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Wyświetlanie 1-4 z 4
Tytuł:
The state of geothermal energy utilization in Europe and the world as of 2020
Stan wykorzystania energii geotermalnej w Europie i na świecie w 2020 r.
Autorzy:
Hajto, Marek
Powiązania:
https://bibliotekanauki.pl/articles/2067524.pdf
Data publikacji:
2021
Wydawca:
Państwowy Instytut Geologiczny – Państwowy Instytut Badawczy
Tematy:
energia geotermalna
wykorzystanie geotermalne
perspektywy rozwoju
świat
Europa
lata 2015-2020
geothermal energy
geothermal use
development prospects
world
Europe
years 2015-2020
Opis:
According to data presented at the World Geothermal Congress 2020+1 and the European Geothermal Energy Council (EGEC) market report, a significant increase in the use of geothermal energy was recorded worldwide in 2015-2020. The number of countries reporting direct use of geothermal resources (including ground source heat pumps) increased to 88 (34 in Europe), while the number of countries reporting geothermal electricity production to 29 (11 in Europe). The increase in the installed geothermal capacity for direct use in the last 5years was over 50%, reaching approx. 108 GWt (use of thermal energy slightly exceeds ca. 1 EJ/year), wherein ground source heat pumps (GSHP) possess the highest percentage share in the above increase. They are responsible for almost 60% of the energy produced. The world leaders in terms of direct use of geothermal energy, excluding ground source heat pumps, are in the following order: China, Turkey, Japan, Iceland, Hungary, and New Zealand. China, where the installed capacity of GSHP amounted to approx. 26 GWt, holds the scepter of the world leader in this field. Three European countries: Sweden, Germany and Finland, are on the “top five” list in the world in terms of installed capacity at geothermal heat pumps. The total installed capacity of geothermal power plants in the world at the end of 2019 amounted to approx. 16 GWe (approx. 30% increase in 2015-2019), which allowed for the production of approx. 95 TWh/year of electricity. The world leader in terms of generating electricity from geothermal energy is the United States, with an installed capacity of approx. 3.7 GWe. The remaining countries with installed capacity exceeding 1 GWe are: Indonesia, the Philippines, Turkey, Kenya, New Zealand, and Mexico. A growing interest in generating electricity by using binary systems, in particular in Europe has been noticed. In the period 2015-2019, three new binary installations in Croatia, Hungary, and Belgium were put into operation. In 2020, 8 new geothermal power plants were commissioned in Turkey, which provide additional capacity of approx. 165 MWe. In Europe, geothermal electricity is produced in 11 countries, and the installed capacity in 139 power plants has been estimate data round 3.5 GWe. In recent years, in the world, and especially in Europe, a significant increase in interest in the recovery of critical elements (CRMs) from geothermal waters, mainly lithium, has been noticed. The initially identified potential indicates the possibility of covering up to approx. 25% of the EU countries' demand for lithium from geothermal brines by 2030. In many countries, geothermal energy is one of the most promising sources of renewable energy, especially when it comes to environmental and economic considerations. In some countries of the world, geothermal energy is a key element of the economy, guaranteeing energy security and enabling the achievement of the goals of climate neutrality. In other, less developed countries, geothermal energy may constitute the basic source of energy, and sometimes a significant source of national income, conditioning economic development and increasing the country's economic and energy independence.
Źródło:
Przegląd Geologiczny; 2021, 69, 9; 566--577
0033-2151
Pojawia się w:
Przegląd Geologiczny
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
The potential to improve air quality by increasing the use of deep geothermal energy
Autorzy:
Hajto, Marek
Kaczmarczyk, Michał
Powiązania:
https://bibliotekanauki.pl/articles/2124697.pdf
Data publikacji:
2022
Wydawca:
Akademia Górniczo-Hutnicza im. Stanisława Staszica w Krakowie. Wydawnictwo AGH
Tematy:
air pollution
equivalent emission factors
deep geothermal energy development
emission inventory
Polska
Opis:
Increasing the use of geothermal energy may be one of the tools bringing us closer to achieving the European Commission’s objective of reducing greenhouse gas emissions by 55% by 2030. Air quality improvement plays a strategic role in achieving sustainable energy development. Both European and national legislation in this field is particularly comprehensive and effective, establishing rules for monitoring and preventing air pollution in order to avoid adverse effects on human health and the environment. Unfortunately, the effective air pollutions monitoring network currently in place in Poland, with 156 monitoring stations, mainly concerns agglomerations and cities with over 100,000 inhabitants. The lack of information on the state of pollution in smaller towns is a significant limitation in terms of research aimed at assessing the effects of corrective measures taken, such as the possible transformation of district heating systems based on RES, including the use of deep geothermal energy. This paper proposes some solutions which allow the effective estimation of air conditions in locations not covered by environmental monitoring, in the context of the potential to develop geothermal resources in the rich geothermal province of Central Poland.
Źródło:
Geology, Geophysics and Environment; 2022, 48, 2; 147---175
2299-8004
2353-0790
Pojawia się w:
Geology, Geophysics and Environment
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
Geological conditions of geothermal resource occurrences in Poland
Autorzy:
Sowiżdżał, Anna
Górecki, Wojciech
Hajto, Marek
Powiązania:
https://bibliotekanauki.pl/articles/2058567.pdf
Data publikacji:
2020
Wydawca:
Państwowy Instytut Geologiczny – Państwowy Instytut Badawczy
Tematy:
geothermal energy
geothermal resources
Wiśniowa
Poddębice
Polska
Opis:
The occurrence of geothermal resources in Poland relates to four main hydrogeothermal provinces: the Polish Lowlands, the Carpathians, the Carpathian Foredeep and the Sudetes, each characterized by different geological conditions. Recognition of Poland's geothermal potential on a regional scale is good, yet, in order to evaluate the capabilities of utilising geothermal waters taking into account specific local conditions, a detailed geological, hydrogeological and thermal analysis is required in each case. Sometimes, the results of this analysis provide new insights into the geological structure and hydrogeological conditions in the region of specific resources, and indicate alternative approaches to resource evaluation. We summarise the geological conditions around geothermal water resources in Poland, and also illustrate local variability in selected hydrogeothermal parameters in the area of Wiśniowa, located in the Outer Carpathians, and in Poddębice, a central part of the Polish Lowlands. Selected examples of the effects of the research carried out in these areas of Wiśniowa and Poddębice show situations where the results of making a borehole can be unpredictable.
Źródło:
Geological Quarterly; 2020, 64, 1; 185--196
1641-7291
Pojawia się w:
Geological Quarterly
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
Tematyka geotermalna w działalności naukowo-badawczej i dydaktycznej Katedry Surowców Energetycznych Wydziału Geologii Geofizyki i Ochrony Środowiska Akademii Górniczo-Hutniczej w latach 2019–2021 i plany na przyszłość
Research and education activities of KSE WGGiOŚ AGH in the field of geothermal energy in 2019–2021 and further action plans
Autorzy:
Sowiżdżał, Anna
Hajto, Marek
Tomaszewska, Barbara
Kotyza, Jarosław
Górecki, Wojciech
Powiązania:
https://bibliotekanauki.pl/articles/2076229.pdf
Data publikacji:
2021
Wydawca:
Państwowy Instytut Geologiczny – Państwowy Instytut Badawczy
Tematy:
energia geotermalna
badania i edukacja
geotermalna pompa ciepła
zasoby geotermalne
geothermal energy
research and education
geothermal heat pump
geothermal resources
Opis:
For many years, geothermal issues have been one of the basic research and teaching activities of the Department of Fossil Fuels of the Faculty of Geology, Geophysics and Environmental Protection of the AGH University of Science and Technology (KSE WGGiOŚ AGH). National and international research projects on the evaluation of the geothermal potential of Poland, innovative technologies for geothermal energy extraction, as well as effective management of water resources and geothermal energy are carried out. In recent years (2019-2021), scientific and research projects such as GeoPLASMA-CE, EnerGizerS, Geotherm, CA18219 Geothermal-DHC, Lajkonik, NiżPIG, concerning the issues of shallow and deep geothermal energy utilization, are implemented. As far as didactic activity is concerned, the AGH is developing Ecological Energy Sources, as well as petroleum geology and geothermal specialization at the Applied Geology. Doctoral theses in the field of geothermics are being carried out. Research works, including projects concerning construction of heat pump prototypes, are carried out in the Centre for Sustainable Development and Energy Conservation of the AGH University of Science and Technology in Miękinia equipped with heat pump test stands. The Centre is currently being expanded.
Źródło:
Przegląd Geologiczny; 2021, 69, 9; 633--642
0033-2151
Pojawia się w:
Przegląd Geologiczny
Dostawca treści:
Biblioteka Nauki
Artykuł
    Wyświetlanie 1-4 z 4

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