Residual trapping, solubility trapping and capillary pinning complement each other to limit CO[subscript 2] migration in deep saline aquifers

Author(s)

Zhao, Benzhong; MacMinn, Christopher W.; Juanes, Ruben

Abstract

We derive a theoretical model for the post-injection migration of a CO[subscript 2] gravity current in a confined, sloping aquifer under the influence of residual trapping, solubility trapping, and capillary pinning. The resulting model consists of two coupled partial differential equations that describe the local thickness of the buoyant CO[subscript 2] current and the thickness of the mound of brine saturated with dissolved CO[subscript 2] as a function of time. We apply this model to a representative geological formation and provide estimates of the lifetime of the buoyant CO[subscript 2] current and its maximum migration distance. Our analysis shows that residual trapping, solubility trapping, and capillary pinning complement each other in limiting the ultimate migration distance of CO[subscript 2] gravity currents. The relative contribution of residual trapping, solubility trapping, and capillary pinning varies as a function of the injection volume. Our model can be used as a screening tool to evaluate the potential of deep saline aquifers for large-scale CO[subscript 2] sequestration.

Date issued

2014-12

URI

http://hdl.handle.net/1721.1/101642

Department

Massachusetts Institute of Technology. Department of Civil and Environmental Engineering

Journal

Energy Procedia

Publisher

Elsevier

Citation

Zhao, Benzhong, Christopher W. MacMinn, and Ruben Juanes. “Residual Trapping, Solubility Trapping and Capillary Pinning Complement Each Other to Limit CO[subscript 2] Migration in Deep Saline Aquifers.” Energy Procedia 63 (2014): 3833–3839.

Version: Final published version

ISSN

18766102