Simplified physics model of CO₂ plume extent in stratified aquifer‐caprock systems

Abstract: The extent of plume migration as injected CO2 displaces the native reservoir fluids is a crucial performance metric to ensure safe and effective geologic sequestration. In this paper, we develop and validate a simplified physics model for the outer extent of CO2‐brine interface in a stratified aquifer‐caprock system. This involves quantifying the total storage efficiency, which is defined as the product of the volumetric sweep and displacement efficiencies, based on simulations covering an extensive parameter … Show more

“…However, the complexity of the subsurface requires identifying safe and permanent storage sites for CO 2 2,3 . A major challenge is to accurately model the CO 2 flow in the subsurface 4–7 . Several modeling approaches are available to forecast the fate of CO 2 in the underground 8–12 .…”

Modeling CO₂ plume migration using an invasion‐percolation approach that includes dissolution

“…However, the complexity of the subsurface requires identifying safe and permanent storage sites for CO 2 2,3 . A major challenge is to accurately model the CO 2 flow in the subsurface 4–7 . Several modeling approaches are available to forecast the fate of CO 2 in the underground 8–12 .…”

Modeling CO₂ plume migration using an invasion‐percolation approach that includes dissolution

Uncertainty Quantification

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