Determining Formation Resistivity Anisotropy in the Presence of Invasion

Barber, Tom; Anderson, Barbara I.; Abubakar, Aria; Broussard, Tracy; Chen, Kuo-Chaing; Davydycheva, Sophia; Druskin, Vladimir; Habashy, Tarek M.; Homan, Dean; Minerbo, Gerald; Rosthal, Richard; Schlein, Robert; Wang, Hanming

doi:10.2118/90526-ms

Cited by 54 publications

(24 citation statements)

References 14 publications

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“…The triaxial induction array Barber et al, 2004;Minerbo et al, 2006) was built on a metal mandrel or tube, where the triaxial sensors are around the tube and covered with a fiberglass sleeve to exclude the borehole fluids. It operates at two induction frequencies: 13 and 27 kHz and consists of nine arrays with spacings from 6 in to 72 in.…”

Section: Description Of the Triaxial Induction Toolmentioning

confidence: 99%

Triaxial induction tool with electrode sleeve: FD modeling in 3D geometries

Davydycheva

Homan

Minerbo

2009

Journal of Applied Geophysics

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Section: Description Of the Triaxial Induction Toolmentioning

confidence: 99%

Triaxial induction tool with electrode sleeve: FD modeling in 3D geometries

Davydycheva

Homan

Minerbo

2009

Journal of Applied Geophysics

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“…The effect of electrical anisotropy has been the subject of many papers: in deep crustal studies (Everett and Constable, 1999), fracture detection and mapping (Le Masne and Vasseur, 1981), mineral exploration (Mansour al-Garni and Everett, 2003), and in borehole logging (Lu and Alumbaugh, 2001). Barber et al (2004) demonstrate how electrical anisotropy can be determined through borehole logging. Ellis et al (2010) developed an effective medium model for sediment anisotropy arising through preferred grain shape and alignment.…”

Section: Introductionmentioning

confidence: 99%

Resolution of reservoir scale electrical anisotropy from marine CSEM data

et al. 2012

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A combination of 1D and 3D forward and inverse solutions is used to quantify the sensitivity and resolution of conventional controlled source electromagnetic (CSEM) data collected using a horizontal electric dipole source to transverse electrical anisotropy located in a deep-water exploration reservoir target. Since strongly anisotropic shale layers have a vertical resistivity that can be comparable to many reservoirs, we examine how CSEM can discriminate confounding shale layers through their characteristically lower horizontal resistivity. Forward modeling demonstrates that the sensitivity to reservoir level anisotropy is very low compared to the sensitivity to isotropic reservoirs, especially when the reservoir is deeper than about 2 km below the seabed. However, for 1D models where the number of inversion parameters can be fixed to be only a few layers, both vertical and horizontal resistivity of the reservoir can be well resolved using a stochastic inversion. We find that the resolution of horizontal resistivity increases as the horizontal resistivity decreases. We show that this effect is explained by the presence of strong horizontal current density in anisotropic layers with low horizontal resistivity. Conversely, when the reservoir has a vertical to horizontal resistivity ratio of about 10 or less, the current density is vertically polarized and hence has little sensitivity to the horizontal resistivity. Resistivity anisotropy estimates from 3D inversion for 3D targets suggest that resolution of reservoir level anisotropy for 3D targets will require good a priori knowledge of the background sediment conductivity and structural boundaries.3

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“…2. Because borehole effect mainly depends on the six parameters [19]: the borehole radius r, the borehole mud conductivity σ m , the offset r e , the offset direction relative to the tool coordinate α, the formation vertical conductivity σ v , the formation horizontal conductivity σ h . The parameters r, σ m are easy to get by measurement, and the direction of the offset with respect to the tool's x-axis can be solved directly from the xz and xy couplings.…”

Section: The Field Excited By the Dot Source In Cylindrically Stratifmentioning

confidence: 99%

“…The parameters r, σ m are easy to get by measurement, and the direction of the offset with respect to the tool's x-axis can be solved directly from the xz and xy couplings. The relation is given by the equation [19] …”

Section: The Field Excited By the Dot Source In Cylindrically Stratifmentioning

confidence: 99%

“…The borehole correction algorithm consists of building forward model to compute coil responses and using iterative inversion method to solve some of the borehole effect parameters. A table is usually built as a forward model by using three-dimensional numerical methods such as finite difference method [19]. However, building the table with the three-dimensional numerical method is very time-consuming.…”

Section: Introductionmentioning

confidence: 99%

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Analysis and Correction of Borehole Effect on the Responses of Multicomponent Induction Logging Tools

Sun¹,

Nie²,

Li³

et al. 2008

PIER

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Abstract-The analytical formulae based on the generalized reflection and transmission coefficient matrices for cylindrically stratified media are used to simulate the borehole effect on multicomponent induction logging responses in various ratios of mud conductivity and formation conductivity and to investigate the tool's eccentricity effect on the responses of coplanar coils and coaxial coils. The simulated data show that the borehole effect and the tool's eccentricity effect on the response of coplanar coils is greater than that on the response of coaxial coils in most cases. Then we give an algorithm for the correction of borehole effect on multicomponent induction logging responses, and the algorithm is based on the above-mentioned formulae to build forward model and regularized Newton method. Finally we correct borehole effect on the apparent conductivity responses of two different models with the algorithm, and the results demonstrate the effectiveness of the algorithm.

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Determining Formation Resistivity Anisotropy in the Presence of Invasion

Cited by 54 publications

References 14 publications

Triaxial induction tool with electrode sleeve: FD modeling in 3D geometries

Triaxial induction tool with electrode sleeve: FD modeling in 3D geometries

Resolution of reservoir scale electrical anisotropy from marine CSEM data

Analysis and Correction of Borehole Effect on the Responses of Multicomponent Induction Logging Tools

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