Temporal dynamics of energy production at the Taïba Ndiaye wind farm in Senegal

Author:

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

Abstract

AbstractThe 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.

Publisher

Springer Science and Business Media LLC

Subject

General Medicine

Reference40 articles.

1. Daher D H, Gaillard L, Amara M, Lips B, Ménézo C. Suivi expérimental des performances d'une centrale solaire photovoltaïque à Djibouti. In 3ième Colloque International Francophone d'Energétique et Mécanique Les énergies renouvelables et la mécanique appliquée à l'industrie. pp. ART-17–67. ⟨hal-01016734⟩; 2014.

2. Ryberg DS, Caglayan DG, Schmitt S, Linßen J, Stolten D, Robinius M. The future of European onshore wind energy potential: detailed distribution and simulation of advanced turbine designs. Energy. 2019;182:1222–38.

3. Salah MM, Abo-khalil AG, Praveen RP. Wind speed characteristics and energy potential for selected sites in Saudi Arabia. J King Saud Univ Eng Sci. 2019. https://doi.org/10.1016/j.jksues.2019.12.006.

4. BoroumandJazi G, Rismanchi B, Saidur R. Technical characteristic analysis of wind energy conversion systems for sustainable development. Energy Convers Manag. 2013;69:87–94.

5. Agence Internationale de l'Energie (AIE). Renewables 2021-analysis and forecasts to 2026; December 2021. https://www.iea.org/reports/renewables-2021.

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