Capacity investigation of brine-bearing sands of the Frio Formation for geologic sequestration of CO2

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Date

2001-05

Authors

Doughty, Christine
Pruess, Karston
Benson, Sally M.
Hovorka, Susan D.
Knox, Paul R.
Green, Christopher T.

Journal Title

Journal ISSN

Volume Title

Publisher

First National Conference on Carbon Sequestration, May 14–17, Washington, D.C., sponsored by National Energy Technology Laboratory

Abstract

The capacity of fluvial brine-bearing formations to sequester CO2 is investigated using numerical simulations of CO2 injection and storage. Capacity is defined as the volume fraction of the subsurface available for CO2 storage and is conceptualized as a product of factors that account for two-phase flow and transport processes, formation geometry, formation heterogeneity, and formation porosity. The space and time domains used to define capacity must be chosen with care to obtain meaningful results, especially when comparing different authors’ work. Physical factors that impact capacity include permeability anisotropy and relative permeability to CO2, brine/CO2 density and viscosity ratios, the shape of the trapping structure, formation porosity and the presence of low permeability layering.

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Citation

Doughty, C., Preuss, K., Benson, S. M., Hovorka, S. D., and Green, C. T., 2001, Capacity investigation of brine-bearing sands of the Frio Formation for geologic sequestration of CO2, in Proceedings, First National Conference on Carbon Sequestration, May 14–17, Washington, D.C., sponsored by National Energy Technology Laboratory, CD-ROM. GCCC Digital Publication Series #01-03