Laboratory evidence for slip evolution of granite fractures due to chemical stimulation in geothermal reservoirs
Understanding the mechanisms of injection-induced seismicity is critical for managing the anthropogenic geohazard, which recently hinders the development of geothermal energy. Here we reanalyzed the seismic data recorded during the acid fluid injection at the geothermal field of Soultz-sous-Forêts (...
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sg-ntu-dr.10356-1634442022-12-06T08:05:22Z Laboratory evidence for slip evolution of granite fractures due to chemical stimulation in geothermal reservoirs Wu, Wei Calò, Marco Fang, Zhou School of Civil and Environmental Engineering Engineering::Civil engineering Acid Fluid Injection Granite Fracture Understanding the mechanisms of injection-induced seismicity is critical for managing the anthropogenic geohazard, which recently hinders the development of geothermal energy. Here we reanalyzed the seismic data recorded during the acid fluid injection at the geothermal field of Soultz-sous-Forêts (France) in 2005 and conducted a series of water injection experiments on granite fractures treated with dilute hydrochloric acid. We aimed to provide laboratory evidence for slip transition of the chemically treated fractures in geothermal reservoirs. We found that the amount of induced seismic events is promoted by the acid treatment, and the distribution of these seismic events is expanded in the post-acid water injection. Our experimental study demonstrated non-linear distributions of water pressure and frictional strength over the fracture during the water injection. The ratio of the shear stress variation to the fluid pressure variation reduces with a larger aseismic slip front amplification factor, which reflects the transition from the aseismic to seismic slip. The study revealed that the acid treatment potentially causes an increase in seismic event amount but a reduction in moment magnitude in the chemically treated region. The aseismic slip in the treated region may promote shear stress gradient along the fracture and result in the seismic events expanding in untreated regions. Additionally, the moment magnitude may be amplified when the fracture dictates neighboring fractures beyond the treated region. Ministry of Education (MOE) National Research Foundation (NRF) W. Wu gratefully acknowledges the supports of National Research Foundation, Singapore (Grant No. NRF-CSC-ICFC2017-04) and Ministry of Education, Singapore (Grant No. RG152/19). 2022-12-06T08:05:22Z 2022-12-06T08:05:22Z 2022 Journal Article Wu, W., Calò, M. & Fang, Z. (2022). Laboratory evidence for slip evolution of granite fractures due to chemical stimulation in geothermal reservoirs. Engineering Geology, 306, 106773-. https://dx.doi.org/10.1016/j.enggeo.2022.106773 0013-7952 https://hdl.handle.net/10356/163444 10.1016/j.enggeo.2022.106773 2-s2.0-85133417929 306 106773 en NRF-CSC-ICFC2017-04 RG152/19 Engineering Geology © 2022 Elsevier B.V. All rights reserved. |
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Engineering::Civil engineering Acid Fluid Injection Granite Fracture Wu, Wei Calò, Marco Fang, Zhou Laboratory evidence for slip evolution of granite fractures due to chemical stimulation in geothermal reservoirs |
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Understanding the mechanisms of injection-induced seismicity is critical for managing the anthropogenic geohazard, which recently hinders the development of geothermal energy. Here we reanalyzed the seismic data recorded during the acid fluid injection at the geothermal field of Soultz-sous-Forêts (France) in 2005 and conducted a series of water injection experiments on granite fractures treated with dilute hydrochloric acid. We aimed to provide laboratory evidence for slip transition of the chemically treated fractures in geothermal reservoirs. We found that the amount of induced seismic events is promoted by the acid treatment, and the distribution of these seismic events is expanded in the post-acid water injection. Our experimental study demonstrated non-linear distributions of water pressure and frictional strength over the fracture during the water injection. The ratio of the shear stress variation to the fluid pressure variation reduces with a larger aseismic slip front amplification factor, which reflects the transition from the aseismic to seismic slip. The study revealed that the acid treatment potentially causes an increase in seismic event amount but a reduction in moment magnitude in the chemically treated region. The aseismic slip in the treated region may promote shear stress gradient along the fracture and result in the seismic events expanding in untreated regions. Additionally, the moment magnitude may be amplified when the fracture dictates neighboring fractures beyond the treated region. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Wu, Wei Calò, Marco Fang, Zhou |
| format |
Article |
| author |
Wu, Wei Calò, Marco Fang, Zhou |
| author_sort |
Wu, Wei |
| title |
Laboratory evidence for slip evolution of granite fractures due to chemical stimulation in geothermal reservoirs |
| title_short |
Laboratory evidence for slip evolution of granite fractures due to chemical stimulation in geothermal reservoirs |
| title_full |
Laboratory evidence for slip evolution of granite fractures due to chemical stimulation in geothermal reservoirs |
| title_fullStr |
Laboratory evidence for slip evolution of granite fractures due to chemical stimulation in geothermal reservoirs |
| title_full_unstemmed |
Laboratory evidence for slip evolution of granite fractures due to chemical stimulation in geothermal reservoirs |
| title_sort |
laboratory evidence for slip evolution of granite fractures due to chemical stimulation in geothermal reservoirs |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163444 |
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1753801079317856256 |