Print Email Facebook Twitter Simulation of CO2 Storage Using a Parameterization Method for Essential Trapping Physics Title Simulation of CO2 Storage Using a Parameterization Method for Essential Trapping Physics: FluidFlower Benchmark Study Author Wang, Y. (TU Delft Numerical Analysis; China University of Geosciences, Wuhan) Zhang, Z. (TU Delft Numerical Analysis) Vuik, Cornelis (TU Delft Delft Institute of Applied Mathematics) Hajibeygi, H. (TU Delft Reservoir Engineering) Date 2023 Abstract An efficient compositional framework is developed for simulation of CO 2 storage in saline aquifers during a full-cycle injection, migration and post-migration processes. Essential trapping mechanisms, including structural, dissolution, and residual trapping, which operate at different time scales, are accurately captured in the presented unified framework. In particular, a parameterization method is proposed to efficiently describe the relevant physical processes. The proposed framework is validated by comparing the dynamics of gravity-induced convective transport with that reported in the literature. Results show good agreement for both the characteristics of descending fingers and the associated dissolution rate. The developed simulator is then applied to study the FluidFlower benchmark model. An experimental setup with heterogeneous geological layers is discretized into a two-dimensional computational domain where numerical simulation is performed. Impacts of hysteresis and the diffusion of CO 2 in liquid phase on the migration and trapping of CO 2 plume are investigated. Inclusion of the hysteresis effect does not affect plume migration in this benchmark model, whereas diffusion plays an important role in promoting convective mixing. This work casts a promising approach to predict the migration of the CO 2 plume, and to assess the amount of trapping from different mechanisms for long-term CO 2 storage. Subject Compositional simulationConvective mixingGeological CO storageHysteresisPorous media To reference this document use: http://resolver.tudelft.nl/uuid:7c05309d-821e-4ed8-a765-656ecdc2a954 DOI https://doi.org/10.1007/s11242-023-01987-5 ISSN 0169-3913 Source Transport in Porous Media Part of collection Institutional Repository Document type journal article Rights © 2023 Y. Wang, Z. Zhang, Cornelis Vuik, H. Hajibeygi Files PDF s11242_023_01987_5.pdf 2.03 MB Close viewer /islandora/object/uuid:7c05309d-821e-4ed8-a765-656ecdc2a954/datastream/OBJ/view