利用分光太阳能跟踪器在温室中生产光伏能源

Pierre-Vincent Broccard, Jonas Roch, Daniel Tran, Cédric Camps, Janina Löffler
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摘要

Voltiris 开发的光谱过滤低浓度光伏系统是一种创新的温室能源生产解决方案,不会影响粮食生产。第一个原型安装在瑞士孔泰农业研究中心的温室中。在 3 月至 10 月为期 8 个月的农艺研究中,该系统下番茄、甜椒和罗勒的产量与对照组相当。通过记录 I-V 曲线来评估光伏系统的性能以及浓缩和过滤的影响。曲线显示,原型系统的直接正常辐照效率为 10.1%。温室内伏特利斯系统的比输出功率与室外传统太阳能电池板的比输出功率相当。系统使用了两种不同透射光谱的滤光片,这两种滤光片都与叶绿素的吸收光谱相匹配,可分别反射 50% 和 60% 的入射全球辐射。为了将该系统的性能应用到其他温室中,对测试温室及其玻璃罩的透射率进行了全面和漫射辐射测量。这样就可以确定温室特定金属结构的透射率。在试验温室中,太阳直接辐射的总体透射系数为 0.28,因此限制了系统的产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Photovoltaic Energy Production in Greenhouses With Spectral Splitting Solar Trackers
The spectral filtering low concentration photovoltaic system developed by Voltiris is an innovative solution for energy production in greenhouses without affecting food production. A first prototype was installed in the greenhouse of the agricultural research center Agroscope in Conthey, Switzerland. During an eight-month agronomic study from March to October, the yield of tomato, pepper bell and basil under this system was on a par with a control group. I-V curves were recorded to evaluate the photovoltaic system performance, and the impact of concentration and filtering. The curves showed that the prototype achieved a direct normal irradiation efficiency of 10.1 %. The specific power output of the Voltiris system inside the greenhouse was comparable to the one of a conventional solar panel placed outside. Filters with two different transmission spectra were used, both of which were matched to the absorption spectra of chlorophyll and reflected 50 % and 60 % of the incident global radiation respectively. To transfer the performance of the system to other greenhouses, the transmittance of the test greenhouse and its glass cover were measured for global and diffuse radiation. This allowed to determine the transmittance of the greenhouse specific metal structure. In the test greenhouse, the overall transmission coefficient for direct solar radiation was 0.28, hence limiting the system yield.
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