Lateral growth of the fault damage zone as a result of induced seismicity
Geo-energy applications such as geologic carbon storage, geothermal energy extraction, and subsurface energy storage, imply fluid injection and production resulting in pressure and temperature diffusion. Consequent changes in the initial hydraulic and thermal state may induce seismicity, usually nucleated at faults that cross the injection formation. Through fully coupled hydro-mechanical simulations, we investigate the fault stability affected by fluid injection into a porous aquifer that is overlaid and underlain by low permeable clay-rich formations. We find that aquifer pressurization as a result of fluid injection causes significant stress changes around the fault. Simulation results show that the least stable situation occurs at the contact between the aquifer and the fault damage zone – unexpectedly not within the fault. Induced earthquakes are likely to nucleate on the edge of the fault damage zone, leading to a lateral growth of the damage zone and a possible spreading of the fault zone.
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| Language: | English |
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2019-04
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| Subjects: | Induced seismicity, Fluid injection, |
| Online Access: | http://hdl.handle.net/10261/183573 http://dx.doi.org/10.13039/501100000781 |
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dig-idaea-es-10261-1835732020-05-25T16:39:23Z Lateral growth of the fault damage zone as a result of induced seismicity Vilarrasa, Víctor Makhnenko, Roman Y. Parisio, Francesco European Research Council Vilarrasa, Víctor [0000-0003-1169-4469] Induced seismicity Fluid injection Geo-energy applications such as geologic carbon storage, geothermal energy extraction, and subsurface energy storage, imply fluid injection and production resulting in pressure and temperature diffusion. Consequent changes in the initial hydraulic and thermal state may induce seismicity, usually nucleated at faults that cross the injection formation. Through fully coupled hydro-mechanical simulations, we investigate the fault stability affected by fluid injection into a porous aquifer that is overlaid and underlain by low permeable clay-rich formations. We find that aquifer pressurization as a result of fluid injection causes significant stress changes around the fault. Simulation results show that the least stable situation occurs at the contact between the aquifer and the fault damage zone – unexpectedly not within the fault. Induced earthquakes are likely to nucleate on the edge of the fault damage zone, leading to a lateral growth of the damage zone and a possible spreading of the fault zone. V.V. would like to acknowledge funding from the European Research Council (ERC) under European Union’s Horizon 2020 research and innovation programme (grant agreement No 801809) Peer reviewed 2019-06-07T07:50:04Z 2019-06-07T07:50:04Z 2019-04 póster de congreso http://purl.org/coar/resource_type/c_6670 European Geosciences Union General Assembly 2019, Vienna, Austria, 7-12 April 2019 http://hdl.handle.net/10261/183573 http://dx.doi.org/10.13039/501100000781 en #PLACEHOLDER_PARENT_METADATA_VALUE# info:eu-repo/grantAgreement/EC/H2020/801809 Publisher's version Sí open |
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Induced seismicity Fluid injection Induced seismicity Fluid injection |
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Induced seismicity Fluid injection Induced seismicity Fluid injection Vilarrasa, Víctor Makhnenko, Roman Y. Parisio, Francesco Lateral growth of the fault damage zone as a result of induced seismicity |
| description |
Geo-energy applications such as geologic carbon storage, geothermal energy extraction, and subsurface energy storage, imply fluid injection and production resulting in
pressure and temperature diffusion. Consequent changes in the initial hydraulic and thermal state may induce seismicity, usually nucleated at faults that cross the injection
formation. Through fully coupled hydro-mechanical simulations, we investigate the fault stability affected by fluid injection into a porous aquifer that is overlaid and underlain by
low permeable clay-rich formations. We find that aquifer pressurization as a result of fluid injection causes significant stress changes around the fault. Simulation
results show that the least stable situation occurs at the contact between the aquifer and the fault damage zone – unexpectedly not within the fault. Induced earthquakes are
likely to nucleate on the edge of the fault damage zone, leading to a lateral growth of the damage zone and a possible spreading of the fault zone. |
| author2 |
European Research Council |
| author_facet |
European Research Council Vilarrasa, Víctor Makhnenko, Roman Y. Parisio, Francesco |
| format |
póster de congreso |
| topic_facet |
Induced seismicity Fluid injection |
| author |
Vilarrasa, Víctor Makhnenko, Roman Y. Parisio, Francesco |
| author_sort |
Vilarrasa, Víctor |
| title |
Lateral growth of the fault damage zone as a result of induced seismicity |
| title_short |
Lateral growth of the fault damage zone as a result of induced seismicity |
| title_full |
Lateral growth of the fault damage zone as a result of induced seismicity |
| title_fullStr |
Lateral growth of the fault damage zone as a result of induced seismicity |
| title_full_unstemmed |
Lateral growth of the fault damage zone as a result of induced seismicity |
| title_sort |
lateral growth of the fault damage zone as a result of induced seismicity |
| publishDate |
2019-04 |
| url |
http://hdl.handle.net/10261/183573 http://dx.doi.org/10.13039/501100000781 |
| work_keys_str_mv |
AT vilarrasavictor lateralgrowthofthefaultdamagezoneasaresultofinducedseismicity AT makhnenkoromany lateralgrowthofthefaultdamagezoneasaresultofinducedseismicity AT parisiofrancesco lateralgrowthofthefaultdamagezoneasaresultofinducedseismicity |
| _version_ |
1777669328744742912 |