A group of scientists in the United States saw ‘encouraging’ results after testing the commercialization of novel coating materials in field tests, with the coating only increasing a panel’s total cost by 1.4%.
Scientists in Cyprus evaluated six different models used to predict the power losses caused by the accumulation of dust, dirt, and other substances on the surface of PV panels in the island’s arid climate. Results from the various models were compared with soiling loss data from a “test bench” installation at the University of Cyprus in Nicosia, revealing a potential advantage for machine-learning approaches backed by satellite data.
Scientists in India carried out a comprehensive study into the impacts of soiling on PV modules – measuring the amount of performance loss caused by different types of dust and bird droppings, and for modules installed at various tilt angles, in the hot-dry climate of Vellore in southern India. Their findings could allow developers to better take into account and mitigate the effects of soiling during site selection and system design.
A study conducted in the semi-arid weather conditions of Ben Guerir, Morocco, evaluated the performance of antistatic and hydrophobic coatings for photovoltaic solar panels. After nine months of operation, the PV panels with coatings developed by Portuguese company ChemiTek produced an average of 3% more energy than the uncoated ones.
A Jordanian research team has designed a cleaning technique for solar modules that uses static electricity to remove dust from panel surfaces. The system features an electrostatic ionizer that reduces attraction between dust particles and their accumulation on modules, improving their energy yield.
Virtuous-Re’s new PVradar Cleaning App can reportedly model soiling losses and cleaning benefits, while reducing cleaning costs and maximizing the overall economic performance of projects.
Nanoveu, an Australian nanotechnology company, has developed a multifunctional anti-soiling coating for solar glass that is designed to prevent surface debris and algae growth from forming on PV panels.
A new report by the International Energy Agency’s Photovoltaic Power Systems Programme (IEA-PVPS) estimates that lost revenue from PV module soiling amounts to more than €3 billion ($3.2 billion) per year – an amount that is only set to increase as PV systems grow larger and more efficient.
Scientists in Morocco recently conducted a year-long study on the impacts of soiling on PV modules in arid, dusty conditions. They found that soiling could contribute to daily performance losses of as much as 15%.
An international research group has developed new technology to measure soiling losses in PV installations, by using a simple pocket light. They said the new system offers similar performance to their reference devices.
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