塞内加尔Taïba Ndiaye风电场能源生产的时间动态

Serigne Abdoul Aziz Niang, Mamadou Simina Drame, Ahmed Gueye, Astou Sarr, Mame Diarra Toure, Dialo Diop, Seydina Oumar Ndiaye, Kharouna Talla
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引用次数: 0

摘要

摘要:本文研究了塞内加尔Taïba Ndiaye风电场158.7 MW风电生产的时间动态。产量的月度和季节分布呈现出强烈的趋势,12月至5月(冬季和春季)的最大值约为1800兆瓦时,7月至11月(夏季和秋季)的最小值低于500兆瓦时。日周期表现出明显的周期变化,特别是在11月和4月之间。夜间产量比白天高出43%以上。还分析了100米风速对农场生产的影响,并表明全年风速与产量呈正相关。在冬季和春季观测到的产量峰值是由强风(约8.5米/秒)造成的,而夏季记录的最低水平是由于以弱风(小于4米/秒)为特征的天气条件造成的。同样,最佳风向出现在冬季和春季,即产量最大的时期,此时风向介于西北和东北之间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Temporal dynamics of energy production at the Taïba Ndiaye wind farm in Senegal
Abstract The study presented in this article focuses on the temporal dynamics of wind energy production at the Taïba Ndiaye wind farm in Senegal, with a capacity of 158.7 MW. The monthly and seasonal distribution of production shows a strong trend, with maximums recorded between December and May (winter and spring) at around 1800 MWh, and minimums between July and November (summer and autumn) with production below 500 MWh. The diurnal cycle representation exhibits variation with a marked cycle, particularly between November and April. Night-time production is higher than daytime production by more than 43%. The effects of 100-m wind on the farm production are also analysed and show a positive correlation between wind speed and production throughout the year. Production peaks observed in winter and spring are caused by strong winds (approximately 8.5 m/s), while the lowest levels recorded during the summer season are due to weather conditions characterized by weak winds (less than 4 m/s). Similarly, optimal wind directions are observed in winter and spring, periods of maximum production, when the winds blow between the northwest and northeast.
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来源期刊
Discover Energy
Discover Energy energy-
自引率
0.00%
发文量
6
审稿时长
24 days
期刊介绍: Discover Energy is part of the Discover journal series committed to providing a streamlined submission process, rapid review and publication, and a high level of author service at every stage. It is an open access, community-focussed journal publishing research from across the full range of disciplines concerned with energy. Discover Energy is a broad, open access journal publishing research from across all fields relevant to the science and technology of energy research. Discover Energy covers theory, development and applications in the interdisciplinary field of energy and fuel research from across the physical sciences, including engineering, physics, chemistry and the environmental sciences, as well as the impact that energy technologies and policies have on society. It is also intended that articles published in Discover Energy may help to support and accelerate United Nations Sustainable Development Goal 7 ‘Affordable and Clean Energy’ as well as contributing to the discussion around the long-term mitigation of climate change. ▪ We welcome research from across all fields relevant to the science and technology of energy research. ▪ Our streamlined submission process ensures a swift turnaround time to publish your research rapidly while maintaining the highest peer-review standards. ▪ As a fully open access journal, we ensure that your research is highly discoverable and instantly available globally to everyone. ▪ We provide you with an excellent support service at every stage to guide you through the whole submission, review and publication process. ▪ The Discover journals uphold the ethical standards for research and publication as defined by COPE, and support authors in adhering to these throughout the peer-review process.
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