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Article
Influence of Small-Scale Fluvial Architecture on CO2 Trapping Processes in Deep Brine Reservoirs
Water Resources Research
  • Naum I. Gershenzon, Wright State University - Main Campus
  • Robert W. Ritzi, Wright State University - Main Campus
  • David F. Dominic, Wright State University - Main Campus
  • Mohamad Reza Soltanian
  • Edward Mehnert
  • Roland T. Okwen
Document Type
Article
Publication Date
10-1-2015
Abstract
A number of important candidate CO2 reservoirs exhibit sedimentary architecture reflecting fluvial deposition. Recent studies have led to new conceptual and quantitative models for sedimentary architecture in fluvial deposits over a range of scales that are relevant to CO2 injection and storage. We used a geocellular modeling approach to represent this multiscaled and hierarchical sedimentary architecture. With this model, we investigated the dynamics of CO2plumes, during and after injection, in such reservoirs. The physical mechanism of CO2 trapping by capillary trapping incorporates a number of related processes, i.e., residual trapping, trapping due to hysteresis of the relative permeability, and trapping due to hysteresis of the capillary pressure. Additionally, CO2 may be trapped due to differences in capillary entry pressure for different textural sedimentary facies (e.g., coarser-grained versus finer-grained cross sets). The amount of CO2 trapped by these processes depends upon a complex system of nonlinear and hysteretic characteristic relationships including how relative permeability and capillary pressure vary with brine and CO2 saturation. The results strongly suggest that representing small-scale features (decimeter to meter), including their organization within a hierarchy of larger-scale features, and representing their differences in characteristic relationships can all be critical to understanding trapping processes in some important candidate CO2 reservoirs.
DOI
10.1002/2015WR017638
Citation Information
Naum I. Gershenzon, Robert W. Ritzi, David F. Dominic, Mohamad Reza Soltanian, et al.. "Influence of Small-Scale Fluvial Architecture on CO2 Trapping Processes in Deep Brine Reservoirs" Water Resources Research Vol. 51 Iss. 10 (2015) p. 8240 - 8256 ISSN: 00431397
Available at: http://works.bepress.com/naum_gershenzon/65/