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Influence of Selected Weather Conditions on the Photovoltaic System Efficiency in Central Poland – Case Study

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Języki publikacji
EN
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EN
The article details the data obtained from monitoring the photovoltaic (PV) system in 2021-2023, equipped with a module for measuring basic weather parameters. The PV system under consideration, with a peak output of 3.2 kWp, is connected to the electricity grid and is mounted on the flat roof of the building. The annual relative yields of the generated energy were about 10% less than estimated, and their monthly distributions were asymmetric. In the "summer" months (i.e., from April to September), the PV system generated, on average, about 75% of the whole year’s energy. The histograms of the PV system's active power output showed that, on average, about 40% of the time, the PV inverter operated in underloaded mode. For selected weather conditions measured on site, a regression analysis was conducted with the active output power of the PV system. The main objective of the work was to develop a comprehensive method for analysing PV plant monitoring data and the impact of weather conditions on its performance. The proposed method was realized as a case study for central Poland but can be implemented anywhere.
Twórcy
  • Faculty of Civil Engineering, Mechanics and Petrochemistry, Warsaw University of Technology
Bibliografia
  • 1. Hegedus S., Luque A. Handbook of Photovoltaic Science and Engineering. Second Edi. John Wiley & Sons, Ltd. 2011.
  • 2. Beránek V., Olšan T., Libra M., Poulek V., Sedláček, J., Dang M.Q., Tyukhov I. New Monitoring System for Photovoltaic Power Plants’ Management. Energies. 2018; 11: 2495. doi:10.3390/en11102495.
  • 3. Rivai A., Abd Rahim N., Mohamad Elias M.F., Jamaludin J. Analysis of Photovoltaic String Failure and Health Monitoring with Module Fault Identification. Energies. 2019; 13(100). doi:10.3390/en13010100.
  • 4. Messenger R.A., Ventre A. Photovoltaic Systems Engineering; Fourth Edi. CRC Press Taylor & Francis Group, 2017. 5. Bošnjaković M., Santa R., Crnac Z., Bošnjaković T. Environmental Impact of PV Power Systems. Sustainability. 2023; 15: 11888. doi:10.3390/su151511888.
  • 6. Todorović D.D., Stojanović Krasić M., Jovanović S., Drljača B., Kevkić T. A Statistical Analysis of Long-Term Grid-Connected PV System Operation in Niš (Serbia) under Temperate Continental Climatic Conditions. Appl. Sci. 2023; 13: 6229. doi:10.3390/app13106229.
  • 7. Dziennik Ustaw RP, Poz. 478. USTAWA z Dnia 20 Lutego 2015 r. o Odnawialnych Źródłach Energi Available online: http://isap.sejm.gov.pl/isap.nsf/DocDetails.xsp?id=wdu20150000478 (accessed on 15 December 2023).
  • 8. Portal RynekElektryczny.pl Moc Zainstalowana Fotowoltaiki. Nowa Instalacja Ma Przeciętnie 30 KW (in Polish) Available online: https://www.rynekelektryczny.pl/moc-zainstalowana-fotowoltaiki-w-polsce/ (accessed on 4 January 2024).
  • 9. El Manssouri O., Hajji B., Tina G.M., Gagliano A., Aneli S. Electrical and Thermal Performances of Bi-Fluid PV/Thermal Collectors. Energies. 2021; 14: 1633. doi:10.3390/en14061633.
  • 10. Jaszczur M., Teneta J., Hassan Q., Majewska E., Hanus R. An Experimental and Numerical Investigation of Photovoltaic Module Temperature Under Varying Environmental Conditions. Heat Transf. Eng. 2019; 1–14. doi:10.1080/01457632.2019.1699306.
  • 11. Sarniak M. Influence of Solar Radiation and Ambient Temperature on the Unit Yield of a Photovoltaic System. Appl. Mech. Mater. 2015; 797: 202–209. doi:10.4028/www.scientific.net/AMM.797.202.
  • 12. Barth N., Jovanovic R., Ahzi S., Khaleel M.A. PV Panel Single and Double Diode Models: Optimization of the Parameters and Temperature Dependence. Sol. Energy Mater. Sol. Cells. 2016; 148: 87–98. doi:10.1016/j.solmat.2015.09.003.
  • 13. Appelbaum J., Maor T. Dependence of Pv Module Temperature on Incident Time-Dependent Solar Spectrum. Appl. Sci. 2020; 10. doi:10.3390/app10030914.
  • 14. Sarniak M.T. Researches of the Impact of the Nominal Power Ratio and Environmental Conditions on the Efficiency of the Photovoltaic System: A Case Study for Poland in Central Europe. Sustainability. 2020; 12: 6162. doi:10.3390/su12156162.
  • 15. Lou S., Chen W., Li D.H.W., Wang M., Chen H., Lun I.Y.F., Xia D. Tilted Photovoltaic Energy Outputs in Outdoor Environments. Sustainability. 2019; 11: 6052. doi:10.3390/su11216052.
  • 16. Magare D., Sastry O., Gupta R., Bora B., Singh Y., Mohammed H. Wind Effect Modeling and Analysis for Estimation of Photovoltaic Module Temperature. J. Sol. Energy Eng. 2017; 140(8) doi:10.1115/1.4038590.
  • 17. Yadav A.S., Mukherjee V. Line Losses Reduction Techniques in Puzzled PV Array Configuration under Different Shading Conditions. Sol. Energy. 2018; 171: 774–783. doi:https://doi.org/10.1016/j.solener.2018.07.007.
  • 18. Baka M., Manganiello P., Soudris D., Catthoor F. A Cost-Benefit Analysis for Reconfigurable PV Modules under Shading. Sol. Energy. 2019; 178: 69–78. doi:10.1016/j.solener.2018.11.063.
  • 19. Mohamed M.A., Zaki Diab A.A., Rezk H. Partial Shading Mitigation of PV Systems via Different Meta-Heuristic Techniques. Renew. Energy. 2019; 130: 1159–1175. doi:https://doi.org/10.1016/j.renene.2018.08.077.
  • 20. Jaszczur M., Teneta J., Styszko K., Hassan Q., Burzyńska P., Marcinek E., Łopian N. The Field Experiments and Model of the Natural Dust Deposition Effects on Photovoltaic Module Efficiency. Environ. Sci. Pollut. Res. 2019; 26: 8402–8417. doi:10.1007/s11356-018-1970-x.
  • 21. Wilberforce T., El-Hassan Z., Khatib F.N., Makky A. Al, Baroutaji A., Carton J.G., Olabi A.G. Developments of Electric Cars and Fuel Cell Hydrogen Electric Cars. 2017; doi:10.1016/j.ijhydene.2017.07.054.
  • 22. Yahyaoui Z., Hajji M., Mansouri M., Bouzrara K. One-Class Machine Learning Classifiers-Based Multivariate Feature Extraction for Grid-Connected PV Systems Monitoring under Irradiance Variations. Sustainability. 2023; 15: 13758. doi:10.3390/su151813758.
  • 23. FRONIUS Dane z Monitoringu Instalacji “PW Jachowicza 2” Available online: https://www.solarweb.com/Home/GuestLogOn?pvSystemId=ffff5835-6796-477e-af9d-6fccaa49a51b (accessed on 5 September 2023).
  • 24. GMBH, B.S. Data Sheet for PV Module BS-320-6MB5-EL Available online: http://eaton.elektroteam.pl/wp-content/uploads/2020/05/03.-BS-6MB5-EL-310-320-MONO-PERC.pdf (accessed on 5 September 2023).
  • 25. FRONIUS Data Sheet of the PV Inverter FRONIUS SYMO 3.0-3-S Available online: https://www.fronius.com/pl-pl/poland/energia-sloneczna/instalatorzy-i-partnerzy/dane-techniczne/wszystkie-produkty/falownik/fronius-symo/fronius-symo-3-0-3-s (accessed on 5 September 2023).
  • 26. FRONIUS Technical Data of the Fronius Sensor Box Measurement Card Available online: https://www.fronius.com/pl-pl/poland/energia-sloneczna/instalatorzy-i-partnerzy/dane-techniczne/wszystkie-produkty/monitorowanie-instalacji/sprzęt/fronius-sensor-card-box/fronius-sensor-box (accessed on 5 September 2023).
  • 27. ENERGY 5 Technical Specifications of the AERO S Mounting System Available online: https://energy5.pl/wp-content/uploads/2022/12/Karta-Aero-S-po-dlugim-boku.pdf (accessed on 3 September 2023).
  • 28. Polish Photovoltaic Society Available online: http://pv.home.pl/pv-pl/wp-content/uploads/2013/04/Poland-naslonecznienie-PV-Poland.pdf (accessed on 3 September 2023).
  • 29. European Commission PVGIS - Photovoltaic Geographical Information System Available online: https://re.jrc.ec.europa.eu/pvg_tools/en/ (accessed on 4 September 2023).
  • 30. MathWorks MATLAB - Curve Fitting Available online: https://www.mathworks.com/help/curvefit/curve-fitting.html (accessed on 3 September 2023).
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-db3dc51b-3916-4b9d-a9f7-7aa0abe61ee0
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