Examination of the Effect of Shading on a Photovoltaic System Performance

Authors : Zeynep Bala Duranay, Hanifi Güldemir

Pages : 89-95

Doi:10.24012/dumf.1579306

View : 52 | Download : 112

Publication Date : 2025-03-26

Article Type : Research Paper

Abstract :This study investigates the impact of shading on the performance of photovoltaic (PV) systems, a critical consideration for optimizing solar energy generation. Shading can occur due to various environmental factors, including nearby structures, vegetation, and atmospheric conditions, leading to significant reductions in energy output and overall system efficiency. Through a combination of experimental measurements and simulation modeling, we assessed how different shading scenarios affect the electrical performance of PV arrays. The findings reveal that even partial shading can cause substantial decreases in power generation, with shaded cells experiencing reverse biasing and increased thermal stress, resulting in potential hot spot formation. The analysis also highlights the importance of PV module configuration and orientation in mitigating shading effects. Additionally, the study highlights the functionality of bypass diodes in PV systems. By allowing current to bypass shaded or malfunctioning cells, these diodes help maintain optimal performance levels even when some cells are compromised. The analysis includes comparative assessments of PV systems with and without bypass diodes under identical shading conditions. Results demonstrate that systems equipped with bypass diodes exhibit significantly improved performance, including higher voltage and current outputs, thereby enhancing overall energy yield. This research underscores the necessity for site-specific evaluations during the design phase of PV installations to ensure maximum efficiency. The insights gained from this study contribute to a deeper understanding of shading dynamics in PV systems and provide practical recommendations for improving solar energy utilization. Ultimately, addressing shading challenges is essential for advancing the reliability and effectiveness of solar power as a sustainable energy solution. The findings deduce the importance of integrating bypass diodes in PV systems to mitigate the detrimental effects of shading, ultimately contributing to more effective utilization of solar energy resources.
Keywords : Fotovoltaikler, PV performansı, gölgeleme etkisi, güneş paneli