Improved Estimation of Hydrocarbon Reserves Using High-Definition Lateral Log Array Data in Vertical and Highly Deviated Wells

Frenkel, Michael A.; Zhou, Zhao‐Zhao

doi:10.2118/62912-ms

Cited by 5 publications

(1 citation statement)

References 2 publications

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“…1,5 A rapid inversion method In well logging, a rapid 2-D inversion method was originally applied to the interpretation of old Russian resistivity (BKZ) logs. 7,8 The method was then accelerated and modified for well-site interpretation of array induction (HDIL), 6 array lateral log (HDLL), [9][10][11] and other types of well logging measurements. 12 The rapid inversion technology is adapted in this paper for the interpretation of 3DEX measurements.…”

Section: The 3dex Tool and What It Measuresmentioning

confidence: 99%

Well-site Resistivity Anisotropy Interpretation: A 2-D Method and a Case Study from the Gulf of Mexico

Frenkel

2002

Proceedings of SPE Annual Technical Conference and Exhibition

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractA novel rapid inversion method has proved to be one of the fastest methods designed for accurate, multi-dimensional interpretation of array resistivity logs. In this paper, we discuss the development of this method as a basis for future well-site anisotropy interpretation, using data recorded with the 3D Explorer SM multi-component induction instrument (3DEX SM ).The new method demonstrates the feasibility for a substantial reduction of computing time by partitioning the two-dimensional (2-D) inverse problem into a sequence of smaller one-dimensional (1-D) problems (radial inversion). It rapidly converges to a true earth model. In the case of a vertical well (2-D), the method requires multiple 1-D, yet only a few 2-D forward model calculations. To achieve this substantial extra increase in computing speed, 1-D forward responses are pre-calculated and stored as look-up tables to be consulted at inversion time. The computations required for a full 2-D interpretation process is thus reduced to a set of four to five 2-D forward response calculations at a limited number of observation points. As a result, the proposed method allows the entire spectrum of measurements to be combined as a part of an interpretation scheme suitable for well-site processing. The method is capable of providing a consistent and accurate picture of formation resistivity anisotropy.The potential for the technique is presented and illustrated by anisotropy interpretation results from 3DEX data acquired in a vertical well in the Gulf of Mexico. These results are shown to be in excellent agreement with what is inferable directly from the raw 3DEX logs. They are also in good agreement with results from an independently performed anisotropy interpretation based on a rigorous 2-D inversion technique.A field example confirms the capability of the proposed technique to deliver comparable quality results now achievable with standard log analysis center processing in run times comparable to run times for other familiar well-site deliverables.

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Section: The 3dex Tool and What It Measuresmentioning

confidence: 99%

Well-site Resistivity Anisotropy Interpretation: A 2-D Method and a Case Study from the Gulf of Mexico

Frenkel

2002

Proceedings of SPE Annual Technical Conference and Exhibition

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Array processing—a new method to detect and correct errors on array resistivity logging tool measurements

Rabinowitz

Zhou

2007

Chin. J. Ocean. Limnol.

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Electrical anisotropy of terrigenous deposits: a brief overview of approaches to its determination from electrical logging data in vertical wells

Сухорукова

Петров

2022

Russian Journal of geophysical technologies

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The article briefly reviews a number of publications on the problem of determining rocks electrical resistivity anisotropy (primarily of sedimentary genesis) using downhole resistivity logs. We provide the information on the main causes of sandy-clay sediments micro- and macroanisotropy according to Russian papers and the history of the model-based approaches to the resistivity anisotropy description according to Russian and foreign articles. We analyze the main approaches to the vertical resistivity estimation. Both new hardware solutions aimed at direct measurement of electromagnetic field components sensitive to anisotropy and methodological techniques for extracting this information from the signals of "conventional" resistivity logging tools are considered according to published studies. The hardware solutions are multicomponent measurements with inclined and perpendicular (to the tool axis) coils, as well as with coaxial toroidal coils. Methodological techniques include combining data measured by tools with different types of medium excitation, for example, induction and galvanic. A number of papers suggest a two-step scheme: the first step is to determine the horizontal resistivity using induction arrays data, and the second step is to determine the vertical resistivity using focused lateral logs. Such schemes are implemented using numerical inversion algorithms and in some cases by inventing transformations of measured signals. Adding anisotropy to the interpretational model is based on a priori data (core studies, microresistivity logs). In the absence of a priori data, anisotropy is added when it is impossible to reconcile the parameters of isotropic models built independently based on logs with different type of excitation. A special focus of the review is on the development of the theory of unfocused lateral logging (BKZ) method by Soviet and Russian scientists and on the history of research on the electrical anisotropy influence on the signals of gradient probes. Due to the widespread use of the method in the USSR, this topic is presented in a number of papers revealing the results of anisotropic geoelectric models theoretical studies, numerical and physical modeling of BKZ logs and methodological developments for their interpretation.

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Improved Estimation of Hydrocarbon Reserves Using High-Definition Lateral Log Array Data in Vertical and Highly Deviated Wells

Cited by 5 publications

References 2 publications

Well-site Resistivity Anisotropy Interpretation: A 2-D Method and a Case Study from the Gulf of Mexico

Well-site Resistivity Anisotropy Interpretation: A 2-D Method and a Case Study from the Gulf of Mexico

Array processing—a new method to detect and correct errors on array resistivity logging tool measurements

Electrical anisotropy of terrigenous deposits: a brief overview of approaches to its determination from electrical logging data in vertical wells

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