IFP Energies nouvelles International Conference: Deep Saline Aquifers for Geological Storage of CO2 and Energy
Open Access
Issue
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 66, Number 1, January-February 2011
IFP Energies nouvelles International Conference: Deep Saline Aquifers for Geological Storage of CO2 and Energy
Page(s) 47 - 65
DOI https://doi.org/10.2516/ogst/2010016
Published online 22 February 2011
  • Abbaszadeh M., Takahashi I., Suzuki K. (2004) Integrated Seismic-Guided Characterization of a Carbonate Reservoir in Abu Dahbi, U.A.E., SPE 90533 presented at the SPE Annual Technical Conference and Exhibition in Houston, TX, Sept. 26-29. [Google Scholar]
  • Alshuhail A., Lawton D., Isaac H. (2009) Acoustic Impedance Inversion of Vintage Seismic Data Over a Proposed CO2 Sequestration Site in the Lake Wabamun Area, Alberta, CREWES Research Report 20, 1-20. [Google Scholar]
  • Andrefouet S., Claereboudt M., Matsakis P., Pages J., Dufour P. (2001) Typology of Atoll Rims in Tuamotu Archipelago (French Polynesia) at Landscape Scale Using SPOT HRV Images, Int. J. Remote Sens. 22, 6, 987-1004. [CrossRef] [Google Scholar]
  • Andrefouet S., Kramer P., Torres-Pulliza D., Joyce K.E., Hochberg E.J., Garza-Perez R., Mumby P.J., Riegl B., Yamano H., White W.H., Zubia M., Brock J.C., Phinn S.R., Naseer A., Hatcher B.G., Muller-Karger F.E. (2003) Multi-site Evaluation of IKONOS Data for Classification of Tropical Coral Reef Environments, Remote Sens. Environ. 88, 1-2, 128-143. [CrossRef] [Google Scholar]
  • Archie G.E. (1942) The Electrical Resistivity Log as an Aid in Determining Some Reservoir Characteristics, Am. Inst. Min. Met. Eng. T. 146, 54-62. [Google Scholar]
  • Archie G.E. (1950) Introduction to Petrophysics of Reservoir Rocks, B. Am. Ass. Petrol. Geol. 34, 943-961. [Google Scholar]
  • Atchley S., McMurray M. (2002) Devonian (Frasnian) Leduc- and Nisku-equivalent Outcrops Near Canmore, Alberta: 1-D Outcrops as a Guide to Subsurface Stratal Architecture, Am. Ass. Petrol. Geol. Annual Conv., Houston, Texas. [Google Scholar]
  • Attia A.M., Fratta D., Bassiouni Z. (2008) Irreducible Water Saturation from Capillary Pressure and Electrical Resistivity Measurements, Oil Gas Sci. Technol. 63, 2, 203-217. [CrossRef] [EDP Sciences] [Google Scholar]
  • Bachtel S.L. (2005) Platform-scale Facies Distributions Using Landsat Data from Isolated Carbonate Platforms: Methods to Constrain Lateral Facies Continuity for Geologic Modeling, Am. Ass. Petrol. Geol. Annual Conv., Calgary, Alberta. [Google Scholar]
  • Bachu S., Bennion B. (2008) Effects of In-situ Conditions on Relative Permeability Characteristics of CO2-brine Systems, Environ. Geol. 54, 8, 1707-1722. [CrossRef] [Google Scholar]
  • Ball L.D., Corbett P.W.M., Jensen J.L., Lewis J.J.M. (1997) The Role of Geology in the Behavior and Choice of Permeability Predictors, SPE Formation Evaluation 12, 1, 32-39. [Google Scholar]
  • Caers J. (2005) Petroleum Geostatistics, Soc. for Petro. Eng., Richardson, Texas. [Google Scholar]
  • Cinar Y., Neal P.R., Allinson W.G., Sayers J. (2009) Geoengineering and Economic Assessment of a Potential Carbon Capture and Storage Site in Southeast Queensland, Australia, SPE Reserv. Eval. Eng. 12, 5, 660-670. [Google Scholar]
  • Croft M.G. (1971) A Method of Calculating Permeability from Electric Logs, U. S. Geol. Survey. Prof. Paper 750-B, 265-269. [Google Scholar]
  • Environment Canada (2009) National Inventory Report 1990-2007: Greenhouse Gas Sources and Sinks in Canada, Greenhouse Gas Division, Gatineau. http://www.ec.gc.ca/pdb/ghg/inventory_report/ 2007/som-sum_eng.pdf. [Google Scholar]
  • Ghaderi S.M., Keith D.W., Leonenko Y. (2009) Feasibility of Injecting Large Volumes of CO2 in Aquifers, 9th International Conference on Greenhouse Gas Control Technologies (GHGT-9), Washington DC, November 16-20. [Google Scholar]
  • Goodarzi S., Settari A., Keith D.W. (2010) Geomechanical Modeling for CO2 Storage in Wabamun Lake Area of Alberta, Canada, 10th International Conference on Greenhouse Gas Control Technologies (GHGT-10), Amsterdam, September 19-23. [Google Scholar]
  • Grant C.W., Goggin D.J., Harris P.M. (1994) Outcrop Analog for Cyclic-Shelf Reservoirs, San Andreas Formation of Permian Basin: Stratigraphic Framework, Permeability Distribution, Geostatistics, and Fluid-Flow Modeling, B. Am. Ass. Petrol. Geol. 78, 23-54. [Google Scholar]
  • Harris P.M., Kolwalik W.S. (1994) Satellite Images of Carbonate Depositional Settings: Examples of Reservoir- and Explorationscale Geologic Facies Variation, Am. Ass. Petrol. Geol., Methods in Exploration Series 11, 1-147. [Google Scholar]
  • Harris P.M., Vlaswinkel B. (2008) Modern Isolated Carbonate Platforms: Templates for Quantifying Facies Attributes of Hydrocarbon Reservoirs, Soc. Sed. Geol. Special Pub. 89, 323-341. [Google Scholar]
  • Hitchon B. (1996) Aquifer Disposal of Carbon Dioxide, Geoscience Publishing Ltd., Sherwood Park, Alberta. [Google Scholar]
  • Holden L., Hauge R., Skare O., Skorstad A. (1998) Modeling Fluid Reservoirs with Object Models, Math. Geol. 30, 5, 473-496. [CrossRef] [Google Scholar]
  • Hutcheon I. (1999) Controls on the Distribution of Non-Hydrocarbon Gases in the Alberta Basin, B. Can. Ass. Petrol. Geol. 47, 573-593. [Google Scholar]
  • Jackson P.D., Harvey P.K., Lovell M.A., Gunn D.A., Williams C.G., Flint R.C. (1998) Measurement Scale and Formation Heterogeneity: Effects on the Integration of Resistivity Data, Geol. Soc. Special Publication 136, 261-272. [CrossRef] [Google Scholar]
  • Jenkins C.C., Chiquito P.N., Mills A.A., McPherson J.G., Schapper M.C., Williams M.A. (2008) Reservoir Definition at the Jansz/Io Gas Field, NW Shelf, Australia: A Case Study of an Integrated Project From Exploration to Development, IPTC 12461 presented at the Int. Petroleum Tech. Conference, Kuala Lumpur, Malaysia, Dec. 3-5. [Google Scholar]
  • Kwader T. (1985) Estimating Aquifer Permeability from Formation Resistivity Factors, Ground Water 23, 6, 762-766. [CrossRef] [Google Scholar]
  • Lucia J.F. (2007) Carbonate Reservoir Characterization: An Integrated Approach, Springer, Berlin. [Google Scholar]
  • Machel H.G. (1985) Facies and Diagenesis of the Upper Devonian Nisku Formation in the Subsurface of Central Alberta, PhD Thesis, McGill University. [Google Scholar]
  • Michael K., Bachu S., Buschkuehle B.E., Haug K., Grobe M., Lytviak A.T. (2006) Comprehensive Characterization of a Potential Site for CO2 Geological Storage in Central Alberta, Canada, CO2SC Symposium, Berkeley, California. [Google Scholar]
  • Michael K., Bachu S., Buschkuehle B.E., Haug K., Talman S. (2009) Comprehensive Characterization of a Potential Site for CO2 Geological Storage in Central Alberta, Canada in Carbon Dioxide Sequestration in Geological Media – State of the Art, Grobe M., Pashin J., Dodge R. (eds), AAPG Studies in Geology 59, Tulsa, Oklahoma. [Google Scholar]
  • Mossop G.D., Shetsen I. (comps.) (1994) Geological Atlas of the Western Canada Sedimentary Basin, Canadian Society of Petroleum Geologists and Alberta Research Council, Special Report 4, Calgary, Alberta. [Google Scholar]
  • North C.P. (1996) The Prediction and Modeling of Subsurface Fluvial Stratigraphy in Advances in Fluvial Dynamics and Stratigraphy, Carling P.A., Dawson M.R. (eds), John Wiley and Sons, New York. [Google Scholar]
  • SCG Ltd., Stoakes Consulting Group (2009) Personal communication. [Google Scholar]
  • Seifert D., Jensen J.L. (2000) Object and Pixel-based Reservoir Modeling of a Braided Fluvial Reservoir, Math. Geol. 32, 5, 581-603. [CrossRef] [Google Scholar]
  • Simpson G.P. (1999) Sulfate Reduction and Fluid Chemistry of the Devonian Leduc and Nisku Formations in South-central Alberta, PhD Thesis, University of Calgary. [Google Scholar]
  • Srivastava R.M. (1994) An Overview of Stochastic Methods for Reservoir Characterization in AAPG Computer Applications in Geology No. 3, Stochastic Modeling and Geostatistics: Principles, Methods and Case Studies, Yarus J.M., Chambers R.L. (eds), American Association of Petroleum Geologists, Tulsa, Oklahoma. [Google Scholar]
  • Stoakes F.A. (1987) Evolution of the Upper Devonian of Western Canada in Principles and Concepts for Exploration and Exploitation of Reefs in the Western Canada Basin: Short Course Notes, Canadian Reef Inventory Project, Canadian Society of Petroleum Geologists, Calgary, Alberta. [Google Scholar]
  • Stoakes F.A. (1992) Winterburn Megasequence in Devonian - Early Mississippian Carbonates of the Western Canada Sedimentary Basin: A Sequence Stratigraphic Framework, Wendte J.C., Stoakes F.A., Campbell C.V. (eds), Society of Economic Paleontologists and Mineralogists Short Course No. 28, Calgary, Alberta. [Google Scholar]
  • Switzer S.B., Holland W.G., Christie D.S., Graf G.C., Hedinger A.S., McAuley R.J., Wierzbicki R.A., Packard J.J. (1994) Devonian Woodbend - Winterburn Strata of the Western Canada Sedimentary Basin in Geological Atlas of the Western Canada Sedimentary Basin, Mossop G.D., Shetsen I. (comps.), Canadian Society of Petroleum Geologists and Alberta Research Council, Special Report 4, Calgary, Alberta. [Google Scholar]
  • Watts N.R. (1987) Carbonate Sedimentology and Depositional History of the Nisku Formation in South-central Alberta in Devonian Lithofacies and Reservoir Styles in Alberta, Krause F.F., Burrows O.G. (eds), 2nd International Symposium of the Devonian System, 13th CSPG Core Conference, Calgary, Alberta. [Google Scholar]
  • Wylie M.R., Gregory A.R., Gardner L.W. (1956) Elastic Wave Velocities in Heterogeneous and Porous Media, Geophysics 21, 41-70. [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.