Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Purpose: The aim of the article is to analyse the development of solar energy in Poland against the background of other European countries. Design/methodology/approach: The research was conducted on data for 22 countries between 2012 and 2020 using dynamic analysis and multivariate analysis in the form of cluster analysis. Findings: Between 2012 and 2020, intensive development of solar energy sources was observed in the 22 countries studied. Although Poland invests very intensively - compared to other countries - in solar technologies (especially in photovoltaics), it does not yet belong to the cluster of high-performing countries in this respect. Originality/value: The article's value is to view the development of solar thermal systems in Poland and Europe from the perspective of a multidimensional analysis, which we conducted in two separate time units. This allowed us to draw conclusions about the development of solar systems in Poland also with regard to time.
Rocznik
Tom
Strony
171--186
Opis fizyczny
Bibliogr. 24 poz.
Twórcy
autor
- Silesian University of Technology
autor
- Silesian University of Technology
Bibliografia
- 1. Balta-Ozkan, N., Yildirim, J., Connor, P.M. (2015). Regional Distribution of Photovoltaic Deployment in the UK and Its Determinants: A Spatial Econometric Approach. Energy Econ., 51, 417-429, doi:10.1016/j.eneco.2015.08.003.
- 2. Balta-Ozkan, N., Yildirim, J., Connor, P.M., Truckell, I., Hart, P. (2021). Energy Transition at Local Level: Analysing the Role of Peer Effects and Socio-Economic Factors on UK Solar Photovoltaic Deployment. Energy Policy, 148, 112004, doi:10.1016/ j.enpol.2020.112004.
- 3. Briguglio, M., Formosa, G. (2017). When Households Go Solar: Determinants of Uptake of a Photovoltaic Scheme and Policy Insights. Energy Policy, 108, 154-162, doi:10.1016/j.enpol.2017.05.039.
- 4. Budin, L., Grdenić, G., Delimar, M. (2021). A Quadratically Constrained Optimisation Problem for Determining the Optimal Nominal Power of a PV System in Net-Metering Model: A Case Study for Croatia. Energies, 14, 1746, doi:10.3390/en14061746.
- 5. Davidson, C., Drury, E., Lopez, A., Elmore, R., Margolis, R. (2014). Modeling Photovoltaic Diffusion: An Analysis of Geospatial Datasets. Environ. Res. Lett., 9, 074009, doi:10.1088/1748-9326/9/7/074009.
- 6. Eurostat, https://ec.europa.eu/eurostat/web/main/data/database, 2.02.2022.
- 7. Fordowska, K., Kolektory słoneczne - wady i zalety. https://enerad.pl/aktualnosci/kolektory-sloneczne-wady-i-zalety/, 16.02.2022.
- 8. Górzyński, J. (2020). Pozyskiwanie i przetwarzanie energii odnawialnej. Napędy i Sterowanie, 22.
- 9. Graziano, M., Gillingham, K. (2015). Spatial Patterns of Solar Photovoltaic System Adoption: The Influence of Neighbors and the Built Environment. J. Econ. Geogr., 15, 815- 839, doi:10.1093/jeg/lbu036.
- 10. Jasiński, J., Kozakiewicz, M., Sołtysik, M. (2021). Determinants of Energy Cooperatives’ Development in Rural Areas-Evidence from Poland. Energies, 14, 319, doi:10.3390/en14020319.
- 11. Mularczyk, A. (2016). Analiza wielkości produkcji energii elektrycznej z odnawialnych źródeł energii w Polsce. Zeszyty Naukowe Politechniki Śląskiej Organizacja i Zarządzanie 96, pp. 133-142.
- 12. Mularczyk, A., Hysa, B. (2015). Rozwój i perspektywy energii solarnej w Polsce i województwie śląskim. Zeszyty Naukowe Politechniki Śląskiej Organizacja i Zarządzanie, 86, pp. 363-377.
- 13. Müller, J., Trutnevyte, E. (2020). Spatial Projections of Solar PV Installations at Subnational Level: Accuracy Testing of Regression Models. Appl. Energy, 265, 114747, doi:10.1016/j.apenergy.2020.114747.
- 14. Olczak, P., Matuszewska, D., Kryzia, D. (2020). ”Mój Prąd” as an Example of the Photovoltaic One off Grant Program in Poland. Polityka Energ. - Energy Policy J., 23, 123- 138, doi:10.33223/epj/122482.
- 15. Olczak, P., Olek, M., Matuszewska, D., Dyczko, A., Mania, T. (2021). Monofacial and Bifacial Micro PV Installation as Element of Energy Transition-The Case of Poland. Energies, 14, 499, doi:10.3390/en14020499.
- 16. Parzonko, A.J., Balińska, A., Sieczko, A. (2021). Pro-Environmental Behaviors of Generation Z in the Context of the Concept of Homo Socio-Oeconomicus. Energies, 14, 1597, doi:10.3390/en14061597.
- 17. Solar Thermal and Concentrated Solar Power Barometers. Available online https://www.eurobserv-er.org/solar-thermal-and-concentrated-solar-power-barometer-2021/, 2.02.2022.
- 18. Szultka, A.; Szultka, S., Czapp, S., Zajczyk, R. (2021). Voltage Variations and Their Reduction in a Rural Low-Voltage Network with PV Sources of Energy. Electronics, 10, 1620, doi:10.3390/electronics10141620.
- 19. Tokarczyk, P., Pietrzak, P, Więcka, A., Zarzeczna, J., Wiśniewski, G., Maćkowiak-Pandera, J. Rubczyński, A., Jędra, M., Macuk, R. (2020). Odnawialne źródła energii w ciepłownictwie. Technologie, które zmienią przyszłość. Forum Energii 2020, https://www.teraz-srodowisko.pl/media/pdf/aktualnosci/8674-OZE-cieplownictwo.pdf, 16.02.2022.
- 20. Ge, T.S., Wang, R.Z., Xu, Z.Y., Pan, Q.W., Du, S., Chen, X.M., Ma, T., Wu, X.N., Sun, X.L., Chen, J.F. (2018). Solar heating and cooling: Present and future development. Renewable Energy, Vol. 126, pp. 1126-1140, ISSN 0960-1481, https://doi.org/10.1016/ j.renene.2017.06.081.
- 21. Wolniak, R., Skotnicka-Zasadzień, B. (2022). Development of Photovoltaic Energy in EU Countries as an Alternative to Fossil Fuels. Energies Vol. 15, no. 2, 662. https://doi.org/10.3390/en15020662.
- 22. Zarębski, P., Krupin, V., Zwęglińska-Gałecka, D. (2021). Renewable Energy Generation Gaps in Poland: The Role of Regional Innovation Systems and Knowledge Transfer. Energies, 14, 2935, doi:10.3390/en14102935.
- 23. Zdonek, I., Tokarski, S., Mularczyk, A., Turek, M. (2022). Evaluation of the Program Subsidising Prosumer Photovoltaic Sources in Poland. Energies, 15(3), 846. https://doi.org/10.3390/en15030846.
- 24. Zhang, Y., Song, J., Hamori, S. (2011). Impact of Subsidy Policies on Diffusion of Photovoltaic Power Generation. Energy Policy, 39, 1958-1964, doi:10.1016/ j.enpol.2011.01.021.
Uwagi
PL
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-15b0ba27-029f-4260-a5c4-0630b7deab2a