Litcius/Paper detail

Two-Phase Flow Mechanisms Controlling CO2 Intrusion into Shaly Caprock

Iman Rahimzadeh Kivi, Roman Y. Makhnenko, Víctor Vilarrasa

2022Transport in Porous Media29 citationsDOIOpen Access PDF

Abstract

Abstract Geologic carbon storage in deep saline aquifers has emerged as a promising technique to mitigate climate change. CO 2 is buoyant at the storage conditions and tends to float over the resident brine jeopardizing long-term containment goals. Therefore, the caprock sealing capacity is of great importance and requires detailed assessment. We perform supercritical CO 2 injection experiments on shaly caprock samples (intact caprock and fault zone) under representative subsurface conditions. We numerically simulate the experiments, satisfactorily reproducing the observed evolution trends. Simulation results highlight the dynamics of CO 2 flow through the specimens with implications to CO 2 leakage risk assessment in field practices. The large injection-induced overpressure drives CO 2 in free phase into the caprock specimens. However, the relative permeability increase following the drainage path is insufficient to provoke an effective advancement of the free-phase CO 2 . As a result, the bulk CO 2 front becomes almost immobile. This implies that the caprock sealing capacity is unlikely to be compromised by a rapid capillary breakthrough and the injected CO 2 does not penetrate deep into the caprock. In the long term, the intrinsically slow molecular diffusion appears to dominate the migration of CO 2 dissolved into brine. Nonetheless, the inherently tortuous nature of shaly caprock further holds back the diffusive flow, favoring safe underground storage of CO 2 over geological time scales.

Topics & Concepts

CaprockGeologyPetroleum engineeringSupercritical fluidPetrologyAquiferCarbon sequestrationGeotechnical engineeringCarbon dioxideGroundwaterThermodynamicsPhysicsBiologyEcologyCO2 Sequestration and Geologic InteractionsMethane Hydrates and Related PhenomenaGroundwater flow and contamination studies