Geomechanical Investigations in the North Alpine Foreland Basin, SE Germany

Catharina Drexl; Justin Mattheis; Martin Potten; Georg Stockinger; Lisa Hug; Stefan Kollmannsberger; Kurosch Thuro

doi:10.1007/978-981-99-9073-3_30

Geomechanical Investigations in the North Alpine Foreland Basin, SE Germany

Catharina Drexl, Justin Mattheis, Martin Potten, Georg Stockinger, Lisa Hug, Stefan Kollmannsberger, Kurosch Thuro

Chair of Engineering Geology

Technical University of Munich

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In Germany, deep geothermal energy is playing an increasingly important role in achieving Germany's climate targets. Progressing this form of renewable energy requires reliable prediction of the potential of deep hydro- and petrothermal systems in carbonate reservoirs. Consequently, the Geothermal-Alliance Bavaria, a federally funded geothermal research collaboration, establishes geothermal energy as a reliable source of domestic energy. To accomplish these goals, Upper Jurassic carbonates (once described as Malm), which are main targets in the North Alpine Foreland Basin, SE Germany for hydrothermal geothermal energy, are subject to extensive geomechanical investigation. Due to the heterogeneous structure of this carbonate aquifer, the rock properties cannot be predicted with sufficient accuracy. However, these geotechnical parameters are significant for the realisation of geothermal projects, as they control the well stability and fracture initiation and propagation, as well as its stimulation potential. Hence, an extensive rock mechanic laboratory programme was carried out on carbonate rocks from scarcely obtainable drill cores from hydrocarbon/research wells and equivalent rocks, so-called analogue samples, from quarries. Non-destructive and destructive testing methods allowed the determination of elasticity, strength, and fracture toughness parameters. The mode II fracture toughness experiment was accompanied by a high-speed camera. Numerical simulation programmes are essential for evaluating the initiation and propagation of hydraulic conductive cracks in geothermal reservoirs. These codes dynamically simulate elastic and plastic deformation, allowing the simulation of fracture initiation and propagation within the rock mass. This geomechanical reservoir characterisation enables a better insight into the Malm aquifer in order to contribute to a higher efficient utilisation of this energy source in Germany in the future.

Original language	English
Title of host publication	Engineering Geology for a Habitable Earth
Subtitle of host publication	IAEG 14th Congress 2023 Proceedings - Marine and Deep Earth Engineering Geology
Editors	Sijing Wang, Runqiu Huang, Rafig Azzam, Vassilis P. Marinos
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	383-396
Number of pages	14
ISBN (Print)	9789819990726
DOIs	https://doi.org/10.1007/978-981-99-9073-3_30
State	Published - 2024
Event	14th Congress of the International Association for Engineering Geology and the Environment, IAEG Congress 2023 - Chengdu, China Duration: 21 Sep 2023 → 27 Sep 2023

Publication series

Name	Environmental Science and Engineering
ISSN (Print)	1863-5520
ISSN (Electronic)	1863-5539

Conference

Conference	14th Congress of the International Association for Engineering Geology and the Environment, IAEG Congress 2023
Country/Territory	China
City	Chengdu
Period	21/09/23 → 27/09/23

Keywords

Geothermal
Hydrothermal
Mode II fracture toughness
North alpine foreland basin
Phase-field modeling
Reservoir characterisation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1007/978-981-99-9073-3_30

Cite this

Drexl, C., Mattheis, J., Potten, M., Stockinger, G., Hug, L., Kollmannsberger, S., & Thuro, K. (2024). Geomechanical Investigations in the North Alpine Foreland Basin, SE Germany. In S. Wang, R. Huang, R. Azzam, & V. P. Marinos (Eds.), Engineering Geology for a Habitable Earth: IAEG 14th Congress 2023 Proceedings - Marine and Deep Earth Engineering Geology (pp. 383-396). (Environmental Science and Engineering). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-981-99-9073-3_30

Drexl, Catharina ; Mattheis, Justin ; Potten, Martin et al. / Geomechanical Investigations in the North Alpine Foreland Basin, SE Germany. Engineering Geology for a Habitable Earth: IAEG 14th Congress 2023 Proceedings - Marine and Deep Earth Engineering Geology. editor / Sijing Wang ; Runqiu Huang ; Rafig Azzam ; Vassilis P. Marinos. Springer Science and Business Media Deutschland GmbH, 2024. pp. 383-396 (Environmental Science and Engineering).

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title = "Geomechanical Investigations in the North Alpine Foreland Basin, SE Germany",

abstract = "In Germany, deep geothermal energy is playing an increasingly important role in achieving Germany's climate targets. Progressing this form of renewable energy requires reliable prediction of the potential of deep hydro- and petrothermal systems in carbonate reservoirs. Consequently, the Geothermal-Alliance Bavaria, a federally funded geothermal research collaboration, establishes geothermal energy as a reliable source of domestic energy. To accomplish these goals, Upper Jurassic carbonates (once described as Malm), which are main targets in the North Alpine Foreland Basin, SE Germany for hydrothermal geothermal energy, are subject to extensive geomechanical investigation. Due to the heterogeneous structure of this carbonate aquifer, the rock properties cannot be predicted with sufficient accuracy. However, these geotechnical parameters are significant for the realisation of geothermal projects, as they control the well stability and fracture initiation and propagation, as well as its stimulation potential. Hence, an extensive rock mechanic laboratory programme was carried out on carbonate rocks from scarcely obtainable drill cores from hydrocarbon/research wells and equivalent rocks, so-called analogue samples, from quarries. Non-destructive and destructive testing methods allowed the determination of elasticity, strength, and fracture toughness parameters. The mode II fracture toughness experiment was accompanied by a high-speed camera. Numerical simulation programmes are essential for evaluating the initiation and propagation of hydraulic conductive cracks in geothermal reservoirs. These codes dynamically simulate elastic and plastic deformation, allowing the simulation of fracture initiation and propagation within the rock mass. This geomechanical reservoir characterisation enables a better insight into the Malm aquifer in order to contribute to a higher efficient utilisation of this energy source in Germany in the future.",

keywords = "Geothermal, Hydrothermal, Mode II fracture toughness, North alpine foreland basin, Phase-field modeling, Reservoir characterisation",

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isbn = "9789819990726",

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Drexl, C, Mattheis, J, Potten, M, Stockinger, G, Hug, L, Kollmannsberger, S & Thuro, K 2024, Geomechanical Investigations in the North Alpine Foreland Basin, SE Germany. in S Wang, R Huang, R Azzam & VP Marinos (eds), Engineering Geology for a Habitable Earth: IAEG 14th Congress 2023 Proceedings - Marine and Deep Earth Engineering Geology. Environmental Science and Engineering, Springer Science and Business Media Deutschland GmbH, pp. 383-396, 14th Congress of the International Association for Engineering Geology and the Environment, IAEG Congress 2023, Chengdu, China, 21/09/23. https://doi.org/10.1007/978-981-99-9073-3_30

Geomechanical Investigations in the North Alpine Foreland Basin, SE Germany. / Drexl, Catharina; Mattheis, Justin; Potten, Martin et al.
Engineering Geology for a Habitable Earth: IAEG 14th Congress 2023 Proceedings - Marine and Deep Earth Engineering Geology. ed. / Sijing Wang; Runqiu Huang; Rafig Azzam; Vassilis P. Marinos. Springer Science and Business Media Deutschland GmbH, 2024. p. 383-396 (Environmental Science and Engineering).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Drexl, Catharina

AU - Mattheis, Justin

AU - Potten, Martin

AU - Stockinger, Georg

AU - Hug, Lisa

AU - Kollmannsberger, Stefan

AU - Thuro, Kurosch

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.

PY - 2024

Y1 - 2024

N2 - In Germany, deep geothermal energy is playing an increasingly important role in achieving Germany's climate targets. Progressing this form of renewable energy requires reliable prediction of the potential of deep hydro- and petrothermal systems in carbonate reservoirs. Consequently, the Geothermal-Alliance Bavaria, a federally funded geothermal research collaboration, establishes geothermal energy as a reliable source of domestic energy. To accomplish these goals, Upper Jurassic carbonates (once described as Malm), which are main targets in the North Alpine Foreland Basin, SE Germany for hydrothermal geothermal energy, are subject to extensive geomechanical investigation. Due to the heterogeneous structure of this carbonate aquifer, the rock properties cannot be predicted with sufficient accuracy. However, these geotechnical parameters are significant for the realisation of geothermal projects, as they control the well stability and fracture initiation and propagation, as well as its stimulation potential. Hence, an extensive rock mechanic laboratory programme was carried out on carbonate rocks from scarcely obtainable drill cores from hydrocarbon/research wells and equivalent rocks, so-called analogue samples, from quarries. Non-destructive and destructive testing methods allowed the determination of elasticity, strength, and fracture toughness parameters. The mode II fracture toughness experiment was accompanied by a high-speed camera. Numerical simulation programmes are essential for evaluating the initiation and propagation of hydraulic conductive cracks in geothermal reservoirs. These codes dynamically simulate elastic and plastic deformation, allowing the simulation of fracture initiation and propagation within the rock mass. This geomechanical reservoir characterisation enables a better insight into the Malm aquifer in order to contribute to a higher efficient utilisation of this energy source in Germany in the future.

AB - In Germany, deep geothermal energy is playing an increasingly important role in achieving Germany's climate targets. Progressing this form of renewable energy requires reliable prediction of the potential of deep hydro- and petrothermal systems in carbonate reservoirs. Consequently, the Geothermal-Alliance Bavaria, a federally funded geothermal research collaboration, establishes geothermal energy as a reliable source of domestic energy. To accomplish these goals, Upper Jurassic carbonates (once described as Malm), which are main targets in the North Alpine Foreland Basin, SE Germany for hydrothermal geothermal energy, are subject to extensive geomechanical investigation. Due to the heterogeneous structure of this carbonate aquifer, the rock properties cannot be predicted with sufficient accuracy. However, these geotechnical parameters are significant for the realisation of geothermal projects, as they control the well stability and fracture initiation and propagation, as well as its stimulation potential. Hence, an extensive rock mechanic laboratory programme was carried out on carbonate rocks from scarcely obtainable drill cores from hydrocarbon/research wells and equivalent rocks, so-called analogue samples, from quarries. Non-destructive and destructive testing methods allowed the determination of elasticity, strength, and fracture toughness parameters. The mode II fracture toughness experiment was accompanied by a high-speed camera. Numerical simulation programmes are essential for evaluating the initiation and propagation of hydraulic conductive cracks in geothermal reservoirs. These codes dynamically simulate elastic and plastic deformation, allowing the simulation of fracture initiation and propagation within the rock mass. This geomechanical reservoir characterisation enables a better insight into the Malm aquifer in order to contribute to a higher efficient utilisation of this energy source in Germany in the future.

KW - Geothermal

KW - Hydrothermal

KW - Mode II fracture toughness

KW - North alpine foreland basin

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Drexl C, Mattheis J, Potten M, Stockinger G, Hug L, Kollmannsberger S et al. Geomechanical Investigations in the North Alpine Foreland Basin, SE Germany. In Wang S, Huang R, Azzam R, Marinos VP, editors, Engineering Geology for a Habitable Earth: IAEG 14th Congress 2023 Proceedings - Marine and Deep Earth Engineering Geology. Springer Science and Business Media Deutschland GmbH. 2024. p. 383-396. (Environmental Science and Engineering). doi: 10.1007/978-981-99-9073-3_30

Geomechanical Investigations in the North Alpine Foreland Basin, SE Germany

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Keywords

UN SDGs

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