### Session L27: Minisymposium: The Fluid Dynamics of Geological CO2 Sequestration

3:35 PM–5:45 PM, Monday, November 21, 2011
Room: Ballroom I-II

Chair: Jerome Neufeld, University of Cambridge

Abstract ID: BAPS.2011.DFD.L27.1

### Abstract: L27.00001 : Fluid dynamics of CO$_2$ sequestration

3:35 PM–4:01 PM

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#### Author:

Herbert E. Huppert
(Institute of Theoretical Geophysics, University of Cambridge, UK)

A means of reducing environmental damage due to anthropogenic emissions of carbon dioxide (CO$_2$) is through geological storage in porous reservoir rocks until well past the end of the fossil fuel era. Here we discuss the propagation and form of the buoyancy-driven propagation of multiphase CO$_2$-brine plumes bounded by an impermeable barrier or cap rock. Long-term containment of CO$_2$ is important, and we will quantify some of the risks due to leakage in this system. Finally, stable sequestration through capillary forces or through dissolution of CO$_2$ into the brine is greatly enhanced by mixing, which is often dominated by layered stratigraphy. Here we describe injection into a two-layered porous medium, and show the sensitive dependence of propagation and mixing on the input flux, Q. For two-layered systems we find that above a critical flux, Q$_C$, fluid injected at the base of a relatively low permeability layer preferentially flows in the more permeable upper layer leading to an overriding current, thus enhancing mixing. Finally, we apply these ideas to examine the storage of CO$_2$ within the Sleipner field, where CO$_2$ has been injected since 1996. The talk will be illustrated by some desktop experiments.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2011.DFD.L27.1