Dossier: CO2 Storage in the Struggle against Climate Change (Part 1)
Open Access
Oil Gas Sci. Technol. – Rev. IFP
Volume 65, Number 3, May-June 2010
Dossier: CO2 Storage in the Struggle against Climate Change (Part 1)
Page(s) 485 - 502
Published online 21 June 2010
  • André L., Audigane P., Azaroual M., Menjoz A. (2007) Numerical modelling of fluid-rock interactions at the supercritical CO2-liquid interface during carbon dioxide injection into a carbonate reservoir, the Dogger Aquifer (Paris basin, France), Energ Convers. Manage. 48, 1782-1797. [Google Scholar]
  • Azaroual M., Fouillac C., Matray J.M. (1997) Solubility of silica polymorphs in electrolyte solutions, II. Activity of aqueous silica and solid silica polymorphs in deep solutions from the sedimentary Paris Basin, Chem. Geol. 140, 167-179. [CrossRef] [Google Scholar]
  • Bemer E., Lombard J.M. (2010) From injectivity to integrity studies of CO2 geological storage: impact of low permeability levels on the experimental investigation of chemical alteration effects on rock petrophysical and geomechanical properties, Oil Gas Sci. Technol., this issue. [Google Scholar]
  • Berne Ph., Bachaud P., Fleury M. (2010) Diffusion properties of carbonated caprocks from the Paris Basin, Oil Gas Sci. Technol., this issue. [Google Scholar]
  • Bildstein O., Jullien M., Crédoz A., Garnier J. (2009) Integrated modeling and experimental approach for caprock integrity, risk analysis, and long term safety assessment, Proceedings of the GHGT-9 conference, Washington DC, Energy Procedia 1, 3237-3244. [CrossRef] [Google Scholar]
  • Carles P., Bachaud P., Lasseur E., Berne P., Bretonnier P. (2010) Confining properties of carbonaceous Dogger caprocks (Parisian Basin) for CO2 storage purposes, Oil Gas Sci. Technol., this issue. Chiquet P., Broseta D., Thibeau S. (2007) Wettability alteration of caprock minerals by carbon dioxide, Geofluids 7, 112-122. [Google Scholar]
  • Crédoz A., Bildstein O., Jullien M., Géniaut G., Lillo M., Pétronin J.C., Pozo C., Raynal J., Trotignon L., Pokrovsky O. (2009) Experimental and modeling study of geochemical reactivity between clay minerals and CO2 in geological conditions, proceedings of GHGT-9 conference, Washington DC., Energy Procedia 1, 3445-3452. [CrossRef] [Google Scholar]
  • Crédoz A., Bildstein O., Jullien M., Raynal J., Trotignon L., Pokrovsky O. (2010) Mixed-layer illite-smectite reactivity in CO2-bearing solution: implications for clayey caprock stability in CO2 geological storage, Appl. Clay Sci., submitted. [Google Scholar]
  • Duan Z., Sun R. (2003) An improved model calculating CO2 solubility in pure water and aqueous NaCl solutions from 273 to 533 K and from 0 to 2000 bar, Chem. Geol. 193, 257-271. [Google Scholar]
  • Fleury M., Berne P., Bachaud P. (2009) Diffusion of dissolved CO2 in caprock, Proceedings of the GHGT-9 conference, Washington DC, Energy Procedia 1, 2009. [Google Scholar]
  • Fleury M., Kervévan C., Bildstein O., Lagneau V., Pichery T., Fillacier S., Lescanne M. (2010) Géocarbone-Intégrité program, Oil Gas Sci. Technol., this issue. [Google Scholar]
  • Gauss I., Azaroual M., Czernichowski-Lauriol I. (2005) Reactive transport modelling of the impact of CO2 injection on the clayey cap rock at Sleipner (North Sea), Chem. Geol. 217, 319-337. [CrossRef] [Google Scholar]
  • Gauss I., Audigane P., André L., Lions J., Jacquemet N., Durst P., Czernichowski-Lauriol I., Azaroual M. (2008) Geochemical and solute transport modelling for CO2 storage, what to expect from it? Int. J. Greenhouse Gas Cont. 2, 605-625. [Google Scholar]
  • Gherardi F., Xu T., Pruess K. (2007) Numerical modeling of selflimiting and self-enhancing caprock alteration induced by CO2 storage in a depleted gas reservoir, Chem. Geol. 244, 103-129. [CrossRef] [Google Scholar]
  • Hildenbrand A., Kroos B.M. (2003) CO2 migration processes in argillaceous rocks: pressure-driven volume flow and diffusion, J. Geochem. Explor. 78-79, 169-172. [CrossRef] [Google Scholar]
  • Hubert G. (2009) Réactivité expérimentale au CO2 de roches d’une couverture argileuse et d’un réservoir carbonaté du bassin de Paris. Experimental reactivity with CO2 of clayey caprock and carbonate reservoir of the Paris basin, PhD Thesis, INPL, Nancy, France, 370 p. [Google Scholar]
  • IPCC (2005) IPCC Special Report on Carbon Dioxide Capture and Storage, Prepared by Working Group III of the Intergovernmental Panel on Climate Change, Metz B., Davidson O., de Coninck H.C., Loos M. and Meyer L.A. (eds), Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 442 pp. [Google Scholar]
  • IPCC (2007) Climate Change 2007: Synthesis Report. Contribution of Working Groups I, II and III to the Fourth Assessment. Report of the Intergovernmental Panel on Climate Change, Core Writing Team, Pachauri, R.K. and Reisinger A. (eds), IPCC, Geneva, Switzerland, 104 pp. [Google Scholar]
  • Johnson J.W., Nitao J.J., Knauss K.G. (2004) Reactive transport modeling of CO2 storage in saline aquifers to elucidate fundamental processes, trapping mechanisms, and sequestration partitioning, in Geologic Storage of Carbon Dioxide, Baines S.J., Worden R.H. (eds), Geol. Soc. London Spec. Pub. 233, 107-128. [Google Scholar]
  • Johnson J.W., Nitao J.J., Morris J.P. (2005) Reactive transport modeling of cap rock integrity during natural and engineered CO2 storage, Thomas D.C., Benson S.M. (eds), in Carbon Dioxide Capture for Storage in Deep Geologic Formations, Vol. 2, pp. 787-813. [Google Scholar]
  • Kohler E., Parra T. (2007) Clayey cap-rock behavior in H2O-CO2 media at low pressure and temperature conditions: an experimental approach, 44th Annual Meeting of the Clay Minerals Society, June 2-7, Santa Fe, USA. [Google Scholar]
  • Le Gallo Y., Trenty L., Lagneau V., Audigane P., Bildstein O., Mugler C., Mouche E. (2007) Recent development for long term modeling of CO2 storage, in First French-German Symposium on Geological Storage of CO2, Ed A. C. Geotechnologien, GfZ Potsdam. [Google Scholar]
  • Mathias S.A., Hardisty P.E., Trudell M.R., Zimmerman R.W. (2009) Screening and selection of sites for CO2 sequestration based on pressure buildup, Int. J. Greenhouse Gas Cont. 3, 5, 577-585. [Google Scholar]
  • Mavko G., Nur A. (1997) The effect of a percolation threshold in the Koseny-Carman relation, Geophysics 62, 5, 1480-1482. [CrossRef] [Google Scholar]
  • Palandri J., Kharaka Y.K. (2004) A compilation of rate parameters of water-mineral interaction kinetics for application to geochemical modeling, US Geological Survey Open File Report 2004-1068. [Google Scholar]
  • Parkhurst D.L., Appelo C.A.J. (1999) User’s guide to PHREEQC (Version 2) - A computer program for speciation, batch-reaction, one-dimensional transport, and inverse geochemical calculations: U.S. Geological Survey Water-Resources Investigations Report 99-4259, 312 p. [Google Scholar]
  • Parkhurst D.L., Kipp K.L., Engesgaard P., Charlton S.R. (2004) PHAST, a program for simulating ground-water flow, solute transport, and multicomponent geochemical reactions. U.S. Geological Survey Techniques and Methods 6-A8, 154 p. [Google Scholar]
  • Pruess K. (1991) TOUGH2 – a general-purpose numerical simulator for multiphase fluid and heat flow: Lawrence Berkeley Laboratory Report LBL-29400, Berkeley, California [Google Scholar]
  • Rohmer J., Seyedi D. (2010) Addressing caprock failure tendency in deep saline aquifers through large scale hydromechanical analysis: Application to the CO2 geological storage in the Paris basin case, Oil Gas Sci. Technol., this issue. [Google Scholar]
  • Saadatpoor E., Bryant S.L., Sepehrnoori K. (2009) Effect of capillary heterogeneity on buoyant plumes: A new local trapping mechanism, proceedings of GHGT-9 conference, Washington DC, Energy Procedia 1, 3299-3306. [CrossRef] [Google Scholar]
  • Shah V., Broseta D., Mouronval G. (2008) Capillary alteration of caprocks by acid gases, SPE 113353-PP, Improved Oil Recovery Symposium, Tulsa, OK, USA, 19-23 April 2008. [Google Scholar]
  • Steefel C.I. (2001) CRUNCH: Software for modeling multicomponent, multidimensional reactive transport, User’s Guide, UCRL-MA-143182, Livermore, California. [Google Scholar]
  • Talandier J., Mayer G., Croisé J. (2006) Simulations of the hydrogen migration out of Intermediate-level radioactive waste disposal drifts using tough2, Proceedings TOUGH Symposium, Lawrence Berkeley National Laboratory, Berkeley, California [Google Scholar]
  • van der Lee J., De Windt L., Lagneau V., Goblet P. (2003) Module-oriented modeling of reactive transport with HYTEC, Comput. Geosci. 29, 265-275. [CrossRef] [Google Scholar]
  • Wolery T.J. (1992) EQ3NR, a Computer Program for Geochemical Aqueous Speciation-Solubility Calculations: Theoretical Manual, Users Guide, and Related Documentation (Version 7.0), Lawrence Livermore National Lab. Report UCRL-MA-110662 PT IV. [Google Scholar]
  • Xu T., Pruess K. (2001) Modeling multiphase non-isothermal fluid flow and reactive geochemical transport in variably saturated fractured rocks: 1. Methodology, Am. J. Sci. 301, 16-33. [CrossRef] [Google Scholar]
  • Xu T., Apps J., Pruess K. (2005) Mineral sequestration of a sandstone-shale system, Chem. Geol. 217, 3-4, 295-318. [CrossRef] [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.