托什卡湖独立式浮动光伏结构的可行性研究与设计

Q4 Earth and Planetary Sciences

世界地震工程 Pub Date : 2023-11-06 DOI:10.37394/232025.2023.5.17

Hanaa M. Farghally, Emad A. Sweelem

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引用次数: 0

摘要

一种被称为浮动光伏技术的新型能源生产系统因其诸多优点而引起了许多人的兴趣。浮动光伏系统有助于减少水蒸发和增加能源输出。浮式光伏电站的发展需要从电气和机械结构两个角度对其进行研究。从不同角度对浮动光伏系统进行了大量的研究，对这些系统进行了检验。本文的目标是为Toshka湖表面浮动光伏能源系统的建设提供一个标准的设计程序和性能，该系统用于使用光伏系统为家庭发电。软件同时，对浮动光伏发电系统作为一种能源生产系统的诸多特点和要素进行了逻辑分析和最新评估。绩效比分析表明，3月份最低，为64%，12月份最高，为82%，全年平均值为71.3%。对损失也进行了分析。

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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Feasibility Study and Design of a Stand-alone Floating Photovoltaic Structure for Toshka Lake

A novel energy production system known as floating photovoltaic technology has captured the interest of many people due to its many advantages. The floating photovoltaic system contributes to a reduction in water evaporation and an increase in energy output. The development of floating photovoltaic power plants necessitates the study of these systems from both an electrical and mechanical structure perspective for research objectives. Numerous studies have been conducted on floating photovoltaic systems from various angles that have examined these systems. The goal of this paper is to provide a standard design procedure and performance for the construction of a floating photovoltaic energy system at the surface of Toshka lake for the generation of electricity to a household using PV Syst. software. Also it provides a logical analysis and up-todate assessment of the many characteristics and elements of floating photovoltaic systems as an energy production system. The performance ratio analysis reveals that the lowest value was obtained in the month of March is 64% and the maximum value was obtained in the month of December is 82%whereas the average value for year is 71.3%. Analysis of losses has also been done.

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来源期刊

世界地震工程 Earth and Planetary Sciences-Geotechnical Engineering and Engineering Geology

CiteScore

0.80

自引率

0.00%

发文量

4131

期刊介绍： World Earthquake Engineering was founded in 1985 and is now a quarterly journal. It is an academic journal in the field of earthquake engineering under the supervision of China Earthquake Administration (CEA), and co-sponsored by the Institute of Engineering Mechanics of China Earthquake Administration (IEMCA) and the Chinese Society of Mechanics (CSM). The journal aims to introduce the latest research results in the field of earthquake engineering at home and abroad, to promote international academic exchanges in the field of earthquake engineering, and to serve China's seismic prevention and anti-seismic work. China Association for Science and Technology (CAST) selected China's high-quality scientific and technological journals in different fields for its hierarchical catalogue, and the journal was selected as T2 level (internationally renowned journals) of earth science and geophysical journals. Outstanding journal for the implementation of the CAJ-CD Code in the implementation of the Chinese Academic Journals (CD-ROM Version) Retrieval and Evaluation Data Specification (CAJ-CD Code) in the evaluation of excellence activities; included in the cultivation bank of Heilongjiang Province's high-quality journal projects.