1 Renewable Thermal Energy Laboratory (LETRE), Department of Physics, Faculty of Exact and Applied Sciences, University Joseph KI–ZERBO, Ouagadougou, Burkina Faso.
2 Laboratory of Physics and Chemistry of the Environment (LPCE), Department of Physics, Faculty of Exact and Applied Sciences, University Joseph KI–ZERBO, Ouagadougou, Burkina Faso.
3 Department of Physics, Laboratory of Solar Energy, University of Lomé, Togo.
4 Department of Natural Sciences, Ecole Normale Supérieure of Burundi, Bujumbura, Burundi.
5 Laboratory of Applied Hydrology, National Institute of Water, University of Abomey-Calavi, Benin.
6 Department of General Biology,University Daniel OUEZZIN COULIBALY, Dédougou, Burkina Faso.
7 Department of Physics University Lédéa Bernard Ouédraogo.
World Journal of Advanced Research and Reviews, 2025, 28(03), 1882-1894
Article DOI: 10.30574/wjarr.2025.28.3.3993
Received 20 October 2025; revised on 20 December 2025; accepted on 22 December 2025
The study assesses climate change and energy transition in Burkina Faso, a country endowed with high solar irradiation. It evaluates the variability of photovoltaic solar potential (PVP) using historical climate data (1985-2014) and future projections (2015-2050) from five CMIP6 climate models under SSP1-2.6, SSP2-4.5, and SSP5-8.5 scenarios. The analysis focuses on surface solar irradiation and air temperature. Nationally, PVP is projected to decrease by 1.04% (SSP1-2.6) to 3.10% (SSP5-8.5) compared to the historical period. The most significant reductions are expected to affect dry and semi–arid areas, which were previously the most suitable for solar energy production. The high-emission scenario SSP5-8.5, associated with severe global warming, results in the most substantial losses, particularly in the northern and eastern parts of the country. Despite this projected decline, these areas still hold the greatest potential. These findings underscore that, even under climate change, solar energy remains a viable and crucial option for meeting Burkina Faso’s growing energy demand, reducing dependence on fossil fuels, and mitigating greenhouse gas emissions. However, the siting of large-scale PV fields must consider climate zones to limit future variability in energy production.
Solar potential; Photovoltaic energy; Climate change; Shared Socioeconomic Pathways (SSPs); Burkina Faso
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Serge Dimitri BAZYOMO, Stanislas SANFO, Batablinlè LAMBONI, Razack OUEDRAOGO, Célestin MANIRAKIZA, Emmanuel LAWIN and Abdoulaye OUEDRAOGO. Assessment of solar photovoltaic potential variations in Burkina Faso using SSP1-2.6, SSP2-4.5 and SSP5-8.5 scenarios by 2050. World Journal of Advanced Research and Reviews, 2025, 28(03), 1882-1894. Article DOI: https://doi.org/10.30574/wjarr.2025.28.3.3993.
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