The Geothermal Information System for Germany

The Geothermal Information System for Germany www.geotis.de Britta Ganz T. Agemar, J. A. Alten, J. Kuder, K. Kühne, S. Schumacher & R. Schulz CGER Meeting 21 May 2012, Oslo Project Funding Partners Support Federal Ministry for the Environment, Nature Conservation and Nuclear Safety (BMU) Project Number: 0327542 State Authority for Mining, Energy and Geology of and of Lower Saxony (LBEG) Bavarian Environment Agency (LfU) District Authority Freiburg, Baden Württemberg, i t th it ib tt b Dpt. of Environment Free University of Berlin, Dpt. Earth Sciences State Authority for Environment, Nature Conservation and Geology of Mecklenburg West Pomerania (LUNG) Working Group Deep Geothermal Energy of the State Geological Surveys Trade Association Petroleum and Gas (WEG) and

Project History German Government: Target of expanding the proportion of renewable energy in the energy supply mixenergy energy Support of R & D measures in various fields including deep geothermal energy (BMU) Development of a digital geothermal atlas which provides of geothermal atlas provides essential information for deep geothermal project planning Available via Internet (free success) since 2009 www.geotis.de System is continuously updated, expanded and developed further Geothermal Energy in Germany NEAR SURFACE GEOTHERMAL ENERGY (max. 400 m) m) 10 20 C Heating (heat pump) Cooling HYDROGEOTHERMAL ENERGY 20 District Heating Deep Aquifers 150 C Power Generation PETROTHERMAL ENERGYENERGY Enhanced Geothermal Systems Bedrocks >150 C Power Generation District Heating

GeotIS: Objectives Public data base with essential information for deep geothermal project planning planning Tool to increase the quality of geothermal project planning and to improve the possibility of success Minimize exploration risks Provide an overview of installations using deep geothermal and the energy produced energy GeotIS cannot replace detailed local feasibility studies! Exploration Risk = Risk, to develop a geothermal reservoir with an insufficient quantity or quality by one or more drillings. Quantity P ~ Q T Installed capacity: P = F c F Q (T (T i T o ). P = power/ capacity [W] F F = fluid density [kg/m³] c F F = = specific heat capacity [J/kg capacity [J/kg K] K] c F Q = flow rate [m³/s] T i, T 0 = input and output temperature [ C, K] Quality is determined by the composition of the fluid Success: sufficient discharge rate and temperature, acceptable drawdown, acceptable water quality

Regions of Hydrogeothermal Potential Germany: Normal gradient, no high enthalpy resources Three regions of potential hydrogeothermal use Focus on deep aquifers Regions and Horizons of Hydrogeothermal Potential North German Basin Lias Rhaetian Aquifer Complex Middle Bunter Sandstone Lower Cretaceous Sandstone Dogger Sandstone Keuper Sandstone Upper Rhine Graben Upper Muschelkalk Bunter Sandstone Hauptrogenstein Rotliegend South German Molasse Basin Malm Karst (Upper Jurassic)

The Geothermal Information System for Germany Two modules GEOTHERMAL POTENTIALS Areas of hydrothermal resources Well data Location of seismic surveys Stratigraphic models & cross sections Subsurface temperatures Hydraulic properties of of formations GEOTHERMAL INSTALLATIONS Location of geothermal facilities f l Operating parameters http://www.geotis.de Geothermal Potentials: Database Well Data Hydrocarbon exploration (ca. 27 000) Geothermal wells Mining i Thermal and Drinking Water Wells Hydraulic Data Hydrocarbon Information System (LBEG) Well data of the former German Democratic Republic Data stock of project partners p Temperatures Geophysics Information System (LIAG) (temperature data of ~10,500 wells) Geologic Geothermal maps of NE Germany Information Bavarian Geothermal Atlas Geologic maps and sections of Baden Württemberg Geologic profiles (Hydrocarbon Information System)

Geothermal Potentials Compilation of relevant geophysical / geologic data on deep aquifers relevant for hydrogeothermal use access via interactive map occurrence, thickness and depth level of aquifers d l if major faults hydraulic data Map Layers temperatures well locations 2D seismic survey i topography population p satellite images salt structures (N Germany)... Thematic Layers: Wells and Seismic Select Layer

Information Request for Well: Meta Data Hydraulic Conductivity (m/s), Bavaria 10 4 to 10 5 10 3 to 10 4 10 5 to 10 6 10 6 to 10 11 < 10 8

Static Geologic Sections (Baden Württemberg) Click on green line Open result of request Cross Section Rhine Graben (near Freiburg)

Subsurface Temperatures well data ground level data 3D universal kriging i i export as files 2 km x 2 km x 100 m Malm-TOP conversion to (Molasse binary format Basin) 5,000 m b.s.l. to ground level transfer to testing database model regions: North & South data validation normal score visualization Stratigraphic projections transfer to production database 2,500 m bsl. Structural Models 2D (ArcGIS) georeferencing Vectors depth contour lines occurence salt structuresstructures faults borders 3D (Gocad) surface modelling (TIN) validate against well data sheet lines corrections conversion to 2D 2D grid 100 m x 100 m Visualization horizontal section vertical section i map view Lias Base Schwerin/Bad Doberan

Hydrogeothermal Regions 3D Model Areas 3D Model Areas: Dynamic Generation of Sections Function Vertical Section draw line in map

Vertical Section in Bavaria, 10 km W of Munich Position of section Well Temperature isolines Faults Vertical Section in NE Germany, 50 km N of Berlin Lias M.Keuper Dogger Cretaceous Middle Bunter

Horizontal Section (here: border of 3D Model) Function Horizontal section draw rectangle Horizontal Section 2,000 m Depth: Temperature

Horizontal Section: Horizons/ Border of 3D Model 3D Model Areas: Horizon Temperature Function Horizon temperature draw rectangle

Temperature Distribution Top Malm (Bavaria) Geothermal Installations http://www.geotis.de

Geothermal Installations Interactive map interface Location query Installed capacity Energy produced Flow Rate Depth Layers Installations (select: use) Topography Inhabitants, energy use Satellite images Map Interface

Select District Heating, in operation (Bavaria) Select Operating ti Select layer l Heating Plants in Bavaria Click to show details

Details: Data Sheet Geothermal Heat Use in Germany Show production data from all installations

Geothermal Heat Use in Germany Total: ~ 170 MWt installed (geothermal) 710 GWh produced in 2010 Power Plants North German Basin: Neustadt Glewe 0,2 MW e Upper Rhine Graben: Landau 3 MW e Bruchsal 0,5 MW e South German Molasse Basin: Unterhaching 3,4 MW e Simbach Braunau 02MW 0,2 e Total: 7.3 MWe installed 27.5 GWh in 2010

Summary Digital geothermal atlas with interactive maps Catalogue of geothermal installations Compilation of data relevant for of for geothermal exploration 2D and 3D information Visualization of data Query interfaces Free success: www.geotis.de Outlook 2012 Structural models for North Germany Hydraulic conductivity maps for Northeast Germany Structural model for Hesse (Bunter Sandstone and Rotliegend d d Fm.), Static Sections Structural model for Thuringia Update of installations (2011 data)

Landau Geothermal Plant; Photo: geox Thank You! Thank you!