about
Geologic carbon storage is unlikely to trigger large earthquakes and reactivate faults through which CO2 could leakReply to Zoback and Gorelick: Geologic carbon storage remains a safe strategy to significantly reduce CO2 emissions.Deep enclosures versus pumping to reduce settlements during shaft excavationsHydraulic characterization of diaphragm walls for cut and cover tunnellingProbabilistic analysis of groundwater-related risks at subsurface excavation sitesA methodology for characterizing the hydraulic effectiveness of an annular low-permeability barrierTwo-phase flow effects on the CO2injection pressure evolution and implications for the caprock geomechanical stabilityLong term impacts of cold CO2 injection on the caprock integrityA method for incorporating equilibrium chemical reactions into multiphase flow models for CO2 storageDynamics and design of systems for geological storage of dissolved CO2Hydromechanical characterization of CO2 injection sitesLiquid CO2 injection for geological storage in deep saline aquifersSemianalytical Solution for $$\text{ CO}_{2}$$ Plume Shape and Pressure Evolution During $$\text{ CO}_{2}$$ Injection in Deep Saline FormationsThermal coupling may control mechanical stability of geothermal reservoirs during cold water injectionGeomechanical stability of the caprock during CO2 sequestration in deep saline aquifersCoupled hydromechanical modeling of CO2 sequestration in deep saline aquifersEffects of CO2 Compressibility on CO2 Storage in Deep Saline AquifersFault reactivation during CO2sequestration: Effects of well orientation on seismicity and leakageThe risks of long-term re-injection in supercritical geothermal systems
P50
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P50
description
researcher ORCID ID = 0000-0003-1169-4469
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name
Víctor Vilarrasa
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Víctor Vilarrasa
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Víctor Vilarrasa
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Víctor Vilarrasa
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type
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Víctor Vilarrasa
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Víctor Vilarrasa
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Víctor Vilarrasa
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Víctor Vilarrasa
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Víctor Vilarrasa
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Víctor Vilarrasa
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Víctor Vilarrasa
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Víctor Vilarrasa
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P1153
35811692600
P21
P31
P496
0000-0003-1169-4469