Science of Carbon Storage in Deep Saline Formations Process Coupling across Time and Spatial Scales
Coordonnateurs : Newell Pania, Ilgen Anastasia
Science of Carbon Storage in Deep Saline Formations: Process Coupling across Time and Spatial Scales summarizes state-of-the-art research, emphasizing how the coupling of physical and chemical processes as subsurface systems re-equilibrate during and after the injection of CO2. In addition, it addresses, in an easy-to-follow way, the lack of knowledge in understanding the coupled processes related to fluid flow, geomechanics and geochemistry over time and spatial scales. The book uniquely highlights process coupling and process interplay across time and spatial scales that are relevant to geological carbon storage.
1. Overview of Geological Carbon Storage (GCS) 2. CO2 Enhanced Oil Recovery Experience and its Messages for CO2 Storage 3. Field observations of geochemical response to CO2 injection at the reservoir scale 4. Experimental studies of reactivity and transformations of rocks and minerals in water-bearing supercritical CO25. Reactive transport modelling of geological carbon storage - Zhenxue Dai, Hari Viswanathan, Ting Xiao, 6. Multi-phase flow associated with GCS at the field scale7. Laboratory studies to understand the controls on flow and transport for CO2 storage 8. Numerical modelling of fluid flow during GCS 9. Field and laboratory studies of geomechanical response to the injection of CO2 10. Numerical geomechanics studies of GCS 11. Thermal processes during GCS: field observations, laboratory and theoretical studies 12. Field observations, experimental studies, and thermodynamic modelling of CO2 effects on microbial populations13. Hydraulic-chemical coupling associated with injection of CO2 into subsurface - Rajesh Pawar and George Guthrie 14. Fracture Specific Stiffness: The Critical Link between the Scaling Behavior of Hydro-Mechanical Coupling in Fractures and Seismic Monitoring 15. Chemical-mechanical coupling associated with injection of CO2 into subsurface 16. Hydrologic, mechanical, thermal, and chemical process coupling triggered by the injection of CO2 17. Emergent Phenomena: Challenges in Prediction and Monitoring Risk and Performance in GCS - Seunghee Kim, D. 18. Closing remarks
Professional geologists, geochemists, geophysicists, and environmental engineers; and upper-level graduate students in these fields
Anastasia G. Ilgen is a staff scientist in the Geochemistry Department at Sandia National Laboratories. She is an experimental geochemist, specializing in molecular-level processes at mineral-water interfaces, with emphasis on ion adsorption-desorption rate and mechanisms, chemical controls on mineral growth and dissolution, and surface-mediated redox reactions. At Sandia National Laboratories she has built research programs relevant to the geological carbon storage, chemical-mechanical effects in geosystems, and fundamental research on clay mineral-water interfacial chemistry.
- Includes the underlying scientific research, as well as the risks associated with geological carbon storage
- Covers the topic of geological carbon storage from various disciplines, addressing the multi-scale and multi-physics aspects of geological carbon storage
- Organized by discipline for ease of navigation
Date de parution : 09-2018
Ouvrage de 446 p.
19x23.3 cm
Thèmes de Science of Carbon Storage in Deep Saline Formations :
Mots-clés :
Biofilms; Biogeochemistry; Biomineralization; CO2; CO2 induced geochemical effects; CO2 injection; CO2 leakage; CO2 movement; CO2 sequestration; CO2-brine-rock interactions; Caprock; Caprock integrity; Carbonation; Chemical-mechanical coupling; Computational coupling method; Coupled processes; Deformation; Dissolution-precipitation; Dynamic vertical reconstruction; Effective stress; Enhanced oil recovery; Equilibrium; Expandable clay minerals; Fault activation; Feldspar; Field tests; Fluid flow; Fractures; GCS; Geochemical modeling; Geochemistry; Geologic carbon sequestration; Geologic carbon storage modeling; Geological carbon storage; Geological carbon storage (GCS); Geological storage; Geomechanics; Induced microseismicity; Induced seismicity; Interfacial water films; Kinetic reaction; Laboratory experiments; Microbial ecology; Microbiology; Modeling; Multiphase flow; Olivine; Phyllosilicate; Pilot test sites; Pore pressure; Pyroxene; Relative permeability; Reservoir; Sandstone; Seismicity; Serpentine; Shale; Silicate minerals; Simplified three-dimensional modeling; Spatial scales; Status and challenges; Stress state; Supercritical carbon dioxide; THMC; Thermal effects; Trapping mechanisms; Uncertainty analysis; Value of information; Vertically-integrated modeling; Wave propagation
