be "tuned" to absorb the infrared part of sunlight and, at the same time, its emission coefficient for heat-radiation is nearly as low as that of the optimized selective surfaces used in thermal collectors. The authors propose a collector structure with a high potential for thermal conversion efficiency while maintaining high electrical conversion efficiency.

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Conference Record of the Twenty Sixth IEEE Photovoltaic Specialists Conference - 1997

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