Mesozoic Resource Potential in the Southern Permian Basin
CONTAINS OPEN ACCESS
The Southern Permian Basin, as its name suggests, is a historical heartland for hydrocarbon production from the Palaeozoic Rotliegend interval. However, in this mature basin the Mesozoic presents further possibilities to offer resource security to NW Europe. Such opportunities include increasing efficiency in the production of discovered hydrocarbons, exploration for further hydrocarbons (both conventional and unconventional) and efficient exploration for, and production of, geothermal energy. All these potential resources require a grounding in technically sound geoscience, via traditional scientific observation and the application of new technologies, to unlock their value.
The main aim of this volume is to bring together the work of academics and industry workers to consider cross-border geoscience including contributions on Poland, Germany, The Netherlands, the United Kingdom and adjacent areas. The work presented intends to contribute to the development and discovery of further Mesozoic energy resources across the basin.
Geothermal resources of the North German Basin: exploration strategy, development examples and remaining opportunities in Mesozoic hydrothermal reservoirs
Correspondence: [email protected]
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Published:January 01, 2018
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CiteCitation
Matthias Franz, Gregor Barth, Jens Zimmermann, Ingmar Budach, Kerstin Nowak, Markus Wolfgramm, 2018. "Geothermal resources of the North German Basin: exploration strategy, development examples and remaining opportunities in Mesozoic hydrothermal reservoirs", Mesozoic Resource Potential in the Southern Permian Basin, B. Kilhams, P. A. Kukla, S. Mazur, T. McKie, H. F. Mijnlieff, K. van Ojik
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Abstract
The North German Basin yields enormous geothermal resources of more than 13 000 EJ (exajoule: 1 EJ = 1 × 1018 J) heat in place bound to Paleozoic petrothermal and Mesozoic hydrothermal reservoirs. So far, these resources are only exploited at a few localities. Thus, geothermal energy is considered an underutilized energy resource. Despite long-term experience in exploiting Rhaetian hydrothermal reservoirs, the exploration risk remains high, which is mainly related to high expectations on reservoir thickness and quality. Previous exploration campaigns have identified potential hydrothermal reservoirs in six Mesozoic reservoir complexes. But, as high-resolution subsurface maps are not available, the reliable prediction and targeting of reservoirs remains an unsolved problem.
As such, an exploration strategy integrating methods of sedimentology, palaeontology, petrography and reservoir characterization was applied to a large database of cores and wireline logs. This contribution details the key results of the exploration of Upper Keuper and Middle Jurassic reservoir complexes, including high-resolution subsurface facies, sandstone thickness and reservoir quality maps. Sets of these maps enable the reliable prediction and targeting of individual hydrothermal reservoirs, and, thus, make a significant contribution to a lowered exploration risk.
- Bajocian
- basins
- biostratigraphy
- Central Europe
- clastic rocks
- controls
- Cretaceous
- data bases
- data processing
- deltaic environment
- depth
- development
- energy sources
- Europe
- facies
- geophysical methods
- geophysical profiles
- geophysical surveys
- geothermal energy
- geothermal exploration
- geothermal fields
- Germany
- Jurassic
- Keuper
- Lower Jurassic
- Lower Saxony Germany
- maturity
- Mecklenburg-Western Pomerania Germany
- Mesozoic
- microfossils
- Middle Jurassic
- North German Basin
- Paleozoic
- palynomorphs
- porosity
- prediction
- provenance
- reservoir properties
- reservoir rocks
- Rhaetian
- risk assessment
- sandstone
- sedimentary rocks
- seismic methods
- seismic profiles
- stratigraphy
- surveys
- thickness
- Toarcian
- Triassic
- Upper Triassic