Analysis of Optical Window for Constant Cooling Heat Flux-Based Spectral Splitting in Concentrator Photovoltaic System

IF 3.6 4区工程技术 Q3 ENERGY & FUELS

Energy technology Pub Date : 2024-11-06 DOI:10.1002/ente.202401688

Jingyang Han, Shiqi Hou, Yixin Xiao, Shiyao Yang, Kun Li, Yong Li

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Abstract

The solar cells cooled to constant temperature at different concentration ratios (CR) and spectral bands (SB) require the same cooling heat flux (CHF), but the output power varies significantly. Thus, it is necessary to clarify the relationship of CHF-CR-SB to provide a reference for photovoltaic systems to select the output power generation of the spectral band under constant cooling heat flux. In this article, a selecting spectra model of a centralized photovoltaic (CPV) system is established and the selection of the spectrum based on CHF and the CR is analyzed. Theory shows that the wider the spectral division of the same CR, the larger the cooling heat flux consumed. The narrower the spectrum division, the higher the CR that the cell receiver can withstand. The experiments show that the higher the photoelectric conversion efficiency (PCE), the lower the cooling heat flux to be consumed. The cooling heat flux of 650 filter consumes 22.74% more than the UV700 filter, which means the demand for CHF is more severe when the heat spectrum distribution is wide. The spectral division should be carried out according to the requirements of high-energy flux but a small thermal energy proportion to achieve efficient PCE.

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聚光光伏系统恒冷热通量分光光窗分析

在不同的浓度比（CR）和光谱波段（SB）下，太阳能电池冷却到恒温时，需要相同的冷却热流密度（CHF），但输出功率变化较大。因此，有必要厘清CHF-CR-SB的关系，为光伏系统在恒定冷却热通量下选择该光谱波段的输出发电量提供参考。本文建立了集中式光伏（CPV）系统的光谱选择模型，分析了基于CHF和CR的光谱选择问题。理论表明，同一CR的谱分越宽，所消耗的冷却热通量越大。频谱分割越窄，小区接收机所能承受的CR越高。实验表明，光电转换效率（PCE）越高，所消耗的冷却热流密度越低。650过滤器的冷却热流密度比UV700过滤器多消耗22.74%，这意味着当热谱分布较宽时，对CHF的需求更为强烈。为了实现高效的PCE，应按照通量高但热能占比小的要求进行光谱划分。

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来源期刊

Energy technology ENERGY & FUELS-

CiteScore

7.00

自引率

5.30%

发文量

审稿时长

1.3 months

期刊介绍： Energy Technology provides a forum for researchers and engineers from all relevant disciplines concerned with the generation, conversion, storage, and distribution of energy. This new journal shall publish articles covering all technical aspects of energy process engineering from different perspectives, e.g., new concepts of energy generation and conversion; design, operation, control, and optimization of processes for energy generation (e.g., carbon capture) and conversion of energy carriers; improvement of existing processes; combination of single components to systems for energy generation; design of systems for energy storage; production processes of fuels, e.g., hydrogen, electricity, petroleum, biobased fuels; concepts and design of devices for energy distribution.