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Large PV installations are being built increasingly often in areas close to airports in Poland and around the world. These are not only roof installations but also large PV farms, allowing not only the supply of the energy for the airport itself but also the ability to sell the excess energy produced. The applied PV installations may cause in some cases negative impact in the form of e.g., electromagnetic fields and light reflections which may limit the visibility of pilots and air traffic controllers. The article presents an overview of various negative impacts of PV farms on the workings of an airport and the main factors influencing the occurrence of certain threats have been diagnosed. An assessment of the usefulness of the tool and method for simulation and the reduction of possible negative impacts is also presented.
Rocznik
Tom
Strony
7--16
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
autor
- Bydgoszcz University of Technology, Poland
autor
- Bydgoszcz University of Technology, Poland
autor
- Czestochowa University of Technology, Poland
autor
- University of Babylon, Iraq
autor
- Al-Mustansiriya University, College of Engineering, Iraq
Bibliografia
- 1.Anurag, A., Zhang, J. & Gwamuri, J. (2017) General design procedures for airport-based solar photovoltaic systems. Energies, 10, 1194.
- 2.Barrett, S., Devita, P., Ho, C. & Miller, B. (2014) Energy technologies’ compatibility with airports and airspace: Guidance for aviation and energy planners. J. Airpt. Manag., 8, 318-326.
- 3.Flizikowski, J., Mroziński, A. (2016) Inżynieria instalacji fotowoltaicznych. Monografia pod redakcją A. Mrozińskiego. Wydawnictwo Grafpol, Bydgoszcz.
- 4.Idzikowski, A., Cierlicki, T., Al-Zubiedy, A. & Zawada, M. (2022) Management the operation process of photovoltaic modules in terms of quality and performance evaluation - a case study. Energies, 15(5), 1652.
- 5.Idzikowski, A. & Cierlicki, T. (2021) Economy and energy analysis in the operation of renewable energy installations - a case study. Production Engineering Archives, 27, 2, 90-99.
- 6.Kantamneni, A., Winkler, R., Gauchia, L. & Pearce, J.M. (2016) Emerging economic viability of grid defection in a northern climate using solar hybrid systems. Energy Policy, 95, 378-389.
- 7.Mostafa, M.F.A., Aleem, S.H.E.A. & Zobaa, A.F. (2016) Risk assessment and possible mitigation solutions for using solar photovoltaic at airports. 18th International Middle-East Power Systems Conference, MEPCON 2016 - Proceedings.
- 8.Mukund, R.P. (2006) Wind and Solar Power Systems: Design, Analysis and Operation. 2nd ed. Boca Raton, CRC Press.
- 9.Mroziński, A. (2015) Poradnik dobrych praktyk wdrażania instalacji odnawialnych źródeł energii. Bydgoszcz, Wydawnictwo 1studio.pl.
- 10.Nguyen, H.T. & Pearce, J.M. (2013) Automated quantification of solar photovoltaic potential in cities. Int. Rev. Spat. Plan. Sustain. Dev., 1, 57-70.
- 11.Ortega Alba, S. & Manana, M. (2017) Characterization and analysis of energy demand patterns in airports. Energies, 10(1), 119.
- 12.Riley, E.E. & Olson, S. (2011) A study of the hazardous glare potential to aviators from utility-scale flat-plate photovoltaic systems. International Scholarly Research Network ISRN Renewable Energy.
- 13.Ruesch, F., Bohren, A., Battaglia, M. & Brunold, S. (2016) Quantification of glare from reflected sunlight of solar installations. Energy Procedia, 91, 997-1004.
- 14.Sreenath, S., Sudhakar, K. & Yusop, A.F. (2019) SWOT analysis of solar PV systems in airport environment. International Journal on Emerging Technologies, 10, 2, 1-7.
- 15.Sreenath, S., Sudhakar, K., Yusop, A.F., Cuce, E. & Solomin, E. (2020) Analysis of solar PV glare in airport environment: Potential solutions. Results in Engineering, 5.
- 16.Tytko, R. (2020) Photovoltaics. Kraków, Wydawnictwo i Drukarnia Towarzystwa Słowaków w Polsce.
- 17.Walichnowska, P. & Idzikowski, A. (2021) Energy analysis of the PV farm with a capacity of 140 MW. Sciendo, QPI, 3, 369-376.
- 18.Yu Bin, Zhu (2018) The potential hazard analysis method of glare for photovoltaic near airports or within. IOP Conf. Series: Materials Science and Engineering, 392.
- 19.https://www.pv-magazine-australia.com/2018/09/06/northern-territory-airports-to-add-solar-farms/
- 20.https://www.pv-magazine-australia.com/2020/08/04/csiro-report-shows-flightpath-to-hydrogen-fuelled -commercial-aviation
- 21.https://federallabs.org/technology/solar-glare-hazard-analysis-tool-sghat-1
- 22.https://federallabs.org/labs/sandia-national-laboratories-snl
- 23.www.faa.gov/airports/environmental/policy_guidance/media/FAA-Airport-Solar-Guide-2018.pdf
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6ee9947e-eb59-4db7-b53d-9391a0b97a3b