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Main Authors: Aji, Hendrawan D. B., Jähne-Klingberg, Fabian, Stück, Heidrun L., Wuttke, Frank, Dineva, Petia
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.12897
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author Aji, Hendrawan D. B.
Jähne-Klingberg, Fabian
Stück, Heidrun L.
Wuttke, Frank
Dineva, Petia
author_facet Aji, Hendrawan D. B.
Jähne-Klingberg, Fabian
Stück, Heidrun L.
Wuttke, Frank
Dineva, Petia
contents Underground CO2 storage operations may lead to induced seismicity, which can be partially related to nearby affected faults. Considering the storage potential in the Middle Buntsandstein sandstone formation on the West Schleswig Block within the German North Sea, we investigate the reactivation and seismicity potential of existing faults in the vicinity of a selected study area. For this, we develop a 3D fault data set based on roughly 80 2D seismic lines, combining 60 years of exploration history. Contextual details regarding the geological features and the lithological description of the area are presented. Using the fault data set and the present-day stress tensors derived through spatial interpolation of the 3D numerical stress model of Germany, a slip-tendency analysis is performed to assess the susceptibility of existing faults to reactivation and reveal critical focal mechanisms, which are important for further wave propagation simulation. Furthermore, we extend the procedure to estimate the sustainable pore pressure window and the potential moment magnitude in the event of a reactivation. The results show that the NW/SE and NNW/SSE-oriented faults exhibit a higher slip tendency. Among these faults, those with a combination of above-average slip tendency and potential moment magnitude are identified and discussed.
format Preprint
id arxiv_https___arxiv_org_abs_2507_12897
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Slip-tendency analysis of a potential CO2 storage site in the central German North Sea
Aji, Hendrawan D. B.
Jähne-Klingberg, Fabian
Stück, Heidrun L.
Wuttke, Frank
Dineva, Petia
Geophysics
Underground CO2 storage operations may lead to induced seismicity, which can be partially related to nearby affected faults. Considering the storage potential in the Middle Buntsandstein sandstone formation on the West Schleswig Block within the German North Sea, we investigate the reactivation and seismicity potential of existing faults in the vicinity of a selected study area. For this, we develop a 3D fault data set based on roughly 80 2D seismic lines, combining 60 years of exploration history. Contextual details regarding the geological features and the lithological description of the area are presented. Using the fault data set and the present-day stress tensors derived through spatial interpolation of the 3D numerical stress model of Germany, a slip-tendency analysis is performed to assess the susceptibility of existing faults to reactivation and reveal critical focal mechanisms, which are important for further wave propagation simulation. Furthermore, we extend the procedure to estimate the sustainable pore pressure window and the potential moment magnitude in the event of a reactivation. The results show that the NW/SE and NNW/SSE-oriented faults exhibit a higher slip tendency. Among these faults, those with a combination of above-average slip tendency and potential moment magnitude are identified and discussed.
title Slip-tendency analysis of a potential CO2 storage site in the central German North Sea
topic Geophysics
url https://arxiv.org/abs/2507.12897