Zhichao Yu scite author profile

Carbon dioxide enhanced oil recovery (CO 2-EOR) has been widely applied to the process of carbon capture, utilization, and storage (CCUS). Here, we investigate CO 2-oil-water-rock interactions under reservoir conditions (100°C and 24 MPa) in order to understand the fluid-rock interactions following termination of a CO 2-EOR project. Our experimental results show that CO 2-rich fluid remained the active fluid controlling the dissolution-precipitation processes in an oil-undersaturated sandstone reservoir; e.g., the dissolution of feldspar and calcite, and the precipitation of kaolinite as well as solid phases comprising O, Si, Al, Na, C, and Ti. Mineral dissolution rates were reduced in the case that mineral surfaces were coated by oil. Mineral wettability and composition, and oil saturation were the main controls on the exposed surface area of grains, and mineral wettability in particular led to selective dissolution. In addition, the permeability of the reservoir decreased substantially due to the precipitation of kaolinite and solid-phase particles, and due to the clogging of less soluble mineral particles released by the dissolution of K-feldspar and carbonate cement, whereas porosity increased. The results provide insight into potential formation damage resulting from CO 2-EOR projects.

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Zhichao Yu

An experimental study of CO2–brine–rock interaction at in situ pressure–temperature reservoir conditions

Dawsonite formation in the Beier Sag, Hailar Basin, NE China tuff: A natural analog for mineral carbon storage

Formation condition of deep gas reservoirs in tight sandstones in Kuqa Foreland Basin

Experimental identification of CO2–oil–brine–rock interactions: Implications for CO2 sequestration after termination of a CO2-EOR project

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