System performance considerations for low concentration linear-focus silicon-based photovoltaic modules

R. Varieras, Jusong Wang, D. King
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引用次数: 12

Abstract

Low concentration photovoltaic (LCPV) module designs offer several advantages related to performance, cost, and potentially reliability. With only slight modification, widely available crystalline silicon cells can operate efficiently and reliably to about 3X concentration, which significantly reduces the cell contribution to module cost and also provides a large acceptance angle for solar tracking tolerance. These module designs also benefit from the use of materials and manufacturing processes common to the mature and field proven crystalline silicon PV industry. This paper discusses the unique performance characteristics considered in measuring and modeling the performance of Solaria LCPV modules and systems, along with measured comparisons versus conventional silicon PV technologies.
低浓度线性聚焦硅基光伏组件的系统性能考虑
低浓度光伏(LCPV)模块设计在性能、成本和潜在可靠性方面具有几个优势。广泛使用的晶体硅电池只需要稍微修改,就可以高效可靠地运行到约3X的浓度,这大大降低了电池对组件成本的贡献,也为太阳能跟踪公差提供了一个大的接受角度。这些模块设计还受益于使用成熟和经过现场验证的晶体硅光伏行业常见的材料和制造工艺。本文讨论了Solaria LCPV模块和系统的性能测量和建模所考虑的独特性能特征,以及与传统硅光伏技术的测量比较。
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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