Performance of luminescence down shifting for CdTe solar cells as a function of the incident solar spectrum

D. Alonso-Álvarez, D. Ross, K. McIntosh, B. Richards
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引用次数: 7

Abstract

In this work we address the performance of luminescence down shifting (LDS) layers in combination with cadmium sulfide/cadmium telluride (CdS/CdTe) solar cells as a function of the solar spectrum irradiance and power distribution, as would be the case in a real outdoor situation. To this purpose we have simulated the module efficiency when a CdS/CdTe mini-module is illuminated with a solar spectrum characteristic of different hours of the day and for five distinct days. Our results indicate that the LDS layer improves the conversion efficiency of the module in all scenarios (between 6 and 10%), where the improvement is most prominent at dawn and dusk (more than 20% on cloudy/summer days). The reason for this variation lies in the power distribution of the spectra, having a greater contribution of short-wavelength light in the morning or late in the afternoon. Under such blue-rich spectra the LDS layers operate very efficiently. Furthermore, we find that the relative efficiency improvement induced by an LDS layer has a roughly linear dependence with the average photon energy of the solar spectrum.
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CdTe太阳能电池发光降移性能随入射太阳光谱的变化
在这项工作中,我们解决了发光下移(LDS)层与硫化镉/碲化镉(cd /CdTe)太阳能电池结合的性能,作为太阳光谱辐照度和功率分布的函数,就像在真实的室外情况下一样。为此,我们模拟了cd /CdTe微型模块在一天中不同时间和五个不同天的太阳光谱特征照射下的模块效率。我们的研究结果表明,LDS层在所有场景下都能提高模块的转换效率(在6%到10%之间),其中在黎明和黄昏时的改进最为突出(在多云/夏季超过20%)。造成这种变化的原因在于光谱的功率分布,短波长的光在上午或下午晚些时候贡献更大。在这种富含蓝光的光谱下,LDS层的工作效率非常高。此外,我们发现LDS层引起的相对效率提高与太阳光谱的平均光子能量大致呈线性关系。
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