微光学太阳能聚光和下一代原型

J. Karp, E. Tremblay, J. Ford
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引用次数: 9

摘要

我们最近提出了一种微光学太阳能聚光器,使用二维小孔径透镜阵列聚焦到平面平板波导中。通过在每个透镜焦点处放置镜子,透镜阵列收集的光以全内反射引导的角度反射到一个共同的平板波导中。耦合的阳光在板内传播,直到到达沿边缘安装的光伏电池。这种几何形状的模拟显示,在100倍和300倍几何浓度下,设计的光学效率分别为89%和81.9%。该微光学聚光器以前是作为概念验证制造的,但由于透镜像差而表现出较差的性能。在这里,我们提出了使用更合适的透镜阵列的第二代系统,并实现了>52%的测量效率。我们还讨论了与微光浓度相关的性能权衡,并探讨了二次耦合器设计作为提高效率和浓度的手段。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Micro-optic solar concentration and next-generation prototypes
We recently proposed a micro-optic solar concentrator using a two-dimensional array of small-aperture lenses focusing into a planar slab waveguide. By placing mirrors at each lens focus, light collected by the lens array reflects into a common slab waveguide at angles which guide by total internal reflection. Coupled sunlight propagates within the slab until reaching a photovoltaic cell mounted along the edge(s). Simulations of this geometry reveal designs with 89% and 81.9% optical efficiency at 100x and 300x geometric concentrations respectively. The micro-optic concentrator was previously fabricated as a proof-of-concept, but exhibited poor performance due to lens aberrations. Here, we present a 2nd-generation system using a better-suited lens array and achieve >52% measured efficiency. We also discuss performance tradeoffs associated with micro-optic concentration and explore secondary coupler designs as a means to increase both efficiency and concentration.
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