Metadata 1692

The Central Geological Database (Centralna Baza Danych Geologicznych – CBDG) is the largest Polish collection of digital geological data, such as detailed information on boreholes, archival geological reports and various types of geophysical research.

This area was chosen for the assessment of unconventional hydrocarbon resources using 3D basin and petroleum system modeling. Further information is found in the report,GARAH WP2: 3D Pilot Study – Unconventionals, https://repository.europe-geology.eu/egdidocs/garah/garah_deliverable_report_d24_3d_petroleum_model_un.pdf

The Geo-Assessment Matrix (the Matrix) is a pan-European dataset highlighting the key geological features and associated engineering constraints for Offshore Wind Farm (OWF) development. Such geological features include: lithology; biogenic processes; mass flow processes; fluid flow; morphology and geomorphology associated with glacial, coastal, fluvial and marine settings. There is currently no universally adopted methodology or classification system to assess ground conditions at OWF sites. This lack of ...

The map of “Switzerland during the Last Glacial Maximum (LGM), at a scale of 1:500,000” shows the maximum extent of glaciation in Switzerland at the height of the last Ice Age about 24,000 years BP. It incorporates the latest results of research on the Ice Age in Switzerland in a clearly legible format.

The WFS download service of the Shallow Geothermal Energy Potential Maps database contains the following information layers collected and produced within the framework of the Shallow Geothermal Energy Pottential Maps project:• 13 area-specific GIS information layers:o thermal conductivity maps λ [W/m*K] at depths of 40, 70, 100 and 130 m below ground level;o unit heat output maps qv [W/m] for 1800 h of heat pump operation per year at depths of 40, 70, 100 and 130 m below ground level;o unit heat output map...

The WMS viewing service of the Shallow Geothermal Energy Potential Maps database contains the following information layers collected and produced within the framework of the Shallow Geothermal Energy Pottential Maps project:• 13 area-specific GIS information layers:o thermal conductivity maps λ [W/m*K] at depths of 40, 70, 100 and 130 m below ground level;o unit heat output maps qv [W/m] for 1800 h of heat pump operation per year at depths of 40, 70, 100 and 130 m below ground level;o unit heat output maps...

Thermal conductivity of a geological unit relevant for shallow geothermal energy use (e.g. bedrock).

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 ...

Maps showing average values of thermal conductivity of soils and rocks, expressed in units of W/(m*K), for the 0-130 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 ...

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 o...