Geothermal Information System

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Cross-Impact Study on the National Geothermal Energy Campaign (in German) (PDF)
Relevance and impact analysis for the target of 10 TWh/a from deep geothermal energy by 2030, taking into account industry expertise. Identification of key factors that will speed up the development of deep geothermal energy from the industry's point of view.
(MOECK, I., KÖLBEL, T. & SCHNEIDER, J. (2023))

Metastudy on National Geothermal Energy Strategy (in German) (PDF)
Replacement of fossil fuels in both space heating and hot water by geothermal energy as an essential component of eco-heating until 2045, development of energy demand for space heating and hot water reflected in geothermal energy growth paths.
(MOECK, I. (2022))

Heat transition with geothermal energy - Chances and opportunities in Germany (PDF)  [approx. 2 MB]
This paper show the chances and opportunities for a heat transition with geothermal energy in Germany.
(WEBER, J. & MOECK, I. (2019))

The role of deep geothermal energy in the heat transition. (PDF)  [approx. 1.5 MB]
The role of deep geothermal energy in the heat transition. How Germany could create 60% renewable heat till 2050.
(AGEMAR, T., SUCHI, E., MOECK, I. (2018))
Maps from this position paper

The role of deep geothermal energy in the heat transition (presentation) (PDF)  [approx. 4 MB]
The slides of the presentation are a summary of the position paper: The role of deep geothermal energy in the heat transition.
(AGEMAR, T., SUCHI, E., MOECK, I. (2018))

Flyer 3^nd edition (PDF)  [approx. 4 MB]
Flyer GeotIS English, 2^nd edition: Geothermal Information System. - 2 pages, 9 figures.
(TRIBBENSEE, K. & GEOTIS-TEAM 2018))

Climate goals - energy transition - geothermal (PDF)  [approx. 9 MB]
The slides of the lecture of the Citizens' Information Event in Pliening on 18.06.2018: A view from the perspective of science on the climate targets on the energy transition to geothermal energy including the results of the test measurement of the LIAG in the Pliening area.
(MOECK, I. & POLOM, U. (2018))

2nd English edition "Deep Geothermal Energy – Principles and Application Possibilities in Germany" (PDF)  [approx. 12 MB]
The brochure "Deep Geothermal Energy" has been revised and published in a 2nd English edition.
The purpose of this brochure is to provide a technical overview as well as to give recommendations useful for public and private investors. The authors offer a profound introduction to deep geothermal energy, present the state of the art using German projects as examples, and present the geological, physical and technical interrelationship in a comprehensive way.
(AGEMAR, T., FRITZER, T., OBST, K., STOBER, I., SCHULZ, R. (2017))

1st Spanish edition "Energía Geotérmica Profunda – Fundamentos y posibilidades de usos en Alemania" (PDF)  [approx. 12 MB]
The brochure "Deep Geothermal Energy" has been revised and published also as Spanish version entitled "Energía Geotérmica Profunda – Fundamentos y posibilidades de usos en Alemania".
The purpose of this brochure is to provide a technical overview as well as to give recommendations useful for public and private investors. The authors offer a profound introduction to deep geothermal energy, present the state of the art using German projects as examples, and present the geological, physical and technical interrelationship in a comprehensive way.
(AGEMAR, T., FRITZER, T., OBST, K., STOBER, I., SCHULZ, R. (2017))

4th german edition "Tiefe Geothermie" (PDF)  [approx. 7 MB]
The german brochure "Tiefe Geothermie - Grundlagen und Nutzungsmöglichkeiten in Deutschland" has been comprehensively revised and published by the Leibniz Institute for Applied Geophysics (LIAG). Physical and technical interrelationships are described in an easily understandable way. The authors give a sound introduction into deep geothermal energy and present the state of art by means of selected projects.
(AGEMAR, T., FRITZER, T., OBST, K., STOBER, I., SCHULZ, R. (2016))

Deep geothermal energy: climate-friendly energy supply (MP3)  [approx. 3 MB]
Contribution to the exhibition "Climate Neighbourhoods"; International Conference on Climate Action (ICCA) 2015

Background document of the GtV-Bundesverband Geothermie
The GtV-BV background document compiles the most important thematic information and analyses the deep waters in the South German Molasse Basin, the Upper Rhine Graben and the North German Basin.
(STOBER, I., WOLFGRAMM, M., BIRNER, J. (2014): Geothermale Tiefenwässer in Deutschland (german only))

BINE Informationsdienst: Tiefer Erdwärme auf der Spur (German) (PDF)  [approx. 4.3 MB]
A project info about geothermal energy at the LIAG and the GeotIS.
(MILLES, U. (2011))

BINE Informationsdienst: Tracking deep geothermal energy (English) (PDF)  [approx. 4.3 MB]
A project info about geothermal energy at the LIAG and the GeotIS (English).
(MILLES, U. (2011))

Forschungsjahrbuch: Internet basiertes Informationszentrum für geothermische Energienutzung (PDF)
A contribution to the Yearbook for Renewables (Erneuerbare Enegien) by Projektträger Jülich for the development of an Internet-based information center for geothermal energy use.
(AGEMAR, T., ALTEN, J.-A., BREUCKMANN, S., GANZ, B., KUDER, J., KÜHNE, K., SCHUMACHER, S., TRIBBENSEE, K., WABERZECK, T. & SCHULZ, R. (2011): Internet basiertes Informationszentrum für geothermische Energienutzung)

UBA report: Kommunaler Klimaschutz durch Verbesserung der Effizienz in der Fernwärmeversorgung
SANDROCK, M., MAAß, C., WEISLEDER, S., WESTHOLM, H., SCHULZ, W., LÖSCHAN, G., BAISCH, C., KREUTER, H., REYER, D., MANGOLD, D., RIEGGER, M. & KÖHLER, C. (2020): Kommunaler Klimaschutz durch Verbesserung der Effizienz in der Fernwärmeversorgung mittels Nutzung von Niedertemperaturwärmequellen am Beispiel tiefengeothermischer Ressourcen. Climate Change, 31/2020, 357 p., Umweltbundesamt

Uses of geothermal energy from deep underground (deep geothermal energy) (PDF)  [approx. 1.5 MB]
The working group "Deep geothermal energy" as part of the Federal/State Committee of Soil Research (BLA-GEO) has compiled a paper on the utilization of deep geothermal energy. It contains information on techniques, databases and plaaning procedures for deep geothermal energy. It aims at State Geologic Surveys as well as planners, investors, and policy makers.

Definition: Tiefe Geothermie (PDF)  [approx. 10 KB]
The working group "Deep geothermal energy" has defined "Deep geothermal energy" in collaboration with the working group "Near-surface geothermal energy".

Geofaces final report LIAG (PDF)  [approx. 7 MB]
Final report for part A of the joint project "Geofaces" Charakterisierung geothermischer Ressourcen unter Berücksichtigung von Grenz- und Trennflächen in NW-Deutschland
(AGEMAR, T., ALTEN, J.-A., KUNKEL,C., KUDER, J., SKIBA, P., SUCHI, E., WEBER, J., WOLF, M. (2020))

Geofaces final report LUNG (PDF)  [approx. 5.6 MB]
Final report for part A of the joint project "Geofaces" Modellierung geothermischer Horizonte und hydraulischer Untersuchungsergebnisse mesozoischer Sandsteinreservoire in Mecklenburg-Vorpommern
(OBST, K., BARTH, G., WOJATSCHKE, J., SATTELBERGER, M. & DUNKERLEY, O. (2020))

Geofaces final report KIT (PDF)  [approx. 4.5 MB]
Final report for part SD of the joint project "Geofaces" Systematische Untersuchung von Fluidwegsamkeiten im Bereich von Trennflächen in Süd-Deutschland
(EGERT, R., SCHMIDT, R., STOBER, I. & KOHL, T. (2020))

StörTief final report LIAG (PDF)  [approx. 6 MB]
Final report for part A of the joint project "StörTief" Die Rolle von tiefreichenden Störungszonen bei der geothermischen Energienutzung.
(AGEMAR, T., ALTEN, J.-A., GORLING, L., GRAMENZ, J., HESE, F., KUDER, J., SUCHI, E., MOECK, I., STOBER, I., THOMSEN, C., WEBER, J., V. HARTMANN, H. (2016))

StörTief final report LLUR (PDF)  [approx. 9 MB]
Final report for part B (3d structure model Glueckstadtgraben) of the joint project "StörTief" Die Rolle von tiefreichenden Störungszonen bei der geothermischen Energienutzung.
(HESE, F., SCHALLER, A., LADEMANN, K. (2016))

StörTief final report KIT (PDF)  [approx. 8.5 MB]
Final report for part C (Southwest Germany) of the joint project "StörTief" Die Rolle von tiefreichenden Störungszonen bei der geothermischen Energienutzung.
(SCHMIDT, R., SEITHEL, R., STOBER, I., AGEMAR, T., HESE, F., MOECK, I. (2016))

GeotIS 2 final report (PDF) [approx. 3 MB]
Final report for the project "Aufbau eines Internet basierten Informationszentrums für geothermische Energienutzung".
(SCHULZ, R. & GEOTIS-TEAM (2013))

Atlas to visualise potential conflicts between CO₂ storage (CCS) and deep geothermal energy: final report (PDF)  [approx. 10.5 MB]
Final report for the project: "Geothermieatlas zur Darstellung möglicher Nutzungskonkurrenzen zwischen CCS und Tiefer Geothermie".
(SCHULZ, R., KNOPF, S., SUCHI, E. & DITTMANN, J. (2013))
Maps:

• Map A: Investigative areas for CO₂ storage and proven hydrothermal potentials (available immediately) for deep and mid-depth geothermal energy (PDF) [approx. 5.1 MB]
• Map B: Areas worth investigating for CO₂ storage and assumed hydrothermal potentials (available in the future) for deep and medium-depth geothermal energy (PDF) [approx. 4.1 MB]
• Map C: Areas worth investigating for CO₂ storage and petrothermal potentials (available in the future) for geothermal energy (PDF) [approx. 4.4 MB]
• Map D: Areas worth investigating for CO₂ storage and all hydrothermal and petrothermal potentials (compilation of maps A-C) for geothermal energy (PDF) [approx. 5.3 MB]

GeotIS final report (PDF)  [approx. 5 MB]
Final report for the project "Aufbau eines geothermischen Informationssystems für Deutschland".
(SCHULZ, R. & GEOTIS-TEAM (2009))

Feasibility study (PDF)  [approx. 1.3 MB]
The German Federal Ministry for the Environment, Nature Conservation, and Nuclear Safety provides a feasibility study for a geothermal atlas ("Machbarkeitsstudie zur Erstellung eines geothermischen Atlas für Deutschland").
(SCHULZ, R., KÜHNE, K., MAUL, A., ZSCHOCKE, A. (2005))

IEA Geothermal Power Statistics 2017 (PDF)
WEBER, J. & IEA GEOTHERMAL (2019): IEA Geothermal Power Statistics 2017. - Publication of the IEA Geothermal.

Trend Report 2016/17 (PDF)
WEBER, J. & IEA GEOTHERMAL (2019): Trends in Geothermal Applications 2016/17. Survey Report on Geothermal Utilization and Development in IEA-GIA Member Countries in 2016/17, with Trends in Geothermal Power Generation and Heat Use 2000-2017. - Publication of the IEA Geothermal.

IEA Geothermal Power Statistics 2016 (PDF)
WEBER, J. & IEA GEOTHERMAL (2018): IEA Geothermal Power Statistics 2016. - Publication of the IEA Geothermal.

Trend Report 2015 (PDF)
WEBER, J. & IEA GEOTHERMAL (2017): Trends in Geothermal Applications 2015. Survey Report on Geothermal Utilization and Development in IEA-GIA Member Countries in 2015, with Trends in Geothermal Power Generation and Heat Use 2000-2015. - Publication of the IEA Geothermal.

Trend Report 2014 (PDF)
WEBER, J. & IEA GEOTHERMAL (2016): Trends in Geothermal Applications 2014. Survey Report on Geothermal Utilization and Development in IEA-GIA Member Countries in 2014, with Trends in Geothermal Power Generation and Heat Use 2000-2014. - Publication of the International Energy Agency, Geothermal Implementing Agreement.

Trend Report 2013 (PDF)
WEBER, J. & IEA-GIA (2015): Trends in Geothermal Applications 2013. Survey report on geothermal utilization and development in IEA-GIA Member Countries in 2013, with trends in geothermal power generation and heat use 2000-2013. - Publication of the International Energy Agency, Geothermal Implementing Agreement.

Trend Report 2012 (PDF)
WEBER, J. & IEA-GIA (2014): Trends in Geothermal Applications. Survey report on geothermal utilization and development in IEA-GIA Member Countries in 2012, with trends in geothermal power generation and heat use 2000-2012. - Publication of the International Energy Agency, Geothermal Implementing Agreement.

Trend Report 2011 (PDF)
GANZ, B. & IEA-GIA (2013): Trends in Geothermal Applications. Survey report on geothermal utilization and development in IEA-GIA Member Countries in 2011, with trends in geothermal power generation and heat use 2000-2011. - Publication of the International Energy Agency, Geothermal Implamenting Agreement.

Trend Report 2010 (PDF)
GANZ, B. & IEA-GIA (2012): Trends in Geothermal Applications. Survey Report on Geothermal Utilization and Development in IEA-GIA Member Countries in 2010, with trends in geothermal power generation and heat use 2000 2010. Publication of the International Energy Agency -Geothermal Implementing Agreement.

Experimental alteration of granitic rocks: Implications for the evolution of geothermal brines in the Upper Rhine Graben, Germany
DRÜPPEL, K., STOBER, I., GRIMMER, J. & MERTZ-KRAUS, R. (2020): Experimental alteration of granitic rocks: Implications for the evolution of geothermal brines in the Upper Rhine Graben, Germany, Geothermics, Volume 88, 101903, ISSN 0375-6505, https://doi.org/10.1016/j.geothermics.2020.101903

Probability of success studies for geothermal projects in clastic reservoirs: From subsurface data to geological risk analysis
SCHUMACHER, S., PIERAU, R. & WIRTH, W. (2020): Probability of success studies for geothermal projects in clastic reservoirs: From subsurface data to geological risk analysis, Geothermics, Volume 83, 2020, 101725, ISSN 0375-6505, https://doi.org/10.1016/j.geothermics.2019.101725.

Geothermal play typing in Germany, case study Molasse Basin: modern concept to categorise geothermal resources related to crustal permeability
MOECK, I., DUSSEL, M., WEBER, J., SCHINTGEN, T., & WOLFGRAMM, M. (2019): Geothermal play typing in Germany, case study Molasse Basin: A modern concept to categorise geothermal resources related to crustal permeability. Netherlands Journal of Geosciences, 98, E14. doi:10.1017/njg.2019.12

Experiments on sandstone alteration under geothermal reservoir conditions and the formation of zeolites
SCHMIDT, R., GÖTTLICHER, J. & STOBER, I. (2019): Experiments on sandstone alteration under geothermal reservoir conditions and the formation of zeolites. European Journal of Mineralogy Volume 31 Number 5-6, p. 929 - 944

Geothermal potential of the Buntsandstein and Keuper aquifers in NE Bavaria with a focus on deep thermal aquifer storage
KUNKEL, C., AGEMAR, T. & STOBER, I. (2019): Geothermisches Nutzungspotenzial der Buntsandstein- und Keuperaquifere im Nordosten Bayerns mit Fokus auf tiefe Aquiferspeicher. Grundwasser - Zeitschrift der Fachsektion Hydrogeologie 24, 251–267. https://doi.org/10.1007/s00767-019-00430-1

3D-Modell geothermischer Nutzhorizonte Nordostdeutschlands in GeotIS
AGEMAR, T., TRIBBENSEE, K., GÖRNE, S., OBST,K. (2018): 3D-Modell geothermischer Nutzhorizonte Nordostdeutschlands in GeotIS. – ZDGG Band 169 Heft 3, 343-351(9)

GeotIS-Verbundmodell des Top-Malm im Bereich des nördlichen Vorlandbeckens der Alpen
AGEMAR, T., TRIBBENSEE, K. (2018): GeotIS-Verbundmodell des Top-Malm im Bereich des nördlichen Vorlandbeckens der Alpen. - ZDGG Band 169 Heft 3, 335-341(7)

Deep geothermal resources of the North German Basin: The hydrothermal reservoirs of the Stuttgart Formation (Schilfsandstein, Upper Triassic)
FRANZ, M., NOWAK, K., NIEGEL, S., SEIDEL, E., WOLF, M., WOLFGRAMM, M. (2018): Deep geothermal resources of the North German Basin: The hydrothermal reservoirs of the Stuttgart Formation (Schilfsandstein, Upper Triassic). - ZDGG Band 169 Heft 3, 353-387(35)

Assessment of the geothermal potential of fault zones in Germany by numerical modelling
KUDER, J. (2018): Assessment of the geothermal potential of fault zones in Germany by numerical modelling. - ZDGG Band 169 Heft 3, 429-444(16)

3D-Modellierung einer Störungszone in geothermisch relevantem Gebiet anhand von 3D-Seismik unter Berücksichtigung geothermischer Nutzungsaspekte
SUCHI, E., AGEMAR, T., VON HARTMANN, H. (2018): 3D-Modellierung einer Störungszone in geothermisch relevantem Gebiet anhand von 3D-Seismik unter Berücksichtigung geothermischer Nutzungsaspekte. - ZDGG Band 169 Heft 3, 413-426(14)

Assessment and Public Reporting of Geothermal Resources in Germany: Review and Outlook
AGEMAR T., WEBER J., MOECK I. (2018): Assessment and Public Reporting of Geothermal Resources in Germany: Review and Outlook. - Energies 11(2), 332; doi:10.3390/en11020332

List of criteria for the geothermal survey of deep-reaching faults in Germany
AGEMAR T., HESE F., MOECK I., STOBER I. (2017): Kriterienkatalog für die Erfassung tiefreichender Störungen und ihrer geothermischen Nutzbarkeit in Deutschland. - Z Dt Ges Geowiss 168(2):285-300

Deep hydrothermal fluid–rock interaction: the thermal springs of Da Qaidam, China
STOBER, I., ZHONG, J., ZHANG, L., BUCHER, K. (2016): Deep hydrothermal fluid–rock interaction: the thermal springs of Da Qaidam, China.- Geofluids, 16, 711–728

Geothermie in Deutschland - Installierte Leistung und Potential
MOECK, I., AGEMAR, T., SUCHI, E., WEBER, J. & BRACKE, R. (2016): Geothermie in Deutschland - Installierte Leistung und Potential. - Geothermische Energie, Sonderheft Geothermie 2030, No. 84, Bundesverband Geothermie.

Large-scale chemical stratification of fluids in the crust: Hydraulic and chemical data from the geothermal research site Urach, Germany
BUCHER, K. & STOBER, I. (2016): Large-scale chemical stratification of fluids in the crust: Hydraulic and chemical data from the geothermal research site Urach, Germany.- Geofluids, 16, 813-825

Criteria and geological setting for the generic geothermal underground research laboratory, GEOLAB
SCHILL, E., MEIXNER, J., MELLER, C., GRIMM, M., GRIMMER, J.C., STOBER, I., KOHL, T. (2016): Criteria and geological setting for the generic geothermal underground research laboratory, GEOLAB.- Geothermal Energy, 4:7

Hydrochemical characterization of a major central European heat flux anomaly: the Bürchau geothermal spring system, southern Black Forest, Germany
ROLKER, J., SCHILL, E., STOBER, I., SCHNEIDER, J., NEUMANN, T., KOHL, T. (2015): Hydrochemical characterization of a major central European heat flux anomaly: the Bürchau geothermal spring system, southern Black Forest, Germany.- Geothermal Energy, 3:5

Hydrochemistry of deep waters in Germany
STOBER, I., WOLFGRAMM, M., BIRNER, J. (2014): Hydrochemistry of deep waters in Germany. - Z. geol. Wiss., 41/42, 5-6, pp. 339–380

Hydraulic and hydrochemical properties of deep sedimentary aquifers of the Upper Rhine Graben, Europe
STOBER, I. & BUCHER, K. (2014): Hydraulic and hydrochemical properties of deep sedimentary aquifers of the Upper Rhine Graben, Europe.- Geofluids, 15, 464-482

Hydrochemical properties of deep carbonate aquifers in the SW-German Molasse Basin
STOBER, I. (2014): Hydrochemical properties of deep carbonate aquifers in the SW-German Molasse Basin.- Geothermal Energy

Hydraulic parameters of North-West German rocks of the Valanginian and Bückeberg Formation (Wealden) relevant for geothermal utilization
KUDER, J., BINOT, F., HÜBNER, W., ORILSKI, J., WONIK, T. & SCHULZ, R. (2014): Hydraulic parameters of North-West German rocks of the Valanginian and Bückeberg Formation (Wealden) relevant for geothermal utilization. - ZDGG vol. 165 no. 3, p. 455–467

Geothermal Atlas to visualise potential conflicts of interest between CO2 storage (CCS) and deep geothermal energy in Germany
SUCHI, E., DITTMANN, J., KNOPF, S., MÜLLER, C. & SCHULZ, R. (2014): Geothermal Atlas to visualise potential conflicts of interest between CO2 storage (CCS) and deep geothermal energy in Germany. - ZDGG vol. 165 no. 3, p. 439–453

Hydraulic conductivity of fractured upper crust: Insights from hydraulic tests in boreholes and fluid-rock interaction in crystalline basement rocks
STOBER, I. & BUCHER, K. (2014): Hydraulic conductivity of fractured upper crust: Insights from hydraulic tests in boreholes and fluid-rock interaction in crystalline basement rocks.- Geofluids, 15, 161–178

Deep Geothermal Energy Production in Germany
AGEMAR, T., WEBER, J. & SCHULZ, R. (2014): Deep Geothermal Energy Production in Germany – Energies 2014 Volume 7 Issue 7, p. 4397–4416

The Geothermal Information System for Germany - GeotIS
AGEMAR, T., ALTEN, J., GANZ, B., KUDER, J., KUEHNE, K., SCHUMACHER, S. & SCHULZ, R. (2014): The Geothermal Information System for Germany - GeotIS – ZDGG vol. 165 no. 2, p. 129–144

Fault imaging in sparsely sampled 3D seismic data using common-reflection-surface processing and attribute analysis – a study in the Upper Rhine Graben
BUNESS, H.A., VON HARTMANN, H., RUMPEL, H.-M., KRAWCZYK, C. M. & SCHULZ, R. (2014): Fault imaging in sparsely sampled 3D seismic data using common-reflection-surface processing and attribute analysis – a study in the Upper Rhine Graben. - Geophysical Prospecting, 62: 443-452.

Consequences of the physical properties of deep waters for the thermal capacity of geothermal facilities and for aquifer properties 
STOBER, I., JODOCY, M. & BURISCH, M. (2013): Consequences of the physical properties of deep waters for the thermal capacity of geothermal facilities and for aquifer properties. - Z. geol. Wiss. 41, 1-2. pp. 9-20, Berlin

Effectiveness of acidizing geothermal wells in the South German Molasse Basin (PDF)
SCHUMACHER, S. & SCHULZ, R. (2013): Effectiveness of acidizing geothermal wells in the South German Molasse Basin. – Geoth. Energ. Sci., 1, 1–11

Geothermie-Atlas zur Darstellung möglicher Nutzungskonkurrenzen zwischen CCS und Tiefer Geothermie
SUCHI, E., DITTMANN, J., KNOPF, S. & SCHULZ, R. (2013): Geothermie-Atlas zur Darstellung möglicher Nutzungskonkurrenzen zwischen CCS und Tiefer Geothermie. - Geothermische Energie, GtV Bundesverband Geothermie; Sept. 2013, 77: 22-23; Berlin.

Die thermalen Karbonat-Aquifere Oberjura und Oberer Muschelkalk im Südwestdeutschen Alpenvorland
STOBER, I. (2013): Die thermalen Karbonat-Aquifere Oberjura und Oberer Muschelkalk im Südwestdeutschen Alpenvorland.- Grundwasser, 18(4), 259-269 [english abstract]

Comparison of hydraulic conductivities determined with different methods in the Upper Jurassic of the southwest German Molasse Basin
STOBER, I., JODOCY, M., & HINTERSBERGER, B. (2013): Comparison of hydraulic conductivities determined with different methods in the Upper Jurassic of the southwest German Molasse Basin.- Z. Dt. Ges. Geowiss.,164(4), pp. 663-679 [Abstract and figure descriptions in English, text in German]

Tiefenwässer im Oberen Muschelkalk-Aquifer des Oberrheingrabens und des Südwestdeutschen Molassebeckens
STOBER, I., JODOCY, M., BURISCH, M. & PERSON, R. (2013): Tiefenwässer im Oberen Muschelkalk-Aquifer des Oberrheingrabens und des Südwestdeutschen Molassebeckens - Grundwasser, vol. 18, H. 2, p. 117-127 [english abstract]

Subsurface temperatures in Baden-Wuerttemberg, Germany
AGEMAR, T., BRUNKEN, J., JODOCY, M., SCHELLSCHMIDT, R., SCHULZ, R., STOBER, I. (2013): Subsurface temperatures in Baden-Wuerttemberg, Germany.- Z. Dt. Ges. Geowiss., 164 (1), p. 49-62

Subsurface temperature distribution in Germany
AGEMAR, T., SCHELLSCHMIDT, R., & SCHULZ, R. (2012): Subsurface temperature distribution in Germany. - Geothermics 44, 65-77.

Immer tiefer, immer heißer - Die tiefe Geothermie kann zur Wärme- und Stromversorgung einiges beitragen
AGEMAR, T. & SCHULZ, R. (2011): Immer tiefer, immer heißer - Die tiefe Geothermie kann zur Wärme- und Stromversorgung einiges beitragen. - Deutsches Ingenieur Blatt 03/11: 32-36; Berlin.

Geologisch-geothermische Tiefenprofile für den baden-württembergischen Teil des nördlichen und mittleren Oberrheingrabens
JODOCY, M. & STOBER, I. (2010): Geologisch-geothermische Tiefenprofile für den baden-württembergischen Teil des nördlichen und mittleren Oberrheingrabens. – Erdöl Erdgas Kohle, 126, 2; 68 - 76.

Comparison of hydraulic conductivities determined with different methods - A case study based on data of the deep lying Upper Mischelkalk aquifer in the Upper Rhine Graben and the Molassebasin
STOBER, I., JODOCY, M., & HINTERSBERGER, B. (2012): Comparison of hydraulic conductivities determined with different methods - A case study based on data of the deep lying Upper Mischelkalk aquifer in the Upper Rhine Graben and the Molassebasin. - Z. geol. Wiss., 40, 1; 1-18. [Abstract and figure descriptions in English, text in German]

Hydrochemie der Tiefenwässer im Oberrheingraben - Eine Basisinformation für geothermische Nutzungssysteme
STOBER, I. & JODOCY, M. (2011): Hydrochemie der Tiefenwässer im Oberrheingraben - Eine Basisinformation für geothermische Nutzungssysteme. – Z. geol. Wiss., 39, 1, 39 - 57.

Porositäten und Permeabilitäten im Oberrheingraben und Südwestdeutschen Molassebecken
JODOCY, M. & STOBER, I. (2011): Porositäten und Permeabilitäten im Oberrheingraben und Südwestdeutschen Molassebecken. – Erdöl Erdgas Kohle, 127, 1; 20 - 27.

Geothermisches Prognosetool für Baden-Württemberg (GeoTool)
STOBER, I.& JODOCY, M. (2011): Geothermisches Prognosetool für Baden-Württemberg (GeoTool). – Grundwasser, 16; 54 - 56.

Geothermische Verhältnisse südlich des Kaiserstuhls - Das Hartheimer Becken im südlichen Oberrheingraben
STOBER, I. & JODOCY, M. (2011): Geothermische Verhältnisse südlich des Kaiserstuhls - Das Hartheimer Becken im südlichen Oberrheingraben. – Grundwasser, 16, 2; 113 - 123.

Geothermische Nutzhorizonte im westlichen Teil des Süddeutschen Molassebeckens4
STOBER, I. & JODOCY, M. (2011): Geothermische Nutzhorizonte im westlichen Teil des Süddeutschen Molassebeckens. – Z. geol. Wiss., 39, 3/4; 161 - 172.

Geothermisches Informationssystem aktualisiert Standortdaten
GANZ, BRITTA (2010): Geothermisches Informationssystem aktualisiert Standortdaten - Geothermische Energie, 4/2010

WGC 2020 Agemar (PDF)
AGEMAR, T. (2020): 3D-Temperature Estimation Using Geostatistical Method, World Geothermal Congress 2020+1, Reykjavik, Iceland.

WGC 2020 Agemar (PDF)
AGEMAR, T. (2020): Improving Bottom-Hole Temperature Corrections on the Basis of Statistical Correlations, World Geothermal Congress 2020+1, Reykjavik, Iceland.

WGC 2020 Moeck et al. (PDF)
MOECK, I., BRACKE, R. & WEBER, J. (2020): The Energy Transition from Fossil Fuels to Geothermal Energy - A German Case Study, World Geothermal Congress 2020+1, Reykjavik, Iceland.

WGC 2020 Song et al. (PDF)
SONG, Y., LINK, K., YASUKAWA, K. & WEBER, J. (2020): Proposal of New Data Collecting Spreadsheet for Geothermal Heat Pumps Statistics - An Outcome of IEA Geothermal Working Group Activities, World Geothermal Congress 2020+1, Reykjavik, Iceland.

WGC 2020 Weber & Wissing (PDF)
WEBER, J., Wissing, L. (2020): Ten Years of Geothermal Trend Reporting and Statistics by IEA Geothermal, World Geothermal Congress 2020+1, Reykjavik, Iceland.

WGC 2020 Weber et al. (PDF)
WEBER, J., BORN, H., Pester, S. & MOECK, I. (2020): Geothermal Energy Use in Germany, Country Update 2015-2019, World Geothermal Congress 2020+1, Reykjavik, Iceland.

EGC 2019 Weber et al. (PDF) [approx. 2.2 MB]
WEBER, J., BORN, H. & MOECK, I. (2019): Geothermal Energy Use, Country Update for Germany, European Geothermal Congress 2016, 11.-14.06.2019; Den Haag, Netherlands.

Agemar extended Abstract EGC 2019
AGEMAR, T. (2019): Statistical Analyses of Subsurface Temperature Data and Correction Methods. European Geothermal Congress. Den Haag, Netherlands.

Kunkel extended Abstract EGC 2019
KUNKEL, C. (2019): Hydraulic Characterization of Potential Geothermal Reservoirs in North German Basin. European Geothermal Congress. Den Haag, Netherlands.

New GeotIS-Data
AGEMAR, T., ALTEN, J.-A., KUNKEL, C., SUCHI, E. & WEBER, J.: New GeotIS-Data. - Der Geothermiekongress, 27.-29.11.2018; Essen.

Geothermal potential in Buntsandstein and Keuper in NO Bavaria
KUNKEL, C., AGEMAR, T. & STOBER, I. (2018): Geothermal potential in Buntsandstein and Keuper in NO Bavaria. - Der Geothermiekongress, 27.-29.11.2018; Essen.

Geothermal use in Germany 2017/2018
WEBER, J. & BORN, H.: Geothermal use in Germany 2017/2018. - Der Geothermiekongress, 27.-29.11.2018; Essen.

3D structural models of geothermal horizons in northwestern Germany
SUCHI, E.: 3D structural models of geothermal horizons in northwestern Germany. - Der Geothermiekongress, 27.11.-29.11.2018, Tagungsband: 10 S.; Essen.

What can geothermal energy contribute to the heat supply in order to achieve the EU climate goals for 2050?
AGEMAR, T., SUCHI, E., MOECK, I.: What can geothermal energy contribute to the heat supply in order to achieve the EU climate goals for 2050? - Der Geothermiekongress, 27.-29.11.2018; Essen.

EAGE Conference & Exhibition 2018
KUNKEL, C., AGEMAR, T., 2018. Geothermal Resources and Energy Storage in Northern Bavaria, Germany, 80th EAGE Conference & Exhibition 2018, Copenhagen, Denmark, 1-5 S. DOI 10.3997/2214-4609.201801189

Geothermiekongress 2017 Barth et al. (PNG)
BARTH, G., WOJATSCHKE, J., OBST, K. (2017): Geothermisches Potenzial des Ober-Torac (Unterjura) im Norddeutschen Becken, 2017, Güstrow

Geothermiekongress 2017 Kunkel et al. (PDF)
KUNKEL, C., AGEMAR, T., Moeck, I. (2017): Hydraulische Eigenschaften und diagenetische Änderungen geothermischer Reservoire in NW-Deutschland, 2017, Hannover

Geothermiekongress 2017 Weber et al. (PDF)
WEBER, J., LINK, K., IEA Geothermal Country Representatives, Leibniz Institute for Applied Geophysics, Geo-Future GmbH, Frauenfeld, Switzerland (2017): The IEA Geothermal Trend Report - an Annual Survey on Geothermal Applications and Developments, 2017, Hannover

15th Water-Rock Interaction International Symposium 2017: Schmidt et al. (PDF)  [< 1 MB]
SCHMIDT, R., BUCHER, K., MUNDHENK, N., STOBER, I. (2017): Reactivity of geothermal reservoir rocks under temperature conditions found in the Upper Rhine Graben (Germany).- 15th Water-Rock Interaction International Symposium, WRI-15, Procedia Earth and Planetary Science, 17, 881-884.

Geothermiekongress 2016 Agemar et al.
Agemar, T., Alten, J.-A., Gramenz, J., Kadner, C., Kuder, J., Kunkel, C., Suchi, E., Tribbensee, J. & Weber, J. (2016): Geofaces - Charakterisierung geothermischer Ressourcen unter Berücksichtigung von Grenz- und Trennflächen. Der Geothermie Kongress 2016, 30.11.2016; Essen.

Geothermiekongress 2016 Agemar et al.
Agemar, T., Hese, F., Moeck, I. & Stober, I. (2016): Kriterien für die Erfassung tiefreichender Störungen und ihrer geothermischen Nutzbarkeit in Deutschland. Der Geothermie Kongress 2016, 30.11.2016; Essen.

Geothermiekongress 2016 Suchi et al.
SUCHI, E., AGEMAR, T. & VON HARTMANN, H. (2016): Weiterentwicklung geothermischer 3D-Strukturmodelle unter besonderer Berücksichtigung von Störungen. - Der Geothermie Kongress 2016, 29.11.-01.12.2016, Tagungsband: 9 S.; Essen

Geothermiekongress 2016 Weber (PDF)  [approx. 1.7 MB]
WEBER, J. (2016): Country Update Germany. - Vortrag im Workshop Anlagenstatistik (Oberflächennahe Geothermie), Der Geothermie Kongress 2016, 29.11.2016; Essen.

EGC 2016 Agemar et al.
Agemar, T., Alten, J.-A., Gramenz, J., Gorling, L., Kadner, C., Kuder, J., Kunkel, C., Suchi, E., Tribbensee, J. & Weber, J. (2016): Principles of Geothermal Information Systems. Poster, European Geothermal Congress. Strasbourg, France.

EGC 2016 Schmidt et al. (PDF)  [< 1 MB]
SCHMIDT, R., BUCHER, K., STOBER, I. (2016): Alteration products of reservoir rocks of the Upper Rhine Graben under geothermal conditions.- EGC European Geothermal Congress, 3 p., Strasbourg, France.

EGC 2016 Seithel et al.
SEITHEL, R., MÜLLER, B., STEINER, U., KOHL, T., HENK, A., STOBER, I. (2016): Slip Tendency Analysis & Frictional Strength of Reservoir Rocks in south Germany.- EGC European Geothermal Congress, 6 p., Strasbourg, France.

EGC 2016 Stober
STOBER, I. (2016): Hydraulic and hydrochemical properties of the deep carbonate aquifers in SW-Germany.- EGC European Geothermal Congress, 5 p., Strasbourg, France.

EGC 2016 Weber et al. (PDF) [approx. 2.2 MB]
WEBER, J., GANZ, B., SANNER, B. & MOECK, I. (2016): Geothermal Energy Use, Country Update for Germany. - Poster, European Geothermal Congress 2016, 19.-24.09.2016; Strasbourg, France.

EGC 2016 Weber et al. (PDF)  [< 1 MB]
WEBER, J., GANZ, B., SANNER, B. & MOECK, I. (2016): Geothermal Energy Use, Country Update for Germany. - Proceedings European Geothermal Congress 2016, 19.-24.09.2016; Strasbourg, France.

3rd European Meeting on 3D Geological Modelling 2016: Agemar et al.
Agemar, T., Alten, J.-A., Gramenz, J., Gorling, L., Kadner, C., Kuder, J., Suchi, E., Tribbensee, J. & Weber, J. (2016): Data Management and Visualisation of 3D-Objects in the Geothermal Information System GeotIS. 3rd European Meeting on 3D Geological Modelling, 16.-17.06.2016; Wiesbaden.

GeoTHERM 2016 Agemar et al.
Agemar, T., Alten, J.-A., Kuder, J., Suchi, E., Weber, J. & Gorling, L. (2016): Updates 2016: Darstellungen von 3D Strukturen im GeotIS. GeoTHERM, 25.-26.2.2016, Offenburg.

European Geothermal Workshop 2015: Stober et al.
STOBER, I. (2015): Fractured continental crust: permeability, fluid-flow, and connectivity of fractures in the crystalline basement.- EGW European Geothermal Workshop, 4 p., Strasbourg, France.

WGC 2015 Agemar et al.
AGEMAR, T., ALTEN, J.-A., KÜHNE, K., KUDER, J., SUCHI, E., WEBER, J., SCHULZ, R. (2015): A New Approach to Estimating the Geothermal Potential of Faults in Germany. Proceedings World Geothermal Congress 2015, #16053, Melbourne, Australia

WGC 2015 Schmidt et al.
SCHMIDT, R.B., SEITHEL, R., BUCHER, K., STOBER, I. (2015): Fluid-rock interaction in deep fault systems and the influence on permeability in typical rocks of the Upper Rhine Graben, southwest Germany.- Proceedings World Geothermal Congress 2015, Melbourne, Australia. 5 pp.

WGC 2015 Seithel et al. (PDF)  [< 1 MB]
SEITHEL, R., SCHMIDT, R., KOHL, T., HENK, A., STOBER, I. (2015): Local Stress Anomaly, their Interplay to Deep Seated Fault Structures and Geomechanical Characterization of Geothermal Reservoirs in S-Germany.- Proceedings World Geothermal Congress 2015, Melbourne, Australia. 5 pp.

WGC 2015 Stober et al.
STOBER, I. & BUCHER, K. (2015): Significance of Hydraulic Conductivity as Precondition to Fluid Flow in Fractured and Faulted Crystalline Basement and its Impact on Fluid-Rock Interaction Processes.- Proceedings World Geothermal Congress 2015, Melbourne, Australia. 5 pp.

WGC 2015 Weber et al. (PDF)  [approx. 1.2 MB]
WEBER, J., GANZ, B., SCHELLSCHMIDT, R., SANNER, B. & SCHULZ, R. (2015): Geothermal Energy Use in Germany. - Proceedings World Geothermal Congress 2015, 19-25 April 2015; Melbourne, Australia.

WGC 2015 Weber et al. (PDF)  [approx. 1 MB]
WEBER, J., GANZ, B., SCHULZ, R. & GIA COUNTRY REPRESENTATIVES (2015): The GIA Trend Report, an Annual Survey Report on Geothermal Applications and Developments. - Proceedings World Geothermal Congress 2015, 19-25 April 2015; Melbourne, Australia.

WGC 2015 Weber et al. (PDF) [approx. 2 MB]
WEBER, J., GANZ, B., SCHELLSCHMIDT, R., SANNER, B. & SCHULZ, R. (2015): Geothermal Energy Use in Germany. World Geothermal Congress 2015, 19.-25.04.2015; Melbourne, Australia.

WGC 2015 Weber et al. (PDF)  [approx. 1.5 MB]
WEBER, J., GANZ, B. & SCHULZ, R. (2015): The GIA Trend Report, an Annual Survey Report on Geothermal Applications and Developments. World Geothermal Congress 2015, 19.-25.04.2015; Melbourne, Australia.

Geothermiekongress 2013 Agemar et al.
AGEMAR, T., ALTEN, J.-A., GANZ, B., KUDER, J., KÜHNE, K. & SCHULZ, R. (2013): GeotIS – Übersicht und aktueller Stand der Entwicklung. – Der Geothermiekongress 2013, 12.-14. November 2013, Extended Abstract F12.3; Essen.

EAGE 2013 Stober
Second EAGE Sustainable Earth Sciences (SES) Conference and Exhibition, Pau, France, 30 September - 4 October 2013 (STOBER, I. (2013) Geothermal Fluid and Reservoir properties in the Upper Rhine Graben, Europe.), 6 p.

EGC 2013 Agemar et al.
AGEMAR, T., ALTEN, J.-A., GANZ, B., KUDER, J., KÜHNE, K. & SCHULZ, R. (2013): The Geothermal Information System GeotIS. – Proceedings, European Geothermal Congress, 3.-7.6.2013; Pisa, Italy.

EGC 2013 Ganz et al. (PDF)  [approx. 1 MB]
European Geothermal Congress 2013 Pisa, Italy, 3-7 June 2013 (GANZ, B., SCHELLSCHMIDT, R., SCHULZ, R., SANNER, B. (2013) Geothermal Energy Use in Germany)

EGC 2013 Ganz & Schulz (PDF)  [approx. 4.5 MB]
The IEA-GIA Geothermal Trend Report - a new survey report about geothermal applications and developments in IEA-GIA member countries. EGC 2013, 03. - 07.06.13; Pisa.

EGC 2013 Ganz & Schulz
GANZ, B. AND SCHULZ, R. (2013): The GIA Trend Report,a new survey report about geothermal applications and developments with trends in power generation and heat use in IEA-GIA member countries. - Proceedings European Geothermal Congress 2013, 5p; Pisa, Italy, 3 - 7 June 2013.

Geothermiekongress 2012 Suchi et al.
SUCHI, E., DITTMANN, J., KNOPF, S., MÜLLER, C. & SCHULZ, R. (2012): Geothermie-Atlas zur Darstellung möglicher Nutzungskonkurrenzen zwischen CCS und Tiefer Geothermie – Methodik und Ergebnisse. – Der Geothermie Kongress 2012, 13.-16.11.2012, Tagungsband-DVD: 12 S.; Karlsruhe.

Geothermiekongress 2011 Agemar et al. (PDF)  [< 1 MB]
AGEMAR, T., SCHELLSCHMIDT, R. & SCHULZ, R. (2011): 3D Modell der Untergrundtemperatur von Deutschland. - Der Geothermie Kongress 2011, 15.-17.11.2011; 9 Seiten; Bochum.

Geothermiekongress 2011 Agemar et al. (PDF)  [< 1 MB]
Geothermiekongress 2012 from 15.11.-17.11.2011 in Bochum. (AGEMAR, T., SCHELLSCHMIDT, R. & SCHULZ, R. (2011): 3D-Modell der Untergrundtemperatur von Deutschland. - Der Geothermiekongress 2011, Bochum, DVD, ISBN 13: 978-3-932570-66-7)

Geothermiekongress 2011 Schumacher, S. & Schulz, R. (PDF)  [< 1 MB]
SCHUMACHER, S. & SCHULZ, R. (2011): Effektivität von Säuerungsmaßnahmen an Geothermiebohrungen in der bayerischen Molasse - Der Geothermiekongress 2011, 15.-17. November 2011; 3 Seiten; Bochum.

Geothermiekongress 2011 Suchi et al.
SUCHI, E., DITTMANN, J., KNOPF, S., MÜLLER, C. & SCHULZ, R. (2011): Geothermie-Atlas zur Darstellung möglicher Nutzungskonkurrenzen zwischen CCS und Tiefer Geothermie. - Der Geothermie Kongress 2011, 15.-17.11.2011, Tagungsband-DVD: 10 S. ; Bochum.

WGC 2010 Pester et al. (PDF)  [< 1 MB]
World Geothermal Congress 2010 from 25.-29.04.2010 in Bali, Indonesia (PESTER, S., AGEMAR, T, ALTEN, J.-A., KUDER, J., Kuehne, K. MAUL, A.-A. SCHULZ, R. (2010) GeotIS - the Geothermal Information System for Germany)

WGC 2010 Schellschmidt et al. (PDF) [approx. 1.6 MB]
World Geothermal Congress 2010 from 25.-29.04.2010 in Bali, Indonesia (SCHELLSCHMIDT, R., SANNER, B., PESTER, S., SCHULZ, R. (2010) Geothermal Energy Use in Germany)

Aufbau eines E-Learning-Portals für die Tiefe Geothermie (PDF)
KUNKEL, C., AGEMAR, T., WEBER, J., WOLF, M. (2019): Aufbau eines E-Learning-Portals für die Tiefe Geothermie, Hannover 2019

Austauschsitzung 2017 Das neue GeotIS (PDF)
AGEMAR, T., ALTEN, J.-A., KADNER, C., KUNKEL, C., GRAMENZ, J., SUCHI, E., TRIBBENSEE, K., WEBER, J., WOLF, M., MOECK, I. (2017): Das neue GeotIS, 25.10.2017, Hannover

GoCAD-Anwender-Treffen 2016 Agemar et al.
Agemar, T., Alten, J.-A., Kuder, J., Suchi, E., Weber, J. & Gorling, L. (2016): Import und Visualisierung von Gocad-Volumengittern in GeotIS. GoCAD-Anwender-Treffen, 15.-16.3.2016, Freiberg (Sachsen).

LIAG-Austauschsitzung 2015 Agemar et al.
AGEMAR, T., ALTEN, J.-A., GORLING, L., KUDER, J., SUCHI, E., WEBER, J. (2015): GeotIS – aktueller Stand der Entwicklung. LIAG-Austauschsitzung, 04.-05.11.2015, Hannover.

LIAG-Austauschsitzung 2015 Weber et al. (PDF)  [approx. 7 MB]
WEBER, J. & OTHER GIA REPRESENTATIVES (2015): IEA-GIA Annex X - Data Collection and Information. - Poster, LIAG-Austauschsitzung, 04.-05.11.2015; Hannover.

KF3D 2015 Agemar et al.
AGEMAR, T., ALTEN, J.-A., GORLING, L., KUDER, J., SUCHI, E., WEBER, J. (2015): GeotIS – aktueller Stand der Entwicklung. Kommunikationsforum 3D der Geologischen Dienste, 16.-17.09.2015, Einbeck/Grubenhagen.

GoCAD-Anwender-Treffen 2015 Agemar et al.
AGEMAR, T., ALTEN, J.-A., KÜHNE, K., KUDER, J., SUCHI, E., WEBER, J. & SCHULZ, R. (2015): Das geothermische Potenzial tiefreichender Störungszonen in Deutschland, Gocad-Anwendertreffen, 18.-19.03.2015; Freiberg.

LIAG-Austauschsitzung 2014 Weber et al. (PDF)  [approx. 9 MB]
WEBER, J., SCHELLSCHMIDT, R., SCHULZ, R. & GIA REPRESENTATIVES (2014): Das LIAG als Partner im Internationalen Netzwerk von EERA und IEA-GIA. - LIAG-Austauschsitzung, 05.11.2014; Hannover.

Presentation exchange of information TU München/LIAG 2014 (PDF)  [approx. 5.6 MB]
Presentation of the 3D temperature model at the exchange of information between TU München and LIAG, 12.03.2014 in Munich.

Presentation Gocad user meeting 2014 (PDF)  [approx. 1.7 MB]
Presentation of GeotIS and the project StörTief especially regarding Gocad-formats at the Gocad user meeting, 18./19.3.2014 in Freiberg (Saxonia).

LIAG-Austauschsitzung 2013 Weber et al. (PDF)  [approx. 8 MB]
WEBER, J., GANZ, B., SCHULZ, R. & WISSING, L. (2013): Das LIAG als Partner im Internationalen Netzwerk des IEA-GIA. - Poster, LIAG-Austauschsitzung, 06.-07.11.2013; Hannover.

GEOELEC workshop 2012 Agemar (PDF)  [approx. 3 MB]
Sixth regional workshop of the GEOELEC project on February 29th in Offenburg: AGEMAR, T. (2012): The Geothermal Information System of Germany.

Sächsischer Geothermietag Spezial 2011 Agemar et al. (PDF)  [< 1 MB]
AGEMAR, T., ALTEN, J.-A., GANZ, B., KUDER, J., KÜHNE, K., SCHUMACHER, S. & SCHULZ, R. (2011): GeotIS - das Geothermische Informationssystem für Deutschland. -Sächsischer Geothermietag Spezial, 18.-19.05.2011, Tagungsband: 45-49; Freiberg (Sachsen).

LIAG-Austauschsitzung 2011 Agemar et al. (PDF)  [< 1 MB]
AGEMAR, T., ALTEN, J.-A., GANZ, B., KUDER, J., KÜHNE, K., SCHUMACHER, S. & SCHULZ, R. (2011): Geothermisches Informationssystem für Deutschland. - Poster, LIAG-Austauschsitzung, 02.-03.11.2011; Hannover.

GeotIS-presentation during a workshop in St. Quirin 2010 (PDF)  [approx. 8.5 MB]
Presentation of GeotIS and 3D models it is based on at "2. Workshop 3D-Geologie" of the State Geologic Surveys on 4. / 5. November 2010 in St. Quirin am Tegernsee.