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ORIGINAL ARTICLE
THE USE OF THE HIERARCHICAL METHOD TO GROUP THE COUNTRIES OF THE EUROPEAN UNION ACCORDING TO THEIR ENERGY AND CLIMATE POLICIES ADOPTED ON THE BASIS OF DIRECTIVES OF THE EUROPEAN PARLIAMENT
1
Katedra Statystyki i Polityki Społecznej,, Uniwersytet Rolniczy im Hugona Kołłątaj w Krakowie, Polska
2
Katedra Statystyki i Polityki Społecznej, Uniwersytet Rolniczy im Hugona Kołłątaj w Krakowie, Polska
Submission date: 2022-09-23
Final revision date: 2022-11-22
Acceptance date: 2022-11-22
Online publication date: 2023-03-29
Publication date: 2023-03-29
Corresponding author
Monika Maria Zioło
Katedra Statystyki i Polityki Społecznej,, Uniwersytet Rolniczy im Hugona Kołłątaj w Krakowie, Al.. Mickiewicza 21, 31-120, Kraków, Polska
Katedra Statystyki i Polityki Społecznej,, Uniwersytet Rolniczy im Hugona Kołłątaj w Krakowie, Al.. Mickiewicza 21, 31-120, Kraków, Polska
Economic and Regional Studies 2023;16(1):18-33
KEYWORDS
TOPICS
ABSTRACT
Subject and purpose of work: The European Union’s energy policy focuses mainly on three areas:
reducing greenhouse gas emissions in the energy sector by increasing the use of RES, reducing emissions of harmful pollutants, and increasing the efficiency of the electricity used. Sustainable energy use, on the other hand, is clearly associated with an increased use of renewable energy sources, which ensures energy security, as well as diversification of energy supplies that sustain and improve the quality of the environment.
The purpose of the paper is to present the diversity of the countries of the European Union in terms of the actions they take in the field of energy and climate policy resulting from the European Union directives. Materials and methods: Based on the goals of energy policy presented in the EU directives
a number of indicators were selected in order to describe the actions taken by EU member states. After a substantive and statistical verification, 6 variables were left. The use of the Ward’s method made it possible to create groups of countries that are similar in terms of their energy and climate policies. Results: On the basis of the objectives of the energy policy presented in the EU directives, indicators describing the activities of the member states in this respect were selected. Conclusions: The most favorable situation in terms of the effects of the climate and energy
policy can be observed in the current leaders, that is in Sweden and Finland as well as in Estonia. Central European countries, mainly Poland, have high-emission economies, accompanied by low investment in modern environmentally friendly technologies. This is manifested, among others, in high concentrations of particulate matter, which contributes to poor air quality, categories in which Poland has some of the worst results in the entire EU.
REFERENCES (31)
1.
2020 Climate & Energy package, https://climate.ec.europa.eu/e...- climate-energy-package _pl: dostęp: 15.09.2022.
2.
Bełdowicz, A., (2021). OZE rośnie najszybciej od 22 lat, Chiny światowym liderem. klimat.rp.pl, accessed: 21.10.2021.
3.
Chalvatzis, K.,J., Ioannidis, A., (2017). Energy supply security in the EU: Benchmarking diversity and dependence of primary energy, Applied Energy, 207, s.465-476.
5.
Commission Communication (COM(2018)773. A Clean Planet for all: A European strategic long-term vision for a prosperous, modern, competitive and climate neutral economy. Accessed:15.09.2022.
6.
Decyzja Parlamentu Europejskiego i Rady nr 2009/406/WE z dnia 23 kwietnia 2009 r. w sprawie wysiłków podjętych przez państwa członkowskie, zmierzających do zmniejszenia emisji gazów cieplarnianych w celu realizacji do roku 2020 zobowiązań Wspólnoty dotyczących redukcji emisji gazów cieplarnianych. Accessed: 22.10.2022.
7.
Decyzja Rady (UE) 2016/1841 z dnia 5 października 2016 r. w sprawie zawarcia, w imieniu Unii Europejskiej, porozumienia paryskiego przyjętego na mocy Ramowej konwencji Narodów Zjednoczonych w sprawie zmian klimatu, EUR-Lex - 32016D1841 - PL - EUR-Lex (europa.eu). Accessed: 15.11.2022.
8.
Directive 2009/29/EC of the European Parliament and of the Council of 23 April (2009) amending Directive 2003/87/EC so as to improve and extend the greenhouse gas emission allowance trading scheme of the Community. Accessed: 22.10.2022.
9.
Dyrektywa Parlamentu Europejskiego i Rady 2009/29/WE z dnia 23 kwietnia 2009 r. zmieniająca dyrektywę 2003/87/WE w celu usprawnienia i rozszerzenia wspólnotowego systemu handlu uprawnieniami do emisji gazów cieplarnianych. Accessed: 22.10.2022.
10.
Dyrektywa Parlamentu Europejskiego i Rady 2009/31/WE z dnia 23 kwietnia 2009 r. w sprawie geologicznego składowania dwutlenku węgla. Accessed: 22.10.2022.
11.
Dyrektywa Parlamentu Europejskiego i Rady 2009/28/WE z dnia 23 kwietnia 2009 r. w sprawie promowania stosowania energii ze źródeł odnawialnych zmieniająca i w następstwie uchylająca dyrektywy 2001/77/WE oraz 2003/30/WE (europa.eu). Accessed: 22.10.2022.
12.
Elavarasan, R., M., Afridhis, S., Vijayaraghavan, R. R., Subramaniam, U., Nurunnabi, M. (2020). SWOT analysis: A framework for comprehensive evaluation of drivers and barriers for renewable energy development in significant countries. Energy Reports, 6, s.1838–1864. https://doi.org/https:/ /doi.org/10.1016 /j.egyr. dostęp:07.09.2022.
13.
Energy Union Package -Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee, the Committee of the Regions and the European Investment Bank: A framework strategy for a resilient Energy Union with a forward-looking climate change policy, (2015), COM 80 final, European Commission.
14.
European Commission. Communication from the commission to the European parliament, the Council, the European economic and social committee and the committee of the regions. A policy framework for climate and energy in the period from 2020 to 2030. https://eur-lex.europa.eu/lega... -content/EN/ALL/?uri= CELEX:52014DC0015. dostęp: 22.09. 2022.
15.
European Environment Agency (EEA). Share of renewable energy in gross final energy consumption. https://ec.europa.eu/eurostat/ databrowser/ view/T2020_31/default/table dostęp: 09.09.2022.
16.
Gokgoz, F., Guvercin, M., T. (2018). Energy security and renewable energy efficiency in EU, Renewable and Sustainable Energy Reviews, Vol. 96, s. 226-239.
17.
Kassambara, A., (2017). Practical Guide To Cluster Analysis in R. STHDA, Mountain View.
18.
Key figures on Europe (2021). Luxembourg, Publications Office of the European Union, p.65.
19.
Kolasa-Więcek, A., Pisz, I. (2013). Wykorzystanie metody hierarchicznej w segmentacji państw europejskich w obszarze zasobów wodnych, Gospodarka Wodna, Nr 2, s. 61-63.
20.
Komunikat komisji do parlamentu europejskiego, rady, europejskiego komitetu ekonomiczno-społecznego i komitetu regionów „Gotowi na 55”: osiągnięcie unijnego celu klimatycznego na 2030 r. w drodze do neutralności klimatycznej COM/2021/550 final https://eur-lex.europa.eu/lega...% 3A52021DC0550 dostęp: 21.10.2022.
21.
Kyoto Protocol To The United Nations Framework Convention On Climate Change, kpeng.pdf (unfccc.int), dostęp 21.11.2022.
22.
Mahjabeen, S. Z. A., Chughtai, S., Simonetti, B. (2020). Renewable energy, institutional stability, environment and economic growth nexus of D-8 countries. Energy Strategy Reviews, 29, 100484. https://doi.org/ https: //doi.org/ 10.1016/ j.esr.2020.100484.
23.
Nations, U. (2015). Paris agreement. In Paris: Conference of the Parties to the United Nations Framework Convention on Climate Change.
25.
Prawo Unii Europejskiej. Prawo materialne i polityki, (2002). red. J. Barcz, PiPG, Warszawa, s. 526.
26.
Raś, K., (2019). Zmiany w polityce klimatycznej Estonii, Polski Instytut Spraw Międzynarodowych, PiSM Bulletin, 167(1915), s. 2-4.
27.
The roadmap for transforming the EU into a competitive, low-carbon economy by 2050, (2022), EUR-Lex - 52011DC0112 - PL - EUR-Lex (europa.eu), dostęp: 22.10.2022.
28.
Wąs, A., Sulewski, P., Krupin, V., Popadynets, N., Malak-Rawlikowska, A., Szymańska, M., Skorokhod, I., Wysokiński, M. (2020). The Potential of Agricultural Biogas Production in Ukraine—Impact on GHG Emissions and Energy Production. Energies, 13(5755). https://doi.org/10.3390/en1321....
29.
Wolf, T., Prawie cała energia elektryczna w Szwecji ma być z morza. Energetyka, dostęp 31.08.2022.
30.
Li, X., (2005). Diversification and localization of energy systems for sustainable development and energy security, Energy Policy, 33(17), s. 2237-2243.
31.
ZIELONA KSIĘGA Ramy polityki w zakresie klimatu i energii do roku 2030 GREEN PAPER A 2030 framework for climate and energy policies /COM/2013/0169 final, (2013), dostęp:15.09.2022.
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| ISSN: | 2083-3725 |
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