1887
Volume 35, Issue 2
  • ISSN: 0812-3985
  • E-ISSN: 1834-7533

Abstract

Porous reservoirs with aligned fractures exhibit frequency-dependent seismic anisotropy because of wave-induced fluid flow between pores and fractures. To relate the elastic properties of porous rocks with aligned fractures at low frequency, we use the linear slip model of fractures and anisotropic Gassmann fluid substitution. We combine this low-frequency anisotropic Gassmann model with a dispersion relationship, based on a penny-shaped crack model of fractures, to account for frequency-dependent anisotropy.

The combined model is validated using experimental measurements of angle-dependent wave velocities of synthetic porous sandstone with aligned disc-shaped cracks. For the low-frequency anisotropic Gassmann model, the agreement between the measured and predicted velocities is reasonably good for both 5-wave velocities, but P-wave anisotropy is overestimated by approximately 25%. This quantitative difference can be explained by fluid diffusion effects occurring at the relatively high frequencies used in the experiment (100 kHz), which are not accounted for by the low-frequency assumption of anisotropic Gassmann theory. The predictions of the combined frequency-dependent model, which considers this effect, give very good agreement with measured velocities.

© 2004 ASEG
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2004-06-01
2026-01-22

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References

  1. Bourbie, T., Coussy, O., Zinszner, B., 1987, Acoustics of porous media: Elf Geoscience Research Centre.
  2. Brown, R.J.S., and Korringa, J., 1975, On the dependence of the elastic properties of a porous rock on the compressibility of the pore fluid: Geophysics, 40, 608-616,
  3. Gassmann, E, 1951, Uber die Elastizitat poroser Medien: Viertel. Naturforsch. Ges. Zurich, 96, 1-23,
  4. Gurevich, B., 2002, Elastic properties of saturated porous rocks with aligned fractures: Expanded Abstracts, 72nd Annual Meeting and Exposition, Society of Exploration Geophysicists, Paper ANI PI .6,
  5. Hudson, J.A., Liu, E., and Crampin, S., 1996, The mechanical properties of materials with interconnected cracks and pores: Geophys. J. Internal., 124, 105-112,
  6. Hudson, J.A., Pointer, T., and Liu, E., 2001, Effective medium theories for fluid saturated material with aligned cracks: Geophys. Prosp., 49, 509-522,
  7. Mavko, G., Mukerji, T., and Dvorkin, J., 1998, The rock physics handbook: Cambridge University Press.
  8. Rathore, J.S., Fjaer, E., Holt, R.M., and Renlie, L., 1995, P- and S-wave anisotropy of a synthetic sandstone with controlled crack geometry: Geophys. Prosp., 43, 711-728.
  9. Schoenberg, M., and Douma, J., 1988, Elastic-wave propagation in media with parallel fractures and aligned cracks: Geophys. Prosp., 36, 571-590,
  10. Schoenberg, M., and Sayers, CM., 1995, Seismic anisotropy of fractured rock: Geophysics, 60, 204-211.
  11. Thomsen, L., 1986, Weak elastic anisotropy: Geophysics, 51, 1954-1966,
  12. Thomsen, L., 1995, Elastic anisotropy due to aligned cracks in porous rock: Geophys. Prosp., 43, 805-829.
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  • Article Type: Research Article
Keyword(s): anisotropy; dispersion; fractures; poroelasticity

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