Simulation of Coupled Processes of Flow, Transport and Storage of CO2 in Saline Aquifers Email Page
Print This Page
Performer: Colorado School of Mines
Figure 1: Dissolution of CO<sub>2</sub> into brine<br/>phase generates density inversion with resulting<br/>flow fingering that suggests future directions for<br/>multiphase flow modeling of enhanced CO<sub>2</sub><br/>dissolution rate.
Figure 1: Dissolution of CO2 into brine
phase generates density inversion with resulting
flow fingering that suggests future directions for
multiphase flow modeling of enhanced CO2
dissolution rate.
Website: Colorado School of Mines
Award Number: FE0000988
Project Duration: 10/01/2009 – 09/30/2014
Total Award Value: $1,599,406
DOE Share: $1,199,406
Performer Share: $400,000
Technology Area: Geologic Storage Technologies and Simulation and Risk Assessment
Key Technology: Geochemical Impacts
Location: Golden, Colorado

Presentations, Papers, and Publications