Abstract
Maintaining clean surfaces on solar panels is critical for maximizing energy efficiency, particularly in regions with high dust accumulation. Conventional cleaning methods, which often rely heavily on water, pose significant sustainability challenges, especially in water-scarce environments. This paper introduces an innovative self-cleaning solution for photovoltaic (PV) panels based on polyvinylidene fluoride (PVDF) piezoelectric films. The technology harnesses the inverse piezoelectric effect, whereby mechanical vibrations are generated when an alternating current (AC) voltage is applied to the PVDF film, effectively dislodging dust and particulate matter from the panel surface. Aluminum foil electrodes are affixed to the PVDF film, and vibrations are propagated across the surface to remove dust particles within a defined timeframe. Experimental results demonstrate the system's efficiency in removing particles while consuming minimal energy, making it particularly suitable for arid regions where water-based cleaning methods are impractical. Additionally, the PVDF films possess favorable mechanical and optical properties, including high transparency, flexibility, and cost-effectiveness, supporting their potential for large-scale deployment. The technology represents an environmentally friendly and water-saving alternative to traditional methods and has significant commercialization potential. This research paves the way for further development of self-cleaning PV technologies, offering a sustainable solution for maintaining solar panel performance in challenging environmental conditions.
Published Version
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