Metadata 1733
Sieťová služba priestorových údajov poskytuje verejné rozhranie ku geopriestorovým údajom (plošná reprezentácia geotermálnych útvarov podzemných vôd). Služba je postavená na štandarde OGC konzorcia (Open Geospatial Consortium) ako zobrazovacia (WMS) služba, štandardoch definovaných W3C konzorciom ako služba so SOAP rozhraním a proprietárnom architektonickom štýle fy ESRI - ArcGis mapová služba s REST rozhraním. Údaje získané touto službou môžu byť spracované a verejnosti prezentované na úrovni vlastných ap...
The Geothermal Atlas of Mainland Portugal is a mission-driven project of fundamental importance for the geothermal knowledge of the country, systematically carried out at the National Laboratory of Energy and Geology (LNEG) for over 30 years. It was created following other mapping projects, incorporating diverse information from various data sources obtained for different purposes, from different institutions, and harmonized and processed in a way that allows it to be applied to information, dissemination,...
The GeoSphere Austria Geothermal Atlas provides information on shallow geothermal energy in Vienna. Through the web application, geothermally relevant geodata can be visualized, site-specific data can be queried, and both heating and cooling potentials can be calculated. The underlying methodological and base data were developed as part of the project "Green Energy Lab – Spatial Energy Planning". The Geothermal Atlas already contains data on borehole heat exchangers and thermal groundwater use, including b...
WMS service displays Geothermal maps of various depths.
ArcGIS Server service displays Geothermal maps of various depths.
The map shows the Czech Republic‘s geothermal potential and its limitations. Map layers indicating the temperature distribution (°C) at various depths ranging from 400 m to 5000 m, a map of heat flux distribution (mW.m-2) at the surface, and a map of the thermal conductivity of rocks (W. m-1. K-1) illustrate the geothermal potential.
This platform aims to provide up-to-date and reliable geological, hydrogeological and geophysical data and information about Hungary’s geothermal energy resources via a user-friendly and publicly accessible site. We hope that this platform will help the preparatory work of national and international consortia aiming to invest into new geothermal projects in Hungary, as well as the every-day work of policy makers. Furthermore it aims to assist higher level education and also provide useful information to th...
The underground geothermal conditions can be presented, irrespective of the aquifers' position, with the appropriate geothermal maps. This map shows the expected depths of the isotherm of 150 °C and is made with data from 191 boreholes. In a way, it is the inverse of those ordinary temperature maps showing the temperature at certain depths. It is made on the basis of measured temperatures in accessible boreholes throughout the country. However, since the temperature field depends on the geological structur...
The underground geothermal conditions can be presented, irrespective of the aquifers' position, with the appropriate geothermal maps. This map shows the expected depths of the isotherm of 90 °C and is made with data from 191 boreholes. In a way, it is the inverse of those ordinary temperature maps showing the temperature at certain depths. It is made on the basis of measured temperatures in accessible boreholes throughout the country. However, since the temperature field depends on the geological structure...
Map represents the calculated (surface) heat-flow density (HFD) in mW/m2 with topographic correction. It is made with data from 119 boreholes from the measured temperatures in the available boreholes and measured thermal conductivity on cored rock samples from the same boreholes. The pattern of the HFD isolines is affected by numerous parameters, particularly the thermal conductivity of rocks, rock permeability and fracturing, fluid content of the rocks, and all are reflected in the measured temperature gr...