Feasibility study on large-scale geologic carbon sequestration in Southern Colorado

Document Type

Article

Publication Date

10-1-2025

Abstract

This study evaluates the feasibility of storing over 50 million metric tons of CO2 within a 30-year period in southern Colorado. The target for injection is the 7000 ft (2134 m)-deep Lyons saline aquifer formation, with the overlying alternating layers of anhydrite and shale serving as seals. Geological static models were constructed using seismic, well log and core data, followed by fluid flow modeling to understand the CO2 injection strategy, saturation distribution and plume size. The results indicate that approximately 60 million metric tons of CO2 can be injected with 2 wells into the formation over 30 years, with 85 % of the CO2 existing in a supercritical phase during the injection stage. After 70 years of shut-in, about 30 % of the injected CO2 becomes immobilized due to hysteresis. Seismic data shows no faulting within the injection and seal formations, and no legacy wells penetrate the Lyons formation within the study area, which reduces the risks of fault slippage and leakage through legacy wells. However, the small dip angle of the structure may present challenges to CO2 plume containment, highlighting the importance of implementing strategies such as enhanced monitoring systems, detailed geomechanical modeling, and plume migration simulations to mitigate and better understand potential risks. This study offers early insights into CCUS potential in southern Colorado using seismic and limited data, and will ultimately provide valuable guidance for future implementation of CO₂ injection in the region.

Publication Title

International Journal of Greenhouse Gas Control

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