Elastic and Petrophysical Properties of Shales

David Dewhurst; Tony Siggins; Utpalendu Kuila; Ben Clennell; Mark Raven; Hege Nordgård Bolås

doi:10.1071/ASEG2007ab033

ISSN: 2202-0586
E-ISSN:

oa Elastic and Petrophysical Properties of Shales
Authors David Dewhurst^a, Tony Siggins^b, Utpalendu Kuila^c, Ben Clennell^d, Mark Raven^e and Hege Nordgård Bolås^f
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^a CSIRO Petroleum, 26 Dick Perry Ave Kensington, WA 6151, [email protected] ^b CSIRO Petroleum, 26 Dick Perry Ave Kensington, WA 6151, [email protected] ^c CSIRO Petroleum, 26 Dick Perry Ave Kensington, WA 6151, [email protected] ^d CSIRO Petroleum, 26 Dick Perry Ave Kensington, WA 6151, [email protected] ^e CSIRO Land & Water, Waite Rd Urrbrae, SA 5064, [email protected] ^f Statoil Research Centre, Arkitekt Ebbellsvei 10 Trondheim, Norway, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2007, Issue ASEG2007 - 19th Geophysical Conference, Dec 2007, p. 1 - 5
DOI: https://doi.org/10.1071/ASEG2007ab033
- Published online: 01 Dec 2007

Abstract

Summary

Although shales comprise a large proportion of the sedimentary pile in many hydrocarbon-rich regions, their behaviour is not well understood from basin scales right down to the microscopic physics of particle interactions. Shale properties impact significantly on exploration, development and production costs through the effect of seismic anisotropy on imaging and depth conversion, the role of shales in 4D seismic response, in addition to associated issues such as pore pressure prediction and prediction of dynamic Poisson’s ratio.

Tests were performed on shales from the North Sea and Officer Basins with a view to measuring their petrophysical and ultrasonic properties. Ultrasonic tests were carried out to evaluate the full elastic tensor and its variation with stress. Variability in dielectric properties could be explained from fabric studies using both SEM and CT scanning. Ultrasonic tests evaluating the full elastic tensor on single shale core plugs show smooth responses in terms of velocity, elastic coefficients and anisotropy over a large stress range and are interpretable in terms of composition and the orientation of microfabric anisotropy with respect to stress anisotropy.

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References

Clennell, M.B., Dewhurst, D.N. and Raven, M., 2006, Shale petrophysics: electrical, dielectric and nuclear magnetic resonance studies of shales and clays. Proceedings of the 47th SPWLA Annual Logging Symposium, Veracruz, Mexico, 13pp.
Dewhurst, D.N., and A.F. Siggins, 2006, Impact of fabric, microcracks and stress field on shale anisotropy: Geophysical Journal International, 165, 135–148.
Holt, R.M., E. Fjær, A.M. Raaen, and C. Ringstad, 1991, Influence of stress state and stress history on acoustic wave propagation in sedimentary rocks, in J.M. Hovem, M.D. Richardson, and R.D. Stoll, eds., Shear Waves in Marine Sediments, Kluwer, 167-174.
Hornby, B.E., 1998, Experimental laboratory determination of the dynamic elastic properties of wet, drained shales: J. Geophys. Res., 103, 29,945-29,964. Hornby, B.E., C.D. Johnson, and J.M. Cook, 1994, Ultrasonic laboratory measurements of the elastic properties of shales: 64th Annual International Meeting, SEG, Expanded Abstracts, 1117-1120.
Johnston, J.E., and N.I. Christensen, 1995, Seismic anisotropy of shales: Journal of Geophysical Research, 100, 5991-6003.
Jones, L.E.A., and H.F. Wang, 1981, Ultrasonic velocities in Cretaceous shales from the Williston Basin: Geophysics, 46, 288-297.
Liu, X., L. Vernik, and A. Nur, 1994. Effects of saturating fluids on seismic velocities in shales: 64th Annual International Meeting, SEG, Expanded Abstracts, 1121-1124.
Paterson, M.S., 1978, Experimental Rock Deformation: The Brittle Field: Springer.
Sayers, C.M., 1999, Stress-dependent seismic anisotropy of shales: Geophysics, 64, 93-98.
Thomsen, L., 1986. Weak elastic anisotropy: Geophysics, 51, 1954-1966.
Tosaya, C.A., 1982, Acoustical properties of clay-bearing rocks: Ph.D. thesis, Stanford University.
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Article Type: Research Article

Keyword(s): anisotropy; dielectric; fabric; shale; velocity

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