Chapter 17 - Carbon Geological Storage: Coupled Processes, Engineering and Monitoring
KAUST DepartmentEarth Science and Engineering Program
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AbstractToday’s energy concerns reflect the large anticipated increase in demand within the next generation, the current dependency on fossil fuels and climate implications, the geographic mismatch between resources and demand, and the disparity in associated time scales. The long-term geological storage of vast quantities of CO2 is a relatively new scientific and technological challenge, plagued with underlying coupled hydro-chemo-mechanical processes and potential emergent phenomena. Processes include: capillarity, density and viscous effects on flow; acidification, mineral dissolution, and ensuing changes in permeability; phase transformations (and CO2-CH4 exchange in hydrates); and stress changes. These processes are involved in the analysis of CO2 storage in saline aquifers, coal seams, depleted reservoirs, and in clathrates. Furthermore, the understanding of underlying processes guides monitoring (active: seismic and electromagnetic; passive: seismic, deformation, thermal) and may lead to improved efficiency and leakage-sealing strategies. Dimensionless ratios help identify the domain for the various dominant processes that govern CO2 geo-storage.
CitationKim S, Espinoza DN, Jung J, Cha M, Santamarina JC (2019) Chapter 17 - Carbon Geological Storage: Coupled Processes, Engineering and Monitoring. Science of Carbon Storage in Deep Saline Formations: 287–304. Available: http://dx.doi.org/10.1016/B978-0-12-812752-0.00017-4.
SponsorsSupport for this research was provided by the US Department of Energy. G. Abelskamp edited the manuscript. We are grateful to the anonymous reviewers for detailed comments and valuable insights.