Cell-Resolved PV Soiling Measurement Using Drone Images
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Published:2024-07-17
Issue:14
Volume:16
Page:2617
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ISSN:2072-4292
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Container-title:Remote Sensing
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language:en
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Short-container-title:Remote Sensing
Author:
Winkel Peter12ORCID, Wilbert Stefan1ORCID, Röger Marc1ORCID, Krauth Julian J.1ORCID, Algner Niels1, Nouri Bijan1, Wolfertstetter Fabian3, Carballo Jose Antonio4ORCID, Alonso-Garcia M. Carmen5ORCID, Polo Jesus5ORCID, Fernández-García Aránzazu2ORCID, Pitz-Paal Robert26
Affiliation:
1. German Aerospace Center (DLR), Institute of Solar Research, Calle Doctor Carracido 44, 04005 Almería, Spain 2. Chair of Solar Technology, Faculty of Mechanical Engineering, RWTH Aachen University, Linder Höhe, 51147 Cologne, Germany 3. Volateq GmbH, Mühlenhof 7-9, 40721 Hilden, Germany 4. CIEMAT, Plataforma Solar de Almería, Carretera de Senés km 4, 04200 Tabernas, Spain 5. CIEMAT, Photovoltaic Solar Energy Unit, Av. Complutense 40, 28040 Madrid, Spain 6. DLR, Institute of Solar Research, Linder Höhe, 51147 Cologne, Germany
Abstract
The maintenance of photovoltaic (PV) power plants is of central importance for their yield. To reach higher efficiencies in PV parks, it is helpful to detect soiling such as dust deposition and to apply this information to optimize cleaning strategies. Furthermore, a periodic inspection of the PV modules with infrared (IR) imagery is of advantage to detect and potentially remove faulty PV modules. Soiling can be erroneously interpreted as PV module defects and hence spatially resolved soiling measurements can improve the results of IR-based PV inspection. So far, soiling measurements are mostly performed only locally in PV fields, thus not supporting the above-mentioned IR inspections. This study presents a method for measuring the soiling of PV modules at cell resolution using RGB images taken by aerial drones under sunny conditions. The increase in brightness observed for soiled cells under evaluation, compared to clean cells, is used to calculate the transmission loss of the soiling layer. Photos of a clean PV module and a soiled module for which the soiling loss is measured electrically are used to determine the relation between the brightness increase and the soiling loss. To achieve this, the irradiance at the time of the image acquisitions and the viewing geometry are considered. The measurement method has been validated with electrical measurements of the soiling loss yielding root mean square deviations in the 1% absolute range. The method has the potential to be applied to entire PV parks in the future.
Funder
German Federal Ministry of Economic Affairs and Climate Action
Reference43 articles.
1. Bouckaert, S., Pales, A.F., McGlade, C., Remme, U., Wanner, B., Varro, L., D’Ambrosio, D., and Spencer, T. (2021). Net Zero by 2050: A Roadmap for the Global Energy Sector, International Energy Agency (IEA). 2. Gielen, D., Gorini, R., Wagner, N., Leme, R., Gutierrez, L., Prakash, G., Asmelash, E., Janeiro, L., Gallina, G., and Vale, G. (2019). Global Energy Transformation: A Roadmap to 2050, IRENA, International Energy Agency. 3. Techno-economic assessment of soiling losses and mitigation strategies for solar power generation;Ilse;Joule,2019 4. Impact of some environmental variables with dust on solar photovoltaic (PV) performance: Review and research status;Darwish;Int. J. Energy Environ.,2013 5. Effects of current mismatch due to uneven soiling on the performance of multi-crystalline silicon module strings;Vumbugwa;J. Energy S. Afr.,2020
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