Abstract
Injecting CO2 into a reservoir disturbs the geostress field, which leads to variations in the permeability of caprock and affects its sealing performance. In this paper, the evolution characteristics of the permeability of Yingcheng mudstone were experimentally studied during deviatoric compression under different confining pressures. As the confining pressure increased, the strength of the mudstone increased bilinearly, the angle between the fault and the maximum principle stress increased, and the fault became flatter. During compression, the permeability of mudstone first decreased and then increased and the turning point of the permeability was between the onset of dilatancy and the turning point of volumetric strain; when the fault formed, the permeability increased sharply and the fault-induced increment was reduced exponentially with increasing confining pressure. In addition, the mudstone transformed to the ductile failure mode when the effective confining pressure was greater than 35 MPa, which means that the permeability did not jump within a small strain. Finally, a practical strain-based model of permeability evolution that separately considers compaction and dilatancy was proposed, and the predicted permeability values were in good agreement with the experimental results. This study revealed the effect of confining pressure on permeability evolution during compression and can help evaluate the sealing ability of mudstone caprock.
Highlights
Mudstone, the most common material in sedimentary basins, has extremely low permeability and high capillary entry pressure [1], which means that geofluids take a very long time to saturate and pass through a mudstone formation [2]
We did not test the permeability at different hydrostatic pressures on a single specimen, but the effect of the confining pressure on permeability can still be illustrated according to initial permeability (k2a) before the deviatoric loading of different specimens
This paper investigated the influence of confining pressure on mechanics-permeability behavior of Yingcheng mudstone based on true triaxial compressive experiments
Summary
The most common material in sedimentary basins, has extremely low permeability and high capillary entry pressure [1], which means that geofluids take a very long time to saturate and pass through a mudstone formation [2]. Since the clay grains are platy shaped, mudstone has higher compressibility than other sedimentary rocks and its permeability, which is related to porosity, decreases greatly with increasing diagenesis depth or consolidation pressure [14,15,16,17,18]. In CO2 capture and storage (CCS) projects, mudstone usually serves as the caprock formation to seal CO2 safely in the crust for a long time [22,23,24,25]; its permeability is the essential factor affecting its sealing performance
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