Science of Carbon Storage in Deep Saline Formations

<p>1. Overview of Geological Carbon Storage (GCS)<br>2. CO2 Enhanced Oil Recovery Experience and its Messages for CO2 Storage<br>3. Field observations of geochemical response to CO2 injection at the reservoir scale<br>4. Experimental studies of reactivity and transformations of rocks and minerals in water-bearing supercritical CO2<SUP><br></SUP>5. Reactive transport modelling of geological carbon storage - Zhenxue Dai, Hari Viswanathan, Ting Xiao, 6. Multi-phase flow associated with GCS at the field scale<br>7. Laboratory studies to understand the controls on flow and transport for CO2 storage<br>8. Numerical modelling of fluid flow during GCS<br>9. Field and laboratory studies of geomechanical response to the injection of CO2<br>10. Numerical geomechanics studies of GCS<br>11. Thermal processes during GCS: field observations, laboratory and theoretical studies<br>12. Field observations, experimental studies, and thermodynamic modelling of CO2 effects on microbial populations<br>13. Hydraulic-chemical coupling associated with injection of CO2 into subsurface - Rajesh Pawar and George Guthrie <br>14. Fracture Specific Stiffness: The Critical Link between the Scaling Behavior of Hydro-Mechanical Coupling in Fractures and Seismic Monitoring<br>15. Chemical-mechanical coupling associated with injection of CO2 into subsurface<br>16. Hydrologic, mechanical, thermal, and chemical process coupling triggered by the injection of CO2<br>17. Emergent Phenomena: Challenges in Prediction and Monitoring Risk and Performance in GCS - Seunghee Kim, D. 18. Closing remarks</p>