Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy (PIG-PIB)
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Usługa przeglądania danych podsystemu Otwory Centralnej Bazy Danych Geologicznych. Usługa spełnia wymagania specyfikacji INSPIRE dla usług przeglądania (INSPIRE View Service). Usługa wykorzystuje interfejs WMS OGC w wersji 1.3.0.
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Usługa pobierania umożliwiająca pobieranie danych INSPIRE dla Centralnej Bazy Danych Geologicznych Podsystem Otwory. Usługa wykorzystuje interfejs Atom w wersji 1.0 i OpenSearch w wersji 1.1.
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Powstała w ramach przedsięwzięcia "Ramowy model 3D budowy geologicznej Polski jako podstawa nowoczesnej, cyfrowej kartografii geologicznej" aplikacja GIS 3D przedstawie 53 warstwy informacyjne, w tym: przestrzenne zasięgi regionalnych formacji i struktur geologicznych od czwartorzędu po prekambr, opisy wydzieleń i struktur, tektonikę, lokalizację wybranych otworów i sejsmiki oraz lokalizację wybranych bardziej sczegółowych modeli geologicznych 3D. W ramach WP3 wykorzystano ten model 3D do wygenerowania zasięgów wybranych, perspektywicznych dla geologicznej sekwestracji CO2 formacji geologicznych (w tym wystepujacych na głębokości ponizej 800 m p.p.t.).
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Under the Act of June 9, 2011, Geological and Mining Law (Journal of Laws No. 163, item 981, as amended) Polish Geological Institute – National Research Institute (PIG-PIB) performs the role of Polish Geological Survey. One of the tasks of PIG-PIB as Geological Survey is to create and maintain geological databases, in this including the system MIDAS (the System of management and protection of mineral resources in Poland – MIDAS). System MIDAS is the primary source of information on mineral resources of Poland, the exploitation of deposits and it is the source of data for the project Mintell4eu. The System contains information on deposits (and its spatial location), raw materials in deposits, raw materials resources and on the raw materials volumes of exploitation. In addition, it also contains data on mining areas and exploatation permits (concessions) as well as their spatial location. The owner of the colected data is the State Treasury represented by the proper minister resposible for geology. The original MIDAS database structure has been modified and adapted to the structure given in Mintell4eu specification.
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Maps showing average values of thermal conductivity of soils and rocks, expressed in units of W/(m*K), for the 0-40 m depth interval. Maps were created on the basis of a numerical, three-dimensional model of geological structure (base model), which was then filled with geological-thermal series with assigned values of thermal conductivity rate expressed in units [W/m*K] (parametric model). The parametric model was used to calculate the average value of thermal conductivity of soils and rocks at each point of the studied area and up to the chosen depth level. Maps were produced as part of a project funded by the National Fund for Environmental Protection and Water Management entitled: ‘Assessment of the energy potential and environmental conditions of low-temperature geothermal energy’ carried out between 2017 and 2022.
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Maps showing average values of thermal conductivity of soils and rocks, expressed in units of W/(m*K), for the 0-70 m depth interval. Maps were created on the basis of a numerical, three-dimensional model of geological structure (base model), which was then filled with geological-thermal series with assigned values of thermal conductivity rate expressed in units [W/m*K] (parametric model). The parametric model was used to calculate the average value of thermal conductivity of soils and rocks at each point of the studied area and up to the chosen depth level. Maps were produced as part of a project funded by the National Fund for Environmental Protection and Water Management entitled: ‘Assessment of the energy potential and environmental conditions of low-temperature geothermal energy’ carried out between 2017 and 2022.
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The Map of Groundwater Utilization Classified as Mineral Resources in Poland was developed by the Polish Geological Institute – National Research Institute. The first edition was published in 2015 and included information on medicinal, thermal, and brine waters as of the end of the previous year. Due to the dynamic increase in the number of documented deposits and resources, as well as significant interest from users, the map is updated annually and is available in digital format. Each edition of the map provides information on the occurrence of medicinal, thermal, and brine waters, which, according to the Geological and Mining Law, are classified as mineral resources. It includes their physicochemical characteristics, exploitable resources, methods and intensity of utilization, as well as planned investments related to their extraction. Additionally, the map presents data on areas particularly favorable for the exploration and extraction of these types of waters.
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The Map of Groundwater Utilization Classified as Mineral Resources in Poland was developed by the Polish Geological Institute – National Research Institute. The first edition was published in 2015 and included information on medicinal, thermal, and brine waters as of the end of the previous year. Due to the dynamic increase in the number of documented deposits and resources, as well as significant interest from users, the map is updated annually and is available in digital format. Each edition of the map provides information on the occurrence of medicinal, thermal, and brine waters, which, according to the Geological and Mining Law, are classified as mineral resources. It includes their physicochemical characteristics, exploitable resources, methods and intensity of utilization, as well as planned investments related to their extraction. Additionally, the map presents data on areas particularly favorable for the exploration and extraction of these types of waters.
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Powstała w ramach przedsięwzięcia "Rozpoznanie formacji i struktur do bezpiecznego geologicznego składowania CO2 wraz z ich programem monitorowania (2008-2012)" aplikacja GIS przedstawiająca 30 warstw informacyjnych związanych z zagadnieniami geologicznej sekwestracji CO2 w Polsce, w tym: struktury i obszary perspektywiczne; emitenci CO2; obszary chronione, lokalizacja wybranych otworów oraz sejsmiki, złoża i koncesje węglowodorowe, trasy rurociągów, mapy temperatur w stropie wybranych zbiorników, podkład. Zaktualizowana w 2024 roku po zmianie systemu operacyjnego na serwerze.
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Maps showing average values of thermal conductivity of soils and rocks, expressed in units of W/(m*K), for the 0-100 m depth interval. Maps were created on the basis of a numerical, three-dimensional model of geological structure (base model), which was then filled with geological-thermal series with assigned values of thermal conductivity rate expressed in units [W/m*K] (parametric model). The parametric model was used to calculate the average value of thermal conductivity of soils and rocks at each point of the studied area and up to the chosen depth level. Maps were produced as part of a project funded by the National Fund for Environmental Protection and Water Management entitled: ‘Assessment of the energy potential and environmental conditions of low-temperature geothermal energy’ carried out between 2017 and 2022.