Open Access

This article has an erratum: [erratum]

Issue
Oil & Gas Science and Technology - Rev. IFP
Volume 59, Number 4, July-August 2004
Dossier: Interactive Drilling
Page(s) 405 - 426
Section Dossier: Interactive Drilling
DOI http://dx.doi.org/10.2516/ogst:2004028
Published online 01 December 2006
Oil & Gas Science and Technology - Rev. IFP, Vol. 59 (2004), No. 4, pp. 405-426
  1. Bemer, E., Boutéca, M., Vincké, O., Hoteit, N. and Ozanam, O. (2001) Poromechanics: From Linear to Nonlinear Poroelasticity and Poroviscoelasticity. Oil & Gas Science and Technology - Revue de l'IFP, 56, 6, 531-544 [OGST].
  2. Biot, M.A. (1973) Nonlinear and Semilinear Rheology of Porous Solids. J. Geoph. Res., 78, 23, 4924-4937.
  3. Boutéca, M., Sarda, J.P. and Laurent, J. (1991) Rock Mechanics Contribution to the Determination of Fluid Flow Properties. SCA - Advances in Core Evaluation II - Reservoir appraisal. 2nd European Symposium of the Society of Core Analysts, May 20-22 1991, London. Gordon and Breach Science Publishers, Philadelphia.
  4. Boutéca, M. and Guéguen, Y. (1999) Mechanical Properties of Rocks: Pore Pressure and Scale Effects. Oil & Gas Science and Technology - Revue de l'IFP, 54, 6, 703-714 [OGST].
  5. Boutéca, M.J., Sarda, J.P. and Vincké, O. (2000) Constitutive Law for Permeability Evolution of Sandstones During Depletion. Paper SPE 58717.
  6. Brawn, R. and Jahns, E. (1998) Cracking and Compaction Behavior of Sandstone. Paper SPE/ISRM 47377.
  7. Caruso, L., Simmons, G. and Wilkens, R. (1985) The Physical Properties of a Set of Sandstones - Part I. The Samples. Int. J. Rock. Mech. Min. Sci. & Geomech. Abstr., 22, 6, 381-392 [CrossRef].
  8. Oil & Gas Science and Technology - Rev. IFP, Vol. 59 (2004), No. 4 Charlez, Ph.A. (1991) Rock Mechanics. Volume 1: Theoretical Fundamentals, Technip, Paris.
  9. Charlez, Ph.A. and Heugas, O. (1992) Measurement of Thermoporoelastic Properties of Rocks: Theory and Applications. Rock Characterization. ISRM Symposium: Eurock'92, 14-17 September 1992, Chester, UK, edited by J.A. Hudson, London.
  10. Coussy, O. (1994) Mechanics of Porous Continua. John Wiley and Sons Ltd., Chichester.
  11. Coussy, O. (2004) Poromechanics, John Wiley and Sons Ltd., Chichester.
  12. Couvreur, J.F., Thimus, J.F. and Lousberg, E. (1998) A Conceptual Model for Correlating Ultrasonic Attenuation to Deformational Behavior. Paper SPE/ISRM 47347.
  13. Engstrøm, F. (1992) Rock Mechanical Properties of Danish North Sea Chalk. Fourth North Sea Chalk Symposium, Deauville, France, 21-23 September 1992.
  14. Fjær, E., Holt, R.M., Horsrud, P., Raaen, A.M. and Risnes, R. (1992) Petroleum Related Rock Mechanics. Elsevier, Amsterdam.
  15. Gaviglio, P. and Carrio, E. (1993) Contexte géologique et variations des propriétés physiques d'un calcaire tendre. Geotechnical Engineering of Hard Soils - Soft Rocks, Anagnostopoulos et al. (eds), Balkema, Rotterdam.
  16. Gourri, A. (1991) Contribution à l'étude de l'influence des conditions de drainage sur les propriétés poroélastiques des roches carbonatées. PhD Thesis, Université Joseph Fourier de Grenoble (in french).
  17. Homand, S. and Shao, J.F. (2000a) Mechanical Behaviour of a Porous Chalk and Water/Chalk Interaction. Part I: Experimental Study. Oil & Gas Science and Technology - Revue de l'IFP, 55, 6, 591-598 [OGST].
  18. Homand, S. and Shao, J.F. (2000b) Mechanical Behaviour of a Porous Chalk and Water/Chalk Interaction. Part II: Numerical Modelling. Oil & Gas Science and Technology - Revue de l'IFP, 55, 6, 2000, 599-609.
  19. Keaney, G.M.J., Meredith, P.G. and Murell, S.A.F. (1998) Laboratory Study of Permeability Evolution in a "Tight" Sandstone under Non-Hydrostatic Stress Conditions. Paper SPE/ISRM 47265.
  20. Larsen, I., Fjær, E., Renlie, L. and Zheng, Z. (1998) The Effects of Porosity and Stress on Dilatancy in Sandstone. Paper SPE/ISRM 47199.
  21. Lin, W. (1981) Mechanical Behavior of Mesaverde Shale and Sandstone at High Pressure. Paper SPE/DOE 9835.
  22. Longuemare, P., Schneider, F. and Onaisi, A. (1996) Study of the Behaviour of a Petroleum Reservoir During Depletion Using an Elasto-Plastic Constitutive Model. Eurock'96, Barla Ed., Balkema, 875-881.
  23. Matà, C (2001) Etude expérimentale et modélisation mécanique des effets du balayage à l'eau dans une craie saturée d'huile - Application à l'industrie pétrolière. PhD Thesis, École Nationale des Ponts et Chaussées (in french).
  24. Nicholson, E.D., Goldsmith, G. and Cook, J.M. (1998) Direct Observation and Modeling of Sand Production Processes in Weak Sandstone. Paper SPE/ISRM 47328.
  25. Poutet, J., Manzoni, D., Hage-Chehade, F., Jacquin, C., Boutéca M., Thovert, J.F. and Adler, P.M. (1996) The Effective Mechanical Properties of Random Porous Media. J. Mech. Phys. Solids, 44, 10, 1587-1620.
  26. Rhett, D.W. and Teufel, L.W. (1992) Failure Criteria for High Porosity North Sea Chalk. Fourth North Sea Chalk Symposium, Deauville, France, 21-23 September 1992.
  27. Sanchez-Palencia, E. (1980) Non Homogeneous Media and Vibration Theory. Springer, Berlin.
  28. Schutjens, P.M.T.M. and de Ruig, H. (1996) The Influence of Stress Path and Permeability of an Overpressurised Reservoir Sandstone: Some Experimental Data. Phys. Chem. Earth, 22, 1-2, 97-103.
  29. Schutjens, P.M.T.M., Blanton, T.L., Martin, J.W., Lehr, B.C. and Baaijens, M.N. (1998) Depletion-Induced Compaction of an Overpressurised Reservoir Sandstone: an Experimental Approach. Paper SPE 47277.
  30. Vincké, O. and Boutéca, M. (1992) An Estimation of Terminal Bulk Moduli of Sandstones Using their Petrographic and Petrophysic Description. Structure et comportement mécanique des géomatériaux, colloque René Houpert. Nancy, France, 10-11 Septembre 1992, Comptes rendus, F. Homand et al. eds., 27-36.
  31. Vincké, O. (1994) An Estimation of Bulk Moduli of Sandstones as a Function of Confining Pressure Using their Petrographic and Petrophysic description. Paper SPE/ISRM 28038.
  32. Vincké, O., Boutéca, M.J., Piau, J.M. and Fourmaintraux, D. (1998) Study of the Effective Stress at Failure. Biot Conference on Poromechanics, Louvain-La-Neuve, Belgique, 14-16 September 1998. A. A. Balkema, Rotterdam, 635-639.
  33. Walsh, J.B. and Grosenbaugh, M.A. (1979) A New Model for Analyzing the Effect of Fractures on Compressibility. Journal of Geophysical Research, 84, B7, 3532-3536.
  34. Watt, P., Davies, G.F. and O' Connel, R. (1976) The Elastic Properties of Composites Material. Review of Geophysics and Space Physics, 14, 4, 541-563.
  35. Wissler, T.M. and Simmons, G. (1985) The Physical Properties of a Set of Sandstones - Part II: Permanent and Elastic Strains During Hydrostatic Compression to 200 MPa. Int. J. Rock. Mech. Min. Sci. & Geomech. Abstr., 22, 6, 393-406 [CrossRef].
  36. Wilkens, R., Simmons, G., Wissler, T.M. and Caruso, L. (1986) The Physical Properties of a Set of Sandstones - Part III: The Effects of Fined-grained Pore-filling Material on Compressional Wave Velocity. Int. J. Rock. Mech. Min. Sci. & Geomech. Abstr., 23, 4, 313-325.
  37. Wong, T.F., David, C. and Zhu, W. (1997) The Transition from Brittle to Cataclastic Flow: Mechanical Deformation. Journal of Geophysical Research, 102, B2, Feb. 10, 3009-3025.
  38. Yale, D.P. and Crawford, B. (1998) Plasticity and Permeability in Carbonates: Dependance on Stress Path and Porosity. Paper SPE/ISRM 47582.
  39. Zhang, J., Rai, C.S. and Sondergeld, C. (1998) Mechanical Strength of Reservoir Material: Key Information for Sand Prediction. Paper SPE/ISRM 47365.
  40. Zhu, W. and Wong, T.F. (1997) The Transition from Brittle to Cataclastic Flow: Permeability Evolution. Journal of Geophysical Research, 102, B2, Feb. 10, 3027-3041.