The WMS InSpEE (INSPIRE) provides information about the areal distribution of salt structures (salt domes and salt pillows) in Northern Germany. Contours of the salt structures can be displayed at horizontal cross-sections at four different depths up to a maximum depth of 2000 m below NN. The geodata have resulted from a BMWi-funded research project “InSpEE” running from the year 2012 to 2015. The acronym stands for "Information system salt structures: planning basis, selection criteria and estimation of the potential for the construction of salt caverns for the storage of renewable energies (hydrogen and compressed air)”. Taking into account the fact that this work was undertaken at a scale for providing an overview and not for investigation of single structures, the scale of display is limited to a minimum of 1:300.000. Additionally four horizontal cross-section maps display the stratigraphical situation at a given depth. In concurrence of maps at different depths areal bedding conditions can be determined, e.g. to generally assess and interpret the spread of different stratigraphic units. Clearly visible are extent and shape of the salt structures within their regional context at the different depths, with extent and boundary of the salt structures having been the main focus of the project. Four horizontal cross-section maps covering the whole onshore area of Northern Germany have been developed at a scale of 1:500.000. The maps cover the depths of -500, -1000, -1500, -2000 m below NN. The four depths are based on typical depth requirements of existing salt caverns in Northern Germany, mainly related to hydrocarbon storage. The shapes of the structures show rudimentary information of their geometry and their change with depths. In addition they form the starting point for rock mechanical calculations necessary for the planning and construction of salt caverns for storage as well as for assessing storage potentials. The maps can be used as a pre-selection tool for subsurface uses. It can also be used to assess coverage and extension of salt structures. Offshore areas were not treated within the project. All horizontal cross-section maps were adjusted with the respective state geological survey organisations. According to the Data Specification on Geology (D2.8.II.4_v3.0) the WMS InSpEE (INSPIRE) provides INSPIRE-compliant data. The WMS InSpEE (INSPIRE) contains two group layers: The first group layer “INSPIRE: Salt structures in Northern Germany“ comprises the layers GE.Geologic.Unit.Salt structure types, GE.GeologicUnit.Salt pillow remnants, GE.GeologicUnit.Structure-building salinar and GE.GeologicUnit.Structural outlines. The layer GE.GeologicUnit.Structural outlines contains according to the four depths four sublayers, e.g. GE.GeologiUnit.Structural outlines 500 m below NN. The second group layer „INSPIRE: Horizontal cross-section maps of Northern Germany“ comprises according to the four depths four layers, e.g. Horizontal cross-section map – 500 m below NN. This layer, in turns, contains two sublayers: GE.GeologicFault.Relevant fault traces and GE.GeologicUnit.Stratigraphic Units. Via the getFeatureInfo request the user obtains additional information on the different geometries. In case of the GE.Geologic.Unit.Salt structure types the user gets access to a data sheet with additional information and further reading in German for the respective salt structure via the getFeatureInfo request.
InSpEE (INSPIRE) provides information about the areal distribution of salt structures (salt domes and salt pillows) in Northern Germany. Contours of the salt structures can be displayed at horizontal cross-sections at four different depths up to a maximum depth of 2000 m below NN. The geodata have resulted from a BMWi-funded research project “InSpEE” running from the year 2012 to 2015. The acronym stands for "Information system salt structures: planning basis, selection criteria and estimation of the potential for the construction of salt caverns for the storage of renewable energies (hydrogen and compressed air)”. Additionally four horizontal cross-section maps display the stratigraphical situation at a given depth. In concurrence of maps at different depths areal bedding conditions can be determined, e.g. to generally assess and interpret the spread of different stratigraphic units. Clearly visible are extent and shape of the salt structures within their regional context at the different depths, with extent and boundary of the salt structures having been the main focus of the project. Four horizontal cross-section maps covering the whole onshore area of Northern Germany have been developed at a scale of 1:500.000. The maps cover the depths of -500, -1000, -1500, -2000 m below NN. The four depths are based on typical depth requirements of existing salt caverns in Northern Germany, mainly related to hydrocarbon storage. The shapes of the structures show rudimentary information of their geometry and their change with depths. In addition they form the starting point for rock mechanical calculations necessary for the planning and construction of salt caverns for storage as well as for assessing storage potentials. The maps can be used as a pre-selection tool for subsurface uses. It can also be used to assess coverage and extension of salt structures. Offshore areas were not treated within the project. All horizontal cross-section maps were adjusted with the respective state geological survey organisations. According to the Data Specification on Geology (D2.8.II.4_v3.0) the content of InSpEE (INSPIRE) is stored in 15 INSPIRE-compliant GML files: InSpEE_GeologicUnit_Salt_structure_types.gml contains the salt structure types (salt domes and salt pillows), InSpEE_GeologicUnit_Salt_pillow_remnants.gml comprises the salt pillow remnants, InSpEE_GeologicUnit_Structure_building_salinar.gml represents the structural salinar(s), the four files InSpEE_Structural_outlines_500.gml, InSpEE_Structural_outlines_1000.gml, InSpEE_Structural_outlines_1500.gml and InSpEE_Structural_outlines_2000.gml represent the structural outlines in the corresponding horizontal cross-sections, the four files InSpEE_GeologicUnit_Cross_Section_500, InSpEE_GeologicUnit_Cross_Section_1000, InSpEE_GeologicUnit_Cross_Section_1500 and InSpEE_GeologicUnit_Cross_Section_2000 display the stratigraphical situation in the corresponding horizontal cross-sections and the four files InSpEE_GeologicStructure_500.gml, InSpEE_GeologicStructure_1000.gml, InSpEE_GeologicStructure_1500.gml and InSpEE_GeologicStructure_2000.gml comprise the relevant fault traces in the corresponding horizontal cross-sections. The GML files together with a Readme.txt file are provided in ZIP format (InSpEE-INSPIRE.zip). The Readme.text file (German/English) contains detailed information on the GML files content. Data transformation was proceeded by using the INSPIRE Solution Pack for FME according to the INSPIRE requirements.
Eine Biogasanlage dient der Erzeugung von Biogas durch Vergärung von Biomasse. In landwirtschaftlichen Biogasanlagen werden meist tierische Exkremente (Gülle, Festmist) und Energiepflanzen als Substrat eingesetzt. In nicht-landwirtschaftlichen Anlagen wird Material aus der Biotonne verwendet. Als Nebenprodukt wird ein als Gärrest bezeichneter Dünger produziert. Bei den meisten Biogasanlagen wird das entstandene Gas vor Ort in einem Blockheizkraftwerk (BHKW) zur Strom- und Wärmeerzeugung genutzt.
Um die Wasserstoffkompetenzen in einen räumlichen Bezug zu setzen, hat das Ministerium für Bundes- und Europaangelegenheiten und Regionale Entwicklung eine Übersichtskarte zu Wasserstoffprojekten in ganz Niedersachsen veröffentlicht. Die Karte wird kontinuierlich weiterentwickelt und hält Informationen zu den zahlreichen Projekten bereit: Neben den Projektpartnern und -beteiligten enthält sie vertiefende Informationen zu den Schwerpunkten und der Förderkulisse. Mit einem Klick auf die jeweilige Darstellung eines Symbols auf der Karte, erhalten Sie alle Projektinformationen und einen Link zum Projekt selbst.
Der Datenbestand "Geothermische Standorte" liefert verschiedene Informationen wie z.B. Nutzungs- und Leistungsdaten über Anlagen tiefer Geothermie in Deutschland, die sich in Betrieb oder im Bau befinden. Über die Onlineanwendung können die Standorte nach Region bzw. nach verschiedenen Kriterien gefiltert werden.
Wasserstoff ist als dekarbonisierende Energiequelle ein Schlüsselrohstoff der Zukunft und bietet dem Norden Deutschlands eine große Chance, die zentrale Rolle in der Energiewende zu übernehmen. Mit dem Zugang zum Meer und den hohen Erzeugungskapazitäten von On- und Offshore-Windstrom kann Norddeutschland eine grüne Wasserstoffindustrie aufbauen und den Rohstoff selbst emissionsfrei produzieren. Auch als Export- und Importgut wird Wasserstoff für die norddeutschen Seehäfen von Bedeutung sein. Die Bundesländer im Norden haben 2019 gemeinsam die Norddeutsche Wasserstoffstrategie verabschiedet und viele Projekte, Initiativen und Unternehmen arbeiten bereits an der Entwicklung einer praxistauglichen Technologie – auch bundeslandübergreifend. In dieser Übersicht wurden diese Projekte im Norden zusammengetragen. Dadurch sollen die Bekanntheit und die Vernetzung der Wasserstoffwirtschaft in Norddeutschland unterstützt werden.
Die UVN bieten einen Überblick über die aktuelle niedersächsische Wasserstofflandschaft. Wir helfen bei der Vernetzung der einzelnen Akteure, um die Verwendung und Produktion von Wasserstoff zu fördern. Hiermit leisten die UVN einen wichtigen Beitrag, um Niedersachsen zu einer Modellregion der nationalen Wasserstoffwirtschaft zu entwickeln
Standorte von Biogasanlagen im Landkreis Northeim.
Standorte von Windenergieanlagen (WEA) im Landkreis Northeim.
Dieser Datensatz enthält die Solaranlagen in der Stadt Osnabrück. Es sind die Anlagen zur Energiegewinnung erfasst. Photovoltaik, Sonnenenergie