Possibilities of using the energy potential of geothermal waters in the case of Poland and Ukraine

• Autorzy: Lis Anna , Savchenko Olena

Identyfikatory

DOI

10.17512/bozpe.2022.11.21

• Języki publikacji: EN

Abstrakty

EN

The development of energy based on RES is an important element of the policy of sustainable development and maintaining energy security. The difficult situation in the energy sector is turning more and more countries towards alternative energy sources. The feasibility of obtaining energy from renewable sources is linked primarily to the resources that are also economical. The main advantage of geothermal waters is that they can be used to produce heat or electricity, regardless of the time of day or climatic conditions. Data from geological research allows us to conclude that both Ukraine and Poland have favorable conditions for the use of energy from low and medium temperature geothermal waters. Ukraine is also turning to the possibility of using geothermal energy to produce electricity. Examples highlighting the possibility of using the energy potential of geothermal waters in the Lviv region and the Czestochowa poviat were presented.

Słowa kluczowe

EN

geothermal energy; geothermal water; geothermal installation

PL

energia geotermalna; wody geotermalne; instalacja geotermalna

• Wydawca: Wydawnictwo Politechniki Częstochowskiej
• Czasopismo: Budownictwo o Zoptymalizowanym Potencjale Energetycznym
• Rocznik: 2022
• Tom: Vol. 11
• Strony: 181--194
• Opis fizyczny: Bibliogr. 32 poz., rys., tab.

Twórcy

autor

Lis Anna

• Czestochowa University of Technology, Poland

• https://orcid.org/0000-0002-8869-7759

autor

Savchenko Olena

• Lviv Polytechnic National University, Ukraine

• https://orcid.org/0000-0002-6431-088X

Bibliografia

• 1.Boguniewicz-Zabłocka, J. (2019) Analysis of the sustainable use of geothermal waters and future development possibilities. A case study from the Opole Region, Poland. Sustainability, 11, 6730.
• 2.Bujakowski, W. (2015) Geological, environmental and technical factors affecting the design and operation of geothermal plants in Poland. Cracow, Mineral and Energy Economy Research Institute of the Polish Academy of Sciences.
• 3.Communication from the Commission to the European Parliament, the European Council, the Council, the European Economic and Social Committee and the Committee of the Regions. The European Green Deal (2019) Brussels, European Commission.
• 4.Communication from the Commission to the European Parliament, the European Council, the Council, the European Economic and Social Committee and the Committee of the Regions. Fit for 55’: delivering the EU’s 2030 Climate Target on the way to climate neutrality (2021). Brussels, European Commission.
• 5.Communication from the Commission to the European Parliament, the European Council, the Council, the European Economic and Social Committee and the Committee of the Regions. REPowerEU Plan (2022). Brussels, European Commission.
• 6.Directive 2018/2001/EU of the European Parliament and of the Council of 11 December 2018 on the promotion of the use of energy from renewable sources. OJ L 328, 21.12.2018, p. 82.
• 7.Dolinskiy, A.A. & Khalatov, A.A. (2016) Geothermal energy: the electricity and thermal energy production. Visnyk of the National Academy of Sciences of Ukraine, 11, 76-86.
• 8.Dziadzio, P. (2021) Geothermal development support programs in Poland and their effects. Przegląd Geologiczny, 69(9), 549-558.
• 9.EGEC Geothermal Market Report 2021 (2022) Bruxelles, European Geothermal Energy Council.
• 10.Energy from renewable sources in 2020 (2022) Warsaw, Statistics Poland.
• 11.Flaksman, A.S. et al. (2020) Prospects for the development of alternative energy sources in the world energy. IOP Conference Series: Earth and Environmental Science, 723, 052040.
• 12.Hajto, M. (2021) The state of geothermal energy utilization in Europe and the world as of 2020. Przegląd Geologiczny, 69(9), 566-577.
• 13.Ivanov, Ye.A. et al. (2022) The geographical location, current state and forecasting of development of renewable energy facilities within Lviv region. Journal of Geology, Geography and Geoecology, 31, 59-70.
• 14.Kępińska, B. (2021) Geothermal energy applications in Poland in 2019-2021. Przegląd Geologiczny, 69(9), 559-565.
• 15.Lis, A. (2020) Renewable energy sources and rationalization of energy consumption in buildings as a way to reduce environmental pollution. Heating, Ventilation and Sanitation, 29(6), 264-271.
• 16.Lund, J.W., Huttrer, G.W. & Toth, A.N. (2022). Characteristics and trends in geothermal development and use, 1995 to 2020. Geothermics, 105, 102522.
• 17.Lymarenko, O. (2021) Effect of geothermal energy production on ecological Environment in Ukraine. Journal of New Technologies in Environmental Science, 5(1), 46-50.
• 18.Morozov, Y. & Barylo, A. (2019) Geothermal Energy Use. Country Update for Ukraine. In: European Geothermal Congress. Den Haag, EGEC.
• 19.Multi-year Program for the Development of the use of Geothermal Resources in Poland (2021) Warsaw, Ministry of Climate and Environment.
• 20.Noga, B. (2022) How to use the potential of geothermal energy? Warsaw, Multiconsult Polska.
• 21.Østergaard, P.A. et al. (2022) Renewable energy for sustainable development. Renewable Energy, 199, 1145-1152.
• 22.Renewable energy statistics 2022 (2022) Abu Dhabi, International Renewable Energy Agency.
• 23.Resolution of the Cabinet of Ministers of Ukraine of 18th August 2017 Energy Strategy of Ukraine up to 2035. Security, energy efficiency, competitiveness. OJ 2017 No. 605-r.
• 24.Romanov, D. & Leiss, B. (2022) Geothermal energy at different depths for district heating and cooling of existing and future building stock. Renewable and Sustainable Energy Reviews, 167, 112727.
• 25.Rudakov, D. & Inkin, O. (2019) An assessment of technical and economic feasibility to install geothermal well systems across Ukraine. Geothermal Energy, 7, 17.
• 26.Sekret, R., Lis, P. & Lis, A. (2009) Application of the low temerature geothermal energey sources to the heating of buldings. In: Scientific Conference Building and Energy. Košice, Technical University of Košice, 69-72.
• 27.Sekret, R. & Pidzik, E. (2008) Analysis of the possibility of using the 17-BN borehole for heating purposes of public utility buildings in Poczesna. Czestochowa, Czestochowa University of Technology.
• 28.Shurchkova, Yu.A. (2019) Resource base for the development of geothermal energy in Ukraine. The Problems of General Energy, 3(58), 24-29.
• 29.Sowizdzal, A. (2018) Geothermal energy resources in Poland. Overview of the current state of knowledge. Renewable and Sustainable Energy Reviews, 82(3), 4020-4027.
• 30.The use of thermal water energy for the purposes of heat generation. Information on the inspection results (2022) Warsaw, Supreme Audit Office.
• 31.Yurkevych, Y., Savchenko, O. & Savchenko, Z. (2022) Prospects for development of geothermal energy in Lviv Region. Energy Engineering and Control Systems, 8(1), 1-6.
• 32.Zimny, J., Karch, M. & Szczotka, K. (2008) Geothermal provinces and districts of Poland and potential water and energy resources contained therein according to Professor J. Sokołowski and others. Kraków, Polish Geothermal Association.

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).