Analysis of the Effect of Temperature and Relative Humidity on the Reliability of a Photovoltaic Module  

作　　者：Abdoulaye Kabré Dominique Bonkoungou Zacharie Koalaga Abdoulaye Kabré;Dominique Bonkoungou;Zacharie Koalaga(Dpartement de Physique, Laboratoire de Matriaux et Environnement (LA.M.E)-UFR/SEA, Universit Joseph Ki-ZERBO, Ouagadougou, Burkina Faso)

机构地区：[1]Dpartement de Physique, Laboratoire de Matriaux et Environnement (LA.M.E)-UFR/SEA, Universit Joseph Ki-ZERBO, Ouagadougou, Burkina Faso

出　　处：《Advances in Materials Physics and Chemistry》2024年第8期165-177,共13页材料物理与化学进展（英文）

摘　　要：Photovoltaic energy occupies a significant place in the renewable energy market, with photovoltaic (PV) modules playing a vital role in converting solar energy into electricity. However, their effectiveness is likely to be affected by variations in environmental conditions, including temperature and relative humidity. The study examines the impact of these major climatic factors on the reliability of PV modules, aiming to provide crucial information for optimizing and managing these systems under varying conditions. Inspired by Weibull’s law to model the lifespan of components, we proposed a mathematical model integrating a correction factor linked to temperature and relative humidity. Using this approach, simulations in Matlab Simulink reveal that increasing temperature and relative humidity have an adverse impact on the reliability and lifespan of PV modules, with a more pronounced impact on temperature. The results highlight the importance of considering these environmental parameters in the management and optimization of photovoltaic systems to ensure their long-term efficiency.Photovoltaic energy occupies a significant place in the renewable energy market, with photovoltaic (PV) modules playing a vital role in converting solar energy into electricity. However, their effectiveness is likely to be affected by variations in environmental conditions, including temperature and relative humidity. The study examines the impact of these major climatic factors on the reliability of PV modules, aiming to provide crucial information for optimizing and managing these systems under varying conditions. Inspired by Weibull’s law to model the lifespan of components, we proposed a mathematical model integrating a correction factor linked to temperature and relative humidity. Using this approach, simulations in Matlab Simulink reveal that increasing temperature and relative humidity have an adverse impact on the reliability and lifespan of PV modules, with a more pronounced impact on temperature. The results highlight the importance of considering these environmental parameters in the management and optimization of photovoltaic systems to ensure their long-term efficiency.

关 键 词：Solar Energy PV Module LIFESPAN RELIABILITY EFFICIENCY 

分 类 号：O15[理学—数学]