Relationship between shear wave azimuthal anisotropy, sand-shale content and depth in the Exmouth Sub-Basin, Western Australia

Lisa J. Gavin; David Lumley

doi:10.1071/ASEG2015ab080

24th International Geophysical Conference and Exhibition – Geophysics and Geology Together for Discovery

ISSN: 2202-0586
E-ISSN:

oa Relationship between shear wave azimuthal anisotropy, sand-shale content and depth in the Exmouth Sub-Basin, Western Australia
Authors Lisa J. Gavin^a and David Lumley^b
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^a The University of Western Australia, M004, 35 Stirling Highway, Crawley, WA, 6009, [email protected] ^b The University of Western Australia, M004, 35 Stirling Highway, Crawley, WA, 6009, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2015, Issue 24th International Geophysical Conference and Exhibition – Geophysics and Geology Together for Discovery, Dec 2015, p. 1 - 4
DOI: https://doi.org/10.1071/ASEG2015ab080
- Published online: 01 Dec 2015

Abstract

Anisotropy characterisation from surface seismic, VSP and borehole measurements is notoriously difficult. This is mostly due to limitations in parameterising the stiffness tensor constants required give an accurate representation of the anisotropic material. The Exmouth Sub-Basin has very strong anomalous horizontal stress conditions; in some areas the maximum horizontal stress (ahmax) can exceed the vertical stress (rjv). There are many data examples across the Sub-Basin showing the influence of strong azimuthal anisotropy (AA). Qualitative observations of log data demonstrate that there is greater amounts s-wave anisotropy (y) in the sand dominated sediments than in the shale dominated and the AA is greater in shallower clastic sediments than deeper. In this paper we compare data observations of AA fast and ahmax azimuths in the Exmouth Sub-Basin, which show consistent trends when plotted geographically. We then outline a methodology to determine a relationship between y and Vshale (shale volume ratio versus sand and shale volume) from logs with existing y and Vshale data and then extend the method to incorporate the total vertical depth (subsea) of the log (TVDss). We test this methodology on a well taking a “blind test” approach, predicting Vsslow, y and Vshale. We also test the methodology on original logs and ones upscaled using Backus averaging to a typical seismic resolution. Our results show that we can accurately predict AA and Vshale, especially when the logs depth is incorporated, removing depth trends.

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References

Bailey, A. H. E., King, R.C., Holford, S. P. and Hand, M., 2014, In-situ stresses in the Carnarvon Basin, Western Australia [IN REVIEW].
Gurevich, M., Pervukhina, M., and Markarynsha, D., 2011, An analytic model for the stress-induced anisotropy of dry rocks: Geophysics, 76(3), WA125-WA123.
Hillis, R. H., and Mildren, S., Rotation of horizontal stresses in the Australian North West continental shelf due to the collision of the Indo-Australian and Eurasian Plates: Tectonics, 16(2), 323-335.
Mavko, G., Mukerji, T., and Godfrey,N., 1995, Predicting stress-induced velocity anisotropy in rocks: Geophysics, 60, 1081-1087.
Pevzner, R., Gurevich, B., and Urosevic, M., 2011, Estimation of azimuthal anisotropy from VSP data using multicomponent S-wave velocity analysis: Geophysics, 76(5), D1-D9.
Reynolds, S., R., 2001, Characterization and modelling of the regional in situ stress field of continental Australia: PhD Thesis, University of Adelaide.
Sayers, C. M., 2002, Stress-dependent elastic anisotropy of sandstones: Geophysical Prospecting, 50(1), 85 -95. Sayers, C.M., Effects of borehole stress concentration on elastic wave velocities in sandstones: International Journal of Rock Mechanics and Mining Sciences, 44(7), 1045-1052.
Tsvankin, I., Gaiser, J., Grechka, V., van der Baan, M., and Thomsen, L., 2010, Seismic anisotropy in exploration and reservoir characterization: An overview: Geophysics, 75(5), 75A15-75A29.
Verdon, J., Angus, D. A., Kendall, J. M., and Hall, S.A., 2008, The effect of microstructure and non linear stress on anisotropic seismic velocities: Geophysics, 73(4), D41-D51.
Wild, P., 2011, Practical applications of seismic anisotropy: First Break, 29, 117-124.

/content/journals/10.1071/ASEG2015ab080

Article Type: Research Article

Keyword(s): anisotropy; azimuthal anisotropy; sand; shale; stress

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oa Relationship between shear wave azimuthal anisotropy, sand-shale content and depth in the Exmouth Sub-Basin, Western Australia

Abstract

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