基于阵列平面估计的平板反射器光伏装置的几何优化

IF 1.9 Q3 PHYSICS, APPLIED
C. A. Nour, A. Migan-Dubois, J. Badosa, V. Bourdin, C. Marchand, T. Akiki
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引用次数: 5

摘要

为了设计、管理和优化光伏(PV)装置的性能,并建立精确的发电量估计,阵列平面(POA)上的辐照度与光伏组件装置的几何特性之间的关系具有高度的重要性。本研究的重点是开发配备平面反射器的光伏装置的POA辐照度估计模型。该模型包括光伏装置的太阳辐照度分量(全局、直接和散射)、几何参数和地理特征。在2017年6月至2018年6月期间,在法国Palaiseau的SIRTA天文台(48.7°N,2.2°E)进行了实验验证。结果显示,对于没有和有平面反射器的安装,平均绝对误差(相对于平均值)分别为6%和7%。最后,我们提出了光伏反射器安装的几种几何优化策略,这些策略依赖于两个主要变量:反射器的长度(LR)与光伏组件的长度(LPV)的比较,以及系统的倾角调整频率(每月、季节性、固定)(对于光伏和反射器)。这种优化的目的是讨论实现最大POA辐照度的合理配置。结果表明,反射镜的长度对光伏反射镜系统的效率和性能有很大影响,从LR开始,年增益从8.5%增加到28.7% = LPV/2至LR = 2. × LPV与无镜像的每月优化安装相比。至于调整频率,我们表明,每月变化的架构是最有利的选择,与季节变化或固定的架构相比,年收益分别增加了28.2%和31.6%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Geometrical optimization for a photovoltaic installation equipped with flat reflectors based on plane of array estimations
In order to design, manage and optimize the performance of a photovoltaic (PV) installation and establish a precise power production estimation, irradiance on the plane of array (POA) in relation with the geometrical characteristics of the PV modules installation occupies a high importance. This study focuses on the development of an estimation model of the POA irradiance for a photovoltaic installation equipped with flat reflectors. The model includes solar irradiance components (global, direct and diffuse), geometrical parameters and geographical characteristics of the PV installation. Experimental validations have been performed with measurements taken at the SIRTA Observatory (48.7°N, 2.2°E) in Palaiseau, France, for the period starting from June 2017 to June 2018. Results show mean absolute errors (relative to the mean) of 6% and 7% for an installation without and with planar reflector. Finally, we present several geometrical optimization strategies of the PV-reflector installation relying on two major variables: the reflector's length (LR) compared to the length of the PV module (LPV) and the tilt angle adjustment frequency (monthly, seasonally, fixed) of the system (for both PV and the reflectors). The objective of such optimization is to discuss about a reasonable configuration to achieve a maximum POA irradiance. Results show that the length of the mirrors highly affects the efficiency and performances of the PV-Reflector system and the annual gain increased from 8.5% to 28.7% when going from LR = LPV/2 to LR = 2 × LPV compared to a monthly-optimized installation without mirrors. As for the adjustment frequency, we show that a monthly-varied architecture is the most advantageous option with a 28.2 and 31.6% increasing in annual gain compared to a seasonal varied or fixed ones, respectively.
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来源期刊
EPJ Photovoltaics
EPJ Photovoltaics PHYSICS, APPLIED-
CiteScore
2.30
自引率
4.00%
发文量
15
审稿时长
8 weeks
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