Open Access
Oil & Gas Science and Technology - Rev. IFP
Volume 57, Number 4, July-August 2002
Page(s) 355 - 367
Published online 01 December 2006
  • Bévillon, D. (2000) Couplage d'un modèle de gisement et d'un modèle mécanique : application à l’étude de la compaction des réservoirs pétroliers et de la subsidence associée. Thèse de doctorat, université des sciences et technologies de Lille. [Google Scholar]
  • Bévillon, D. and Masson, R. (2000) Stability and Convergence Analysis of Partially Coupled Schemes for Geomechanical- Reservoir Simulations. 7th European Conference on the Mathematics of Oil Recovery, 5-8 Sep., ECMOR, Baveno. [Google Scholar]
  • Biot, M.A. (1941) General Theory of Three-Dimensional Consolidation. Journal of Applied Physics, 12, 155-164. [Google Scholar]
  • Boutéca, M. (1992) Elements of Poro-Elasticity for Reservoir Engineering. Revue de l’Institut français du pétrole, 47, 4, 479-490. [Google Scholar]
  • Chin, L.Y., Raghavan, R. and Thomas, L.K. (1998) Fully- Coupled Geomechanics and Fluid-Flow Analysis of Wells with Stress-Dependent Permeability. SPE International Conference and Exhibition, 2-6 Nov., Beijing, China, 269-284. [Google Scholar]
  • Chin, L.Y. and Thomas, L.K. (1999) Fully Coupled Analysis of Improved Oil Recovery by Reservoir Compaction. SPE Annual Technical Conference and Exhibition, 3-6 Oct., Houston, Texas, 393-401. [Google Scholar]
  • Cossé, R. (1993) Basic of Reservoir Engineering, Éditions Technip, Paris. [Google Scholar]
  • Coussy, O. (1995) Mechanics of Porous Continua, Wiley, New York. [Google Scholar]
  • Dangla, P. (1999) Introduction à la mécanique des milieux poreux, cours de DEA Solide structure et systèmes mécaniques. [Google Scholar]
  • Eymard, R., Gallouët, T. and Herbin, R. (2000) The Finite Volume Method, Handbook of Numerical Analysis. Ph. Ciarlet and J.L. Lions Eds., Elsevier, 715-1022. [Google Scholar]
  • Gutierrez, M. and Lewis, M. (1998) The Role of Geomechanics in Reservoir Simulation. SPE/ISRM Eurock'98, Trondheim, Norway, 8-10 July, 439-448. [Google Scholar]
  • Gutierrez, M. and Makurat, A. (1997) Coupled HTM Modelling of Cold Water Injection in Fractured Hydrocarbon reservoirs, Paper no. 113, Int. J. Rock Mech. & Min. Sci., 34, 3-4. [CrossRef] [Google Scholar]
  • Heffer, K.J.,Last, N.C.,Koutsabeloulis, N.C.,Chan, H.C.M.,Gutierrez, M. and Makurat, A. (1994) The Influence of Natural Fractures, Faults and Earth Stresses on Reservoir Performance. Geomechanical Analysis by Numerical Modelling. North Sea Oil and Gas Reservoirs, III, 201-211, Kluwer Academic Publishers. [Google Scholar]
  • Hermansen, H.,Landa, G.H. and Thomas, L.K. (2000) Experiences after 10 Years of Waterflooding the Ekofisk Field, Norway. Journal of Petroleum Science and Engineering, 26, 11-18. [CrossRef] [Google Scholar]
  • Koutsabeloulis, N.C., Heffer, K.J., and Wong, S. (1994) Numerical Geomechanics in Reservoir Engineering. Computer Methods and Advances in Geomechanics, Siriwardane and Zaman Eds., Balkema, Rotterdam. [Google Scholar]
  • Lewis, R.W. and Schrefler, B.A. (1998) The Finite Element Method in the Static and Dynamic Deformation and Consolidation of Porous Media, Second edition, Wiley, New York. [Google Scholar]
  • Osorio, J.G., Chen, H.Y., Teufel, L. and Schaffer, S. (1998) A Two-Domain, Fully Coupled Fluid-Flow/Geomechanical Simulation Model for Reservoirs with Stress-Sensitive Mechanical and Fluid-Flow Properties. SPE/ISRM Eurock’98, Trondheim, Norway, 8-10 July, 455-464. [Google Scholar]
  • Osorio, J.G., Chen, H.Y., and Teufel, L. (1999) Numerical Simulation of the Impact of Flow-Induced Geomechanical Response on the Productivity of Stress-Sensitive Reservoirs. SPE Reservoir Simulation Symposium, 14-17 Feb., Houston, Texas, 373-387. [Google Scholar]
  • Rhett, D.W. and Teufel, L.W. (1992) Effect of Reservoir Stress Path on Compressibility and Permeability of Sandstones. SPE Annual Technical Conference, 4-7 Oct., Washington, DC, USA. [Google Scholar]
  • Ruisten, H., Teufel, L.W. and Rhett, D.W. (1996) Influence of Reservoir Stress Path on Deformation and Permeability of Weakly Cemented Sandstone Reservoirs. SPE Annual Technical Conference, 6-9 Oct., Denver, USA. [Google Scholar]
  • Settari, A. and Mourits, F.M. (1994) Coupling of Geomechanics and Reservoir Simulation Models. Computer Methods and Advances in Geomechanics, 2151-2158. [Google Scholar]
  • Settari, A. and Mourits, F.M. (1998) A Coupled Reservoir and Geomechanical Simulation System. SPE Journal, 219-226. [Google Scholar]
  • Settari, A. and Walters, D.A. (1999) Advances in Coupled Geomechanical and Reservoir Modeling with Applications to Reservoir Compaction. SPE Reservoir Simulation Symposium, 14-17 Feb., Houston, Texas. [Google Scholar]
  • Sylte, J.E., Thomas, L.K., Rhett, D.W., Bruning, D.D. and Nagel N.B. (1999) Water Induced Compaction in the Ekofisk Field. SPE Annual Technical Conference and Exhibition, 3-6 Oct., Houston, Texas. [Google Scholar]
  • Tortike, W.S. and Farouq, A. (1993) Reservoir Simulation Integrated with Geomechanics. The Journal of Canadian Petroleum Technology, 32, 5, 28-37. [Google Scholar]
  • VIPS Limited (2001) VISAGE User’s Guide, Version 7.6. VIPS (Vector International Processing Systems) Limited, Elm Lodge, North Street, Winkfield, Windsor, Berkshire SL4 4TE, UK, ( [Google Scholar]

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