Performance evaluation of on-grid PV systems in Egypt

Q2 Environmental Science

Water Science Pub Date : 2021-01-01 DOI:10.1080/23570008.2021.1905347

K. Fetyan, Rameen A. Hady

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引用次数: 6

Abstract

ABSTRACT The Egyptian government has set renewable energy targets of 20% of the electricity mix by 2022 and 42% by 2035. The National Water Research Center (NWRC) (Qanatir, Egypt) set up a pilot rooftop 90 kW PV system supporting this approach. This paper analyzes the electrical output signals of 90 kW photovoltaics on-grid system mounted on the roof of the National Water Research Center (NWRC) (Qanatir, Egypt). A previous simulation model using Matlab program is modified to incorporate more accurate information on system configuration became available. Components of the model were modified: four inverters (20 kW rated power) and one (10 kW rated power) and the scenario of tying the system to the local low voltage grid is discarded. Recommendation from previous study was taken to tie system the national high voltage grid to multiply the savings; therefore, it is the only simulated scenario. The simulated output energy of the system, at different values of solar intensity, is compared with the recorded data. A deviation between the simulink model and recorded data is found, due to power failure, surface cleaning of PV panels and weather variations. The results showed that the maximum energy is generated during July (14.5 MWhr) whilst the minimum energy in December and January (5 MWhr).

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埃及并网光伏系统性能评价

埃及政府设定了到2022年可再生能源占电力结构的20%和2035年42%的目标。位于埃及卡纳提尔的国家水资源研究中心(NWRC)建立了一个90千瓦的屋顶光伏试验系统来支持这种方法。本文分析了安装在埃及国家水资源研究中心(NWRC)屋顶上的90kw光伏并网系统的输出信号。利用Matlab程序对先前的仿真模型进行了修改，使系统配置信息更加准确。对模型组件进行了修改:4台逆变器(20kw额定功率)和1台逆变器(10kw额定功率)，并取消了系统与当地低压电网并网的场景。先前的研究建议将系统与国家高压电网相结合，以成倍节省;因此，这是唯一的模拟场景。模拟了系统在不同太阳强度下的输出能量，并与实测数据进行了比较。由于电源故障、光伏板表面清洁和天气变化，simulink模型与记录数据之间存在偏差。结果表明:7月发电量最大(14.5 MWhr)， 12月和1月发电量最小(5 MWhr);

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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