Dossier: IFP International Workshop "Gas-Water-Rock Interactions Induced by Reservoir Exploitation, CO2 Sequestration, and other Geological Storage"
Open Access
Oil & Gas Science and Technology - Rev. IFP
Volume 60, Numéro 1, January-February 2005
Dossier: IFP International Workshop "Gas-Water-Rock Interactions Induced by Reservoir Exploitation, CO2 Sequestration, and other Geological Storage"
Page(s) 33 - 49
Publié en ligne 1 décembre 2006
  • Allis, R.G., Chidsey, T., Gwynn, W., Morgan, C., White, C., Adams, M., and Moore, J. (2001) Natural CO2 reservoirs on the Colorado Plateau and Southern Rocky Mountains: candidates for CO2 sequestration. In: Proc. of 1st National Conference on CO2 Sequestration, DOE NETL, Washington, DC. [Google Scholar]
  • Anbeek, C. (1992) Surface roughness of minerals and implications for dissolution studies. Geochim. Cosmochim. Acta, 56, 1461-1469. [CrossRef] [Google Scholar]
  • Ash, E., Archer, M., Barker, T., Boulton, G., Budd, A., Ewins, P., Fells, I., Hasard, J., Hewett, G., Harlock, J., Laughton, M. and Pearce, D. (2002) Economic instruments for the reduction of carbon dioxide emissions. Policy Document 26/02, Royal Society, London. [Google Scholar]
  • Baer, J.L. and Rigby, J.K. (1978) Geology of the Crystal Geyser and environmental implications of its effluent. Utah Geology, 2, 125-130, Utah Geological and Mineral Survey. [Google Scholar]
  • Baines, S.J. and Worden, R.H. (2004) The long term fate of CO2 in the subsurface: natural analogues for CO2 storage. In: Geological Storage of Carbon Dioxide for Emissions Reduction, Special Publication, Baines S.J. and Worden R.H. (eds.), Geological Society, London, in press. [Google Scholar]
  • Ballentine, C.J.,Schoell, M.,Coleman, D. and Cain, B.A. (2001) 300-Myr-old magmatic CO2 in natural gas reservoirs of the west Texas Permian basin. Nature, 409, 327-331. [CrossRef] [PubMed] [Google Scholar]
  • Beitler, B.,Chan, M.A. and Parry, W.T. (2003) Bleaching of Jurassic Navajo Sandstone on Colorado Plateau Laramide highs: evidence of exhumed hydrocarbon supergiants? Geology, 31, 1041-1044. [CrossRef] [Google Scholar]
  • Biek, R.F., Willis, G.C., Hylland, M.D. and Doelling, H.H. (2000) Geology of Zion national park, Utah. In: Geology of Utah's National Parks and Monuments, Utah Geological Association Publication, 28, 107-138, PO Box 520100 Salt Lake City, Utah. [Google Scholar]
  • Casey, T.A.L. (1983) Helium potential of the Four Corners area. In: Oil and Gas Fields of the Four Corners Area, Fassett J.E. (ed.), 3, Four Corners Geological Society. [Google Scholar]
  • Chadwick, R.A., Zweigel, P., Gregersen, U., Kirby, G.A., Holloway, S. and Johannessen, P.N. (2003) Geological characterisation of CO2 storage sites: lessons from Sleipner, northern North Sea. In: Greenhouse Gas Control Technologies, J. Gale and Y. Kaya (eds.), Elsevier, 321-326. [Google Scholar]
  • Chan, M.A.,Parry, W.T. and Bowman, J.R. (2000) Diagenetic hematite and manganese oxides and fault-related fluid flow. AAPG Bulletin, 84, 1281-1310. [Google Scholar]
  • Crossey, L. (2002) Active springs and Quaternary travertines in Grand Canyon. Geol. Soc. America Ann. Mtg. Abs., 175-176. [Google Scholar]
  • Darby, D.,Haszeldine, R.S., and Couples, G. (1996) Pressure cells and pressure seals in the Central North Sea. Marine and Petroleum Geology, 13, 865-878. [CrossRef] [Google Scholar]
  • DTI (2003) Our Energy Future. White Paper CM5761, The Stationery Office, London. [Google Scholar]
  • Ennis-King, J. and Paterson, L. (2003) Rate of dissolution due to convective mixing in the underground storage of CO2. In: Greenhouse Gas Control Technologies, J. Gale and Y. Kaya (eds.), Elsevier, 1653-1656. [Google Scholar]
  • Fletcher, K.J. (2003a) The Central Brae field, Blocks 16/07a, 16/07b, UK North Sea. In: United Kingdom Oil and Gas fields, Commemorative Millenium Volume, Gluyas J.G. and Hichens H.M. (eds.), 183-190, Geological Society, London. [Google Scholar]
  • Fletcher, K.J. (2003b) The South Brae field, Blocks 16/07a, 16/07b, UK North Sea. In: United Kingdom Oil and Gas fields, Commemorative Millenium Volume. Gluyas J.G. and Hichens H.M. (eds.), 211-221, Geological Society, London. [Google Scholar]
  • Foresight (2002) Power Without Pollution: Zero Emission Power Generation, The Stationery Office, London. [Google Scholar]
  • Fuex, A.N. and Baker, D.R. (1973) Stable carbon isotopes in selected granitic mafic and ultramafic rocks. Geochim. Cosmochim. Acta, 37, 2509-2521. [CrossRef] [Google Scholar]
  • Galimov, E.M. (1968) Isotopic composition of carbon in gases of the crust. International Geology Review, 11, 1092-1104. [CrossRef] [Google Scholar]
  • Gambardo, M. and Donagemma, V. (2003) The T-Block fields, Block 16/17, UK North Sea. In: United Kingdom Oil and Gas fields, Commemorative Millenium Volume, Gluyas J.G. and Hichens H.M. (eds.), 369-382, Geological Society, London. [Google Scholar]
  • Garden, I.R.,Guscott, S.C.,Burley, S.D.,Foxford, K.A.,Walsh, J.J. and Marshall, J. (2001) An exhumed palaeo-hydrocarbon migration fairway. Geofluids, 1, 195-213. [CrossRef] [Google Scholar]
  • Glennie, K.W. (1998) Petroleum Geology of the North Sea, 4th ed., Blackwell, Oxford. [Google Scholar]
  • Gunter, W.D. (1996) Autoclave experiments and geochemical modelling. In: Aquifer Disposal of Carbon Dioxide, B. Hitchon (ed.), Geoscience Publishing, Alberta. [Google Scholar]
  • Hamblin, W.K. (1994) Late Cenozoic lava dams. Memoir 183, Geological Society America, Boulder. [Google Scholar]
  • Heath, J.E., Lachmar, T.E., Kolesar, P.T. and Evans, J.P. (2003) Hydrogeochemical characterisation of leaking CO2 charged fault zones in east-central Utah. In: Gas-Water-Rock Interactions, Abstract, 44, Institut francais du p賲ole, Nov. 2003, Paris. [Google Scholar]
  • Hepple, R.P. and Benson, S.M. (2003) Implications of surface seepage on the effectiveness of geological storage of carbon dioxide as a climate change mitigation strategy. In: Greenhouse Gas Technologies, 1, J. Gale and Y. Kaya (eds.), Elsevier, 261-266. [Google Scholar]
  • Hintze, L.F. (1988) Geologic history of Utah. Geology Studies Spec. Publ. 7, Brigham Young Univ., Utah. [Google Scholar]
  • Huntoon, J.E.,Hansley, P.L.,Naeser, N.D. (1999) The search for a source rock for the giant Tar Sand triangle accumulation, southeastern Utah. American Association of Petroleum Geologists Bulletin, 83, 67-495. [Google Scholar]
  • Holloway, S., Heederik, J.P., van der Meer, L.G.H., Czernichowski-Lauriol, I., Harrison, R., Lindeberg, E., Summerfield, I.R., Rochelle, C., Schwarzkopf, T., Kaarstad, O., Berger, B. (1996) The underground disposal of carbon dioxide. Summary Report. Joule II CT92-0031, BGS Keyworth, ISBN 0852722796. [Google Scholar]
  • IEA (2004) International Energy Annual, Energy Information Administration, Washington, USA. [Google Scholar]
  • IPCC (2001) Climate Change 2001: Synthesis Report, Contribution of Working Groups I, II and III to the Third Assessment Panel of the Intergovernmental Panel on Climate Change, R.T. Watson (ed.), Cambridge University Press. [Google Scholar]
  • Johnson, J.W. (2003) CO2 Reservoirs: are they natural analogs to engineered geologic storage sites? Ann. Mtg., Abs., American Association of Petroleum Geologists, Tulsa, OK. [Google Scholar]
  • Johnson, J.W. and Nitao, J.J. (2003) Reactive transport modelling of geologic CO2 sequestration at Sleipner. In: Greenhouse Gas Control Technologies, J. Gale and Y. Kaya (eds.), Elsevier, 327-332. [Google Scholar]
  • Kheshgi, H.S.,Jain, A.K.,Wuebbles, D.J. (1966) Accounting for the missing carbon-sink with the CO2-fertilization effect. Climatic Change, 33, 1, 31-62. [CrossRef] [Google Scholar]
  • Knauss, K.G.,Johnson, J.W.,Steefel, C.I., and Nitao, J.J. (2001) Evaluation of the impact of CO2, aqueous fluid, and reservoir rock interactions on the geologic sequestration of CO2, with special emphasis on economic implications. In: Proc. of 1st National Conference on CO2 Sequestration, DOE National Energy Technology Laboratory USA, Washington, DC, 26-37. [Google Scholar]
  • Koeberl, C.,Plescia, J.B.,Hayward, C.L.,Reimold, W.U. (1999) A petrographic study of quartzose rocks from Upheaval Dome. Meteoritics and Planet Science, 34, 861-868. [CrossRef] [Google Scholar]
  • Korbol, R.,Kaddour, A. (1995) Sleipner-Vest CO2 disposalinjection of removed CO2 into the Utsira Formation. Energy Conversion and Management, 36, 509-512, Jun-Sep 6-9. [CrossRef] [Google Scholar]
  • Lee, M.R.,Hodson, M.E.,Parsons, I. (1998) The role of intragranular microtextures and microstructures in chemical and mechanical weathering: direct comparisons of experimentally and naturally weathered alkali feldspars. Geochim. Cosmochim. Acta, 62, 2771-2788. [CrossRef] [Google Scholar]
  • Lindeberg, E. (2003) The quality of a CO2 repository: what is the sufficient retention time of CO2 storged underground. In: Greenhouse Gas Technologies, 1, J. Gale and Y. Kaya (eds.), Elsevier, 255-260. [Google Scholar]
  • Macaulay, C.I.,Haszeldine, R.S. and Fallick, A.E. (1992) Diagenetic pore waters stratified for at least 35 million years: Magnus oil field, North Sea. Bulletin American Association Petroleum Geologists, 76, 1625-1634. [Google Scholar]
  • Macaulay, C.I.,Haszeldine, R.S. and Fallick, A.E. (1993) Distribution, chemistry, isotopic composition and origin of diagenetic carbonates: Magnus sandstone, North Sea. J. Sedimentary Petrology, 63, 33-43. [Google Scholar]
  • Macaulay, C.I.,Fallick, A.E.,McAulay, G.E.,Watson, R.S.,Stewart, R.N.T. and Haszeldine, R.S. (2000) Oil migration makes the difference: regional distribution of carbonate cement δ13C in northern North Sea Tertiary sandstones. Clay Minerals, 35, 73-80. [Google Scholar]
  • McLaughlin, O.M., Haszeldine, R.S. and Fallick, A.E. (1996) Quartz diagenesis in layered fluids in the South Brae Oilfield, North Sea. In: Siliclastic Diagenesis Fluid Flow: Concepts and Applications, L. Crossey, Loucks and Totten (eds.), Society of Economic Paleontologists and Mineralogists Special Publication 55, 103-113. [Google Scholar]
  • Mackenzie, F.T. Lerman, A., and Ver, L.M.B. (2001) Recent past and future of the global carbon cycle. In: Studies in Geology, Gerhard L.C., Harrison W.E. and Hanson B.M. (eds.), 47, 51-82, American Association of Petroleum Geologists, Tulsa, OK. [Google Scholar]
  • Magoon, L.B. and Valin, Z.C. (1994) Overview of petroleum system case studies. In: The Petroleum System - from Source to Trap, Magoon L.B. and Dow W.G. (eds.), 329-339, Memoir 60, American Association of Petroleum Geologists, Tulsa, OK. [Google Scholar]
  • Marchand, A.M.E.,Haszeldine, R.S.,Smalley, P.C.,Macaulay, C.I. and Fallick, A.E. (2001) Evidence for reduced quartz cementation rates in oil-filled sandstones. Geology, 29, 915-918. [CrossRef] [Google Scholar]
  • Moore, J, Allis, R., Lutz, S., and Adams, M. (2003) Investigations of CO2 mobility in natural reservoirs beneath the Colorado Plateau and Southern Rocky Mountains. Second Annual Conference on Carbon Sequestration, NETL Proceedings, May 5-8, Alexandria, Virginia, 22, [Google Scholar]
  • Morse, J.W. and Mackenzie, F.T. (1990) Geochemistry of sedimentary carbonates. Developments in Sedimentology, 48, Elsevier. [Google Scholar]
  • Parmesan, C. (2001) Global Warming: Impacts on Wildlife and Society, Outreach lecture, University of Austin, Texas. [Google Scholar]
  • Pederson, J.,Karlstrom, K.,Sharp, W. and McIntosh, W. (2002) Differential incision of the Grand Canyon related to Quaternary faulting-Constraints from U-series and Ar/Ar dating. Geology, 30, 739-742. [CrossRef] [Google Scholar]
  • Phinney, D.,Tennyson, J. and Frick, V. (1978) Xenon in CO2 well gas revisited. Journal of Geophysical Research, 83, 2313-2319. [CrossRef] [Google Scholar]
  • Ranaweera, H.K.A. (1987) Sleipner Vest. In: Geology of the Norwegian Oil and Gas Fields, 253-264, A.M. Spencer (ed.), Graham and Trotman, [Google Scholar]
  • Roberts, L.W. and Godfrey, J.A. (1994) History of Bravo Dome CO2-discovery and early development. New Mexico Bureau of Mines and Mineral Resources Bulletin, 150, 9-12. [Google Scholar]
  • Shipton, Z.K., Evans, J.P., Dockrill, B., Heath, J., Williams, A., Kirchner, D. and Kolesar, P.T. (2005) Natural leaking CO2- charged systems as analogs for failed geologic storage reservoirs. In: The CO2 Capture and Storage Project (CCP), ll, D.C. Thomas and S.M. Benson (eds.), Elsevier, in press. [Google Scholar]
  • Shmulovich, K.I., Tkachenko, S.I., Plyasunova. N.V. (1995) Phase equilibria in fluid systems at high pressures and temperatures. In: Fluids in the Crust, Shmulovich K.I., Yardley B.W.D., Gonchar G. (eds) 193-214, Chapman and Hall, London. [Google Scholar]
  • Simmons, S.F., Browne, P.R.L. (2001) Hydrothermal minerals and precious metals in the Broadlands-Ohaaki geothermal system; implications for understanding low-sulfidation epithermal environments. Economic Geology, 95, 971-999. [Google Scholar]
  • Spence, S. and Kreutz, H. (2003) The Kingfisher field, Block 16/8a, UK North Sea. In: United Kingdom Oil and Gas fields, Commemorative Millenium Volume, Gluyas J.G. and Hichens H.M. (eds.), 305-314, Geological Society, London. [Google Scholar]
  • Stokes, W.L. (1988) Geology of Utah, 2nd ed., Utah Geological and Mineral Survey. [Google Scholar]
  • USGS (2003) Petroleum systems and geologic assessment of oil and gas in the Uinta-Piceance Province, Utah and Colorado. Digital Data Series DDS-69-B Version 1.0, US Geological Survey, Denver. [Google Scholar]
  • Velbel, M.A. (1993) Constancy of silicate mineral weathering ratios between natural and experimental weathering: implications for hydrologic control of differences in absolute rate. Chemical Geology, 105, 89-99. [CrossRef] [Google Scholar]
  • Watson, M.N., Zwingmann, N. and Lemon, N.M. (2003) The Ladbroke Grove-Katnook carbon dioxide natural laboratory: a recent CO2 accumulation in a lithic sandstone reservoir. In: Greenhouse Gas Technologies, 1, J. Gale and Y. Kaya (eds.), Elsevier, 435-440. [Google Scholar]
  • White, A.F. and Brantley, S.L. (2003) The effect of time on the weathering of silicate minerals: why do weathering rates differ in the laboratory and field? Chemical Geology 202, 479-506. [Google Scholar]
  • Wigley, T.M.L. (1998) The Kyoto protocol: CO2, CH4 and climate implications. Geophysical Research Letters, 25, 13, 2285-2288. [CrossRef] [Google Scholar]
  • Yohe, G.,Andronova, N., and Schlesinger, M. (2004) To hedge or not against an uncertain climate future? Science, 306, 416-417. [CrossRef] [PubMed] [Google Scholar]
  • Zweigel, P, Arts, R., Bidstrup, T., Chadwick, A., Eiken, O., Gregersen, U., Hamborg, M., Johanessen, P., Kirby, G., Kristensen, L. and Lindeberg, E. (2001) Results and experiences from the first industrial-scale underground CO2 sequestration case, Sleipner. AAPG Ann. Mtg., Extended Abs., Denver. [Google Scholar]

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