2000
DOI: 10.1190/1.1444734
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Dipole dispersion crossover and sonic logs in a limestone reservoir

Abstract: Analyses of sonic logs in a horizontal well provide new information about mechanical properties of rocks, made possible by recent developments in our understanding of acoustic wave propagation in prestressed formations. Most sections of this horizontal well exhibit azimuthal shear isotropy, indicating isotropic stresses in the plane perpendicular to the well trajectory, leading to stable wellbore conditions. However, two sections show dipole dispersion crossovers that confirm the presence of stress‐induced she… Show more

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Cited by 66 publications
(57 citation statements)
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“…Boreholes drilled in the earth are often noncircular. Sinha et al (2000) find that the commonly encountered borehole ellipticity is around 1.25 in a limestone reservoir. Our modeling results indicate that a borehole ellipticity of 1.1 is large enough to separate the flexural dispersion curves at high frequencies, so the effect of borehole ellipticity is as important as stress-induced and intrinsic anisotropies.…”
Section: Discussionmentioning
confidence: 98%
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“…Boreholes drilled in the earth are often noncircular. Sinha et al (2000) find that the commonly encountered borehole ellipticity is around 1.25 in a limestone reservoir. Our modeling results indicate that a borehole ellipticity of 1.1 is large enough to separate the flexural dispersion curves at high frequencies, so the effect of borehole ellipticity is as important as stress-induced and intrinsic anisotropies.…”
Section: Discussionmentioning
confidence: 98%
“…Sinha and Kostek (1996) find that formation anisotropic stresses cause radially varying heterogeneities in acoustic-wave velocities that vary with azimuth relative to the two principal stresses perpendicular to the wellbore and can result in a crossover in cross-dipole flexural dispersion curves, in which the azimuthal orientations of fast and slow waves differ between low and high frequencies. This flexural dispersion crossover has long been taken to be an indicator of borehole stress-induced anisotropy because the crossover cannot occur for a circular borehole located in a homogeneous anisotropic formation (Sinha and Kostek, 1996;Sinha et al, 2000). Sinha (2001), Sinha and Liu (2002; and Liu and Sinha (2003) study the influence of small uniaxial and triaxial stresses on the flexural dispersion and confirm the existence of flexural dispersion crossover caused by borehole stress alteration.…”
Section: Introductionmentioning
confidence: 99%
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“…1,2 An alternative approach that has been successfully applied to the estimation of stress is based on the acoustoelastic theory. 6,[9][10][11][12][13][14] The acoustoelastic effect, i.e., the velocity change of the acoustic waves in the presence of stresses, has been investigated for more than about sixty years. 15 The acoustoelastic effect is not new to rock physicists, having already been applied in various contexts such as underground mines, 16 laboratory experiments, [17][18][19][20] and boreholes.…”
Section: Introductionmentioning
confidence: 99%