Assessing the Impact of Soiling, Tilt Angle, and Solar Radiation on the Performance of Solar PV Systems

S. C. Nwokolo, Anthony Umunnakwe Obiwulu, S. Amadi, J. Ogbulezie
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引用次数: 3

Abstract

This research examined the observed datasets and a theoretically derived model for estimating yearly optimum tilt angle (β), maximum incident solar radiation (Hmax), clean gain indicator (CGI), and soiling loss indicator (SLI) at Mumbwa, Zambia, the Mediterranean Region, and low latitude locations across the globe. The cleaned tilted collector emerged as the best performing collector due to Hmax and much higher energy gains compared with the soiled collector. CGI showed an appreciable performance of 0.4737% over -0.4708% on the SLI, indicating that soiling on the surface of photovoltaic (PV) modules significantly depreciates the overall performance of PV modules. Two established empirical models obtained from the literature were compared with the established theoretical model (β=φ). The result revealed that the two models overestimated the observed annual optimum tilt angle in this paper, simply because the models were developed with high latitude location datasets from the Asia continent. However, the newly established monthly and yearly global radiation indicator (GRI) models by the authors in their previous paper performed excellently in the selected representative cities in the Mediterranean region.
评估污染、倾斜角度和太阳辐射对太阳能光伏系统性能的影响
本研究对观测数据集和理论推导模型进行了分析,用于估算赞比亚、地中海地区和全球低纬度地区的年最佳倾斜角(β)、最大入射太阳辐射(Hmax)、清洁增益指标(CGI)和污染损失指标(SLI)。由于Hmax和更高的能量增益,清洗后的倾斜集热器成为性能最好的集热器。CGI在SLI上的性能为0.4737%,高于-0.4708%,这表明光伏组件表面的污染显著降低了光伏组件的整体性能。将从文献中得到的两个已建立的经验模型与已建立的理论模型(β=φ)进行比较。结果表明,这两个模型高估了本文观测到的年最佳倾角,原因很简单,这两个模型是基于亚洲大陆的高纬度位置数据集开发的。然而,作者在之前的论文中新建立的月度和年度全球辐射指标(GRI)模型在地中海地区选定的代表性城市中表现出色。
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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