3D Reservoir Characterisation Workflow Integrating High Angle and Horizontal Well Log Interpretation with Geological Models

Polyakov, Valery; Omeragić, Dževat; Shetty, Sushil; Brot, Benoit; Habashy, Tarek M.; Mahesh, Arathi L.; Friedel, Torsten; Vik, Torbjoern; Flugsrud, L.

doi:10.2523/iptc-16828-abstract

All Days 2013

DOI: 10.2523/iptc-16828-abstract

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3D Reservoir Characterisation Workflow Integrating High Angle and Horizontal Well Log Interpretation with Geological Models

Valery Polyakov

Dževat Omeragić

Sushil Shetty

et al.

Abstract: We present a novel methodology for interpretation of high-angle and horizontal (HA/HZ) well data enabling comprehensive consideration of HA/HZ logs in large-scale reservoir characterization studies. The first step in the workflow is physics-based modeling and inversion of well logs, which yields reservoir structure (boundaries and faults, dips, cross bedding, etc.) and properties near the wellbore with high resolution. Subsequently, 3D geomodels are automatically updated with geometry and property information … Show more

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2024

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3D Field Structural Model Update by Incorporating Geosteering 2D Structural Interpretations in UGS Reservoir Application. Northern Italy

Sudiro,

Mantegazzi,

Pozzovivo

et al. 2024

SPE Europe Energy Conference and Exhibition

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Geosteering consists in the integration of different formation evaluation and drilling technologies, together with 3D and 2D reservoir modelling, to optimize the placement of highly deviated wells within a selected interval of the reservoir. During geosteering, the 2D structural model is constantly updated to fit the geological model to the observed data, in order to plan the required trajectory adjustments and keep the wellbore within the target interval. The introduction of deep reading measurements and inversion modelling allows consistently mapping and tracing one or multiple formation boundaries along the wellbore, without ever crossing these boundaries. Incorporating reservoir and near-reservoir data acquired during geosteering operations allows improving the 3D field models for future planning of new wells. The presented case study shows how, integrating high-resolution 2D structural mapping delineated during the geosteering of two wells drilled in a UGS field, can improve the quality of the field 3D structural model. The scalability of the process means that both the information from new wells drilled and from reprocessed legacy data can be incorporated, enhancing the structural understanding of the sub-surface. In the current application, two wells were imported and processed together, but there is no limitation to the number or sequence of well data imported and reprocessed: as new wells are drilled, these can be added to the 3D structural model for further processing and refinement. Alternatively, if suitable data were available form older wells that were not used to adjust the 3D structural model, they could be reanalyzed and reintegrated to update the structural model.

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3D Field Structural Model Update by Incorporating Geosteering 2D Structural Interpretations in UGS Reservoir Application. Northern Italy

Sudiro,

Mantegazzi,

Pozzovivo

et al. 2024

SPE Europe Energy Conference and Exhibition

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show abstract

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3D Reservoir Characterisation Workflow Integrating High Angle and Horizontal Well Log Interpretation with Geological Models

Cited by 1 publication

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3D Field Structural Model Update by Incorporating Geosteering 2D Structural Interpretations in UGS Reservoir Application. Northern Italy

3D Field Structural Model Update by Incorporating Geosteering 2D Structural Interpretations in UGS Reservoir Application. Northern Italy

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