A high temperature hybrid photovoltaic-thermal receiver employing spectral beam splitting for linear solar concentrators

SPIE Optics + Photonics for Sustainable Energy Pub Date : 2015-09-05 DOI:10.1117/12.2187869

A. Mojiri, C. Stanley, G. Rosengarten

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引用次数: 4

Abstract

Hybrid photovoltaic/thermal (PV-T) solar collectors are capable of delivering heat and electricity concurrently. Implementing such receivers in linear concentrators for high temperature applications need special considerations such as thermal decoupling of the photovoltaic (pv) cells from the thermal receiver. Spectral beam splitting of concentrated light provides an option for achieving this purpose. In this paper we introduce a relatively simple hybrid receiver configuration that spectrally splits the light between a high temperature thermal fluid and silicon pv cells using volumetric light filtering by semi-conductor doped glass and propylene glycol. We analysed the optical performance of this device theoretically using ray tracing and experimentally through the construction and testing of a full scale prototype. The receiver was mounted on a commercial parabolic trough concentrator in an outdoor experiment. The prototype receiver delivered heat and electricity at total thermal efficiency of 44% and electrical efficiency of 3.9% measured relative to the total beam energy incident on the primary mirror.

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一种用于线性太阳能聚光器的高温混合光电热接收机

混合光电/热(PV-T)太阳能集热器能够同时提供热量和电力。在高温应用的线性聚光器中实现这种接收器需要特殊的考虑，例如光伏(pv)电池与热接收器的热去耦。聚光的光谱光束分裂为实现这一目的提供了一种选择。在本文中，我们介绍了一种相对简单的混合接收器配置，该接收器使用半导体掺杂玻璃和丙二醇的体积光滤波，在高温热流体和硅光伏电池之间分光。我们从理论上利用光线追踪分析了该器件的光学性能，并通过全尺寸原型的构建和测试进行了实验分析。在室外实验中，将该接收器安装在商用抛物面槽聚光器上。相对于入射到主镜上的总光束能量，原型接收器以44%的总热效率和3.9%的电效率传递热电。

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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SPIE Optics + Photonics for Sustainable Energy

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