Investigation of Horizontal Solar Radiation Data Source in the World

2020 2nd International Conference on Photovoltaic Science and Technologies (PVCon) Pub Date : 2020-11-30 DOI:10.1109/PVCon51547.2020.9757803

R. Bawazir, N. Cetin

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Abstract

Photovoltaic (PV) power is the third global power capacity used after hydro and wind. Even though solar energy is abundant and within reach, this energy assessment confronts a big challenge in terms of obtaining measured data due to the limited and unevenly distributed ground-based meteorological stations. To overcome this issue, many studies resort to other sources of radiometric data. Some of the sources are based on satellites. As a result, there is a disagreement of readings compared with ground-based meteorological stations. Therefore, this paper attempts to mitigate the differences by proposing the nearest source compared to measured data. Four different sources (NASA POWER, PVGIS 5, Meteonorm software, and hybrid-based average data) are investigated. The measured data of stations is used as a reference in this study which has been collected from the World Radiation Data Centre (WRDC). The comparative study is made based on monthly average horizontal solar radiation using statistical methods for five continents. Twenty-eight distributed locations are examined. Based on the Global Performance Indicator (GPI), Meteonorm is a suitable data source for Asia and South American continents. In Africa, Europe, and North American continents, the solar radiation source depends on the target location.

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世界水平太阳辐射数据源调查

光伏发电是继水能和风能之后的全球第三大电力。尽管太阳能资源丰富且触手可及，但由于地面气象站数量有限且分布不均，该能源评估在获取实测数据方面面临很大挑战。为了克服这个问题，许多研究求助于其他来源的辐射测量数据。有些来源是基于卫星的。因此，与地面气象站的读数存在差异。因此，本文试图通过提出与测量数据比较的最近源来减轻差异。研究了四个不同的来源(NASA POWER、PVGIS 5、Meteonorm软件和基于混合的平均数据)。本研究以世界辐射数据中心(WRDC)收集的各监测站实测数据为参考。利用统计方法对五大洲的月平均水平太阳辐射进行了比较研究。考察了28个分布的地点。基于全球绩效指标(GPI)， Meteonorm是亚洲和南美大陆的合适数据源。在非洲、欧洲和北美大陆，太阳辐射源取决于目标位置。

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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2020 2nd International Conference on Photovoltaic Science and Technologies (PVCon)

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