Geomechanical analysis of the influence of CO2 injection location on fault stability
Large amounts of carbon dioxide (CO2) should be injected in deep saline formations to mitigate climate change, implying geomechanical challenges that require further understanding. Pressure build-up induced by CO2 injection will decrease the effective stresses and may affect fault stability. Geomechanical effects of overpressure induced by CO2 injection either in the hanging wall or in the foot wall on fault stability are investigated. CO2 injection in the presence of a low-permeable fault induces pressurization of the storage formation between the injection well and the fault. The low permeability of the fault hinders fluid flow across it and leads to smaller overpressure on the other side of the fault. This variability in the fluid pressure distribution gives rise to differential total stress changes around the fault that reduce its stability. Despite a significant pressure build-up induced by the fault, caprock stability around the injection well is not compromised and thus, CO2 leakage across the caprock is unlikely to happen. The decrease in fault stability is similar regardless of the side of the fault where CO2 is injected. Simulation results show that fault core permeability has a significant effect on fault stability, becoming less affected for high-permeable faults. An appropriate pressure management will allow storing large quantities of CO2 without inducing fault reactivation. © 2016 Institute of Rock and Soil Mechanics, Chinese Academy of Sciences
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| Language: | English |
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Chinese Academy of Sciences
2016-12-01
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| Subjects: | Carbon dioxide (CO2) injection, Fault permeability, Fault stability, Geomechanics, Induced seismicity, |
| Online Access: | http://hdl.handle.net/10261/156428 http://dx.doi.org/10.13039/501100000780 |
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dig-idaea-es-10261-1564282020-05-25T16:39:23Z Geomechanical analysis of the influence of CO2 injection location on fault stability Vilarrasa, Víctor Makhnenko, Roman Y. Gheibi, Sohrab European Commission Carbon dioxide (CO2) injection Fault permeability Fault stability Geomechanics Induced seismicity Large amounts of carbon dioxide (CO2) should be injected in deep saline formations to mitigate climate change, implying geomechanical challenges that require further understanding. Pressure build-up induced by CO2 injection will decrease the effective stresses and may affect fault stability. Geomechanical effects of overpressure induced by CO2 injection either in the hanging wall or in the foot wall on fault stability are investigated. CO2 injection in the presence of a low-permeable fault induces pressurization of the storage formation between the injection well and the fault. The low permeability of the fault hinders fluid flow across it and leads to smaller overpressure on the other side of the fault. This variability in the fluid pressure distribution gives rise to differential total stress changes around the fault that reduce its stability. Despite a significant pressure build-up induced by the fault, caprock stability around the injection well is not compromised and thus, CO2 leakage across the caprock is unlikely to happen. The decrease in fault stability is similar regardless of the side of the fault where CO2 is injected. Simulation results show that fault core permeability has a significant effect on fault stability, becoming less affected for high-permeable faults. An appropriate pressure management will allow storing large quantities of CO2 without inducing fault reactivation. © 2016 Institute of Rock and Soil Mechanics, Chinese Academy of Sciences The first author acknowledges the support from the “EPFL Fellows” fellowship program co-funded by Marie Curie, FP7 (Grant No. 291771) and partial support from the “TRUST” project of the European Community's Seventh Framework Programme FP7/2007–2013 (Grant No. 309607) and the “FracRisk” project of the European Community's Horizon 2020 Framework Programme H2020-EU.3.3.2.3 (Grant No. 640979). Activities of the second author are sponsored by SCCER-SoE (Switzerland) (Grant No. KTI.2013.288) and Swiss Federal Office of Energy (SFOE) project CAPROCK (Grant No. 810008154). This publication has also been produced with partial support from the BIGCCS Centre (for the third author), performed under the Norwegian research program Centers for Environment-friendly Energy Research (FME). The third author acknowledges the following partners for their contributions: Gassco, Shell, Statoil, TOTAL, ENGIE, and the Research Council of Norway (193816/S60). Peer reviewed 2017-10-19T06:57:17Z 2017-10-19T06:57:17Z 2016-12-01 artículo http://purl.org/coar/resource_type/c_6501 Journal of Rock Mechanics and Geotechnical Engineering 8 (6): 805-818 (2016) http://hdl.handle.net/10261/156428 10.1016/j.jrmge.2016.06.006 http://dx.doi.org/10.13039/501100000780 en #PLACEHOLDER_PARENT_METADATA_VALUE# #PLACEHOLDER_PARENT_METADATA_VALUE# #PLACEHOLDER_PARENT_METADATA_VALUE# info:eu-repo/grantAgreement/EC/FP7/291771 info:eu-repo/grantAgreement/EC/FP7/309607 info:eu-repo/grantAgreement/EC/H2020/640979 Publisher's version https://doi.org/10.1016/j.jrmge.2016.06.006 Sí open Chinese Academy of Sciences |
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Carbon dioxide (CO2) injection Fault permeability Fault stability Geomechanics Induced seismicity Carbon dioxide (CO2) injection Fault permeability Fault stability Geomechanics Induced seismicity |
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Carbon dioxide (CO2) injection Fault permeability Fault stability Geomechanics Induced seismicity Carbon dioxide (CO2) injection Fault permeability Fault stability Geomechanics Induced seismicity Vilarrasa, Víctor Makhnenko, Roman Y. Gheibi, Sohrab Geomechanical analysis of the influence of CO2 injection location on fault stability |
| description |
Large amounts of carbon dioxide (CO2) should be injected in deep saline formations to mitigate climate change, implying geomechanical challenges that require further understanding. Pressure build-up induced by CO2 injection will decrease the effective stresses and may affect fault stability. Geomechanical effects of overpressure induced by CO2 injection either in the hanging wall or in the foot wall on fault stability are investigated. CO2 injection in the presence of a low-permeable fault induces pressurization of the storage formation between the injection well and the fault. The low permeability of the fault hinders fluid flow across it and leads to smaller overpressure on the other side of the fault. This variability in the fluid pressure distribution gives rise to differential total stress changes around the fault that reduce its stability. Despite a significant pressure build-up induced by the fault, caprock stability around the injection well is not compromised and thus, CO2 leakage across the caprock is unlikely to happen. The decrease in fault stability is similar regardless of the side of the fault where CO2 is injected. Simulation results show that fault core permeability has a significant effect on fault stability, becoming less affected for high-permeable faults. An appropriate pressure management will allow storing large quantities of CO2 without inducing fault reactivation. © 2016 Institute of Rock and Soil Mechanics, Chinese Academy of Sciences |
| author2 |
European Commission |
| author_facet |
European Commission Vilarrasa, Víctor Makhnenko, Roman Y. Gheibi, Sohrab |
| format |
artículo |
| topic_facet |
Carbon dioxide (CO2) injection Fault permeability Fault stability Geomechanics Induced seismicity |
| author |
Vilarrasa, Víctor Makhnenko, Roman Y. Gheibi, Sohrab |
| author_sort |
Vilarrasa, Víctor |
| title |
Geomechanical analysis of the influence of CO2 injection location on fault stability |
| title_short |
Geomechanical analysis of the influence of CO2 injection location on fault stability |
| title_full |
Geomechanical analysis of the influence of CO2 injection location on fault stability |
| title_fullStr |
Geomechanical analysis of the influence of CO2 injection location on fault stability |
| title_full_unstemmed |
Geomechanical analysis of the influence of CO2 injection location on fault stability |
| title_sort |
geomechanical analysis of the influence of co2 injection location on fault stability |
| publisher |
Chinese Academy of Sciences |
| publishDate |
2016-12-01 |
| url |
http://hdl.handle.net/10261/156428 http://dx.doi.org/10.13039/501100000780 |
| work_keys_str_mv |
AT vilarrasavictor geomechanicalanalysisoftheinfluenceofco2injectionlocationonfaultstability AT makhnenkoromany geomechanicalanalysisoftheinfluenceofco2injectionlocationonfaultstability AT gheibisohrab geomechanicalanalysisoftheinfluenceofco2injectionlocationonfaultstability |
| _version_ |
1777669292440944640 |