A Geomechanical Model and Workflow for Calibrating Elastic Moduli and Min/Max Horizontal Stress from Well Logs in the Nahr Umr Shale

Shaver, Michael Alexander; Segret, Gilles; Yudhia, Denya Pratama; Ameri, Saleh Al; Couziqou, Erwan; Marzouqi, Adel Rahman Al

doi:10.2118/202204-ms

Day 3 Thu, May 27, 2021 2021

DOI: 10.2118/202204-ms

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A Geomechanical Model and Workflow for Calibrating Elastic Moduli and Min/Max Horizontal Stress from Well Logs in the Nahr Umr Shale

Michael Alexander Shaver

Gilles Segret

Denya Pratama Yudhia

et al.

Abstract: Thin layering and micro-fracturing of the thin laminated layers are some possible reasons for the wellbore stability problems of the Nahr Umr shale. If the drilling fluid density is too low, collapsing of the borehole is possible, and if the drilling fluid density is too high, invasion of the shale can occur, weakening the shale, making boreholes prone to instability. These effects can be semi-quantified and assessed through the development of a geomechanical model. The application of a geomecha… Show more

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Research on Geophysical Response Analysis and Geostress Prediction Technology Based on Seismic Azimuthal Anisotropy

Wang,

Shi,

et al. 2023

Day 3 Wed, October 04, 2023

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The exploration and development potential of shale gas reservoirs in Sichuan Basin is enormous, however it also faces difficulties such as complex structures, strong heterogeneity and unclear geophysical response characteristics. Fine prediction of geostress is an important part of shale gas exploration and development, which directly affects the implementation effect of reservoir evaluation, well trajectory design and fracture reconstruction. The existing geostress prediction techniques lack high precision seismic data constraints, making it difficult to accurately reflect the planar distribution characteristics of the geostress in block with rapid changes in complex tectonic zones. At the same time, the geophysical response characteristics of geostress in Sichuan Basin are unknown, the geostress seismic prediction technology lacks theoretical basis. This paper combines numerical simulation and physical experiments, and defines the characteristics of geophysical response of shale gas reservoir in Sichuan Basin changing with stress field, and technical countermeasures for geostress seismic prediction are established to provide technical means for accurate prediction of geostress field in shale gas block. Based on the geostress sensitive parameters obtained from prestack seismic inversion, the geostress field prediction of a Shale gas work area in Sichuan Basin is realized.

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Research on Geophysical Response Analysis and Geostress Prediction Technology Based on Seismic Azimuthal Anisotropy

Wang,

Shi,

et al. 2023

Day 3 Wed, October 04, 2023

View full text Add to dashboard Cite

show abstract

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A Geomechanical Model and Workflow for Calibrating Elastic Moduli and Min/Max Horizontal Stress from Well Logs in the Nahr Umr Shale

Cited by 1 publication

References 6 publications

Research on Geophysical Response Analysis and Geostress Prediction Technology Based on Seismic Azimuthal Anisotropy

Research on Geophysical Response Analysis and Geostress Prediction Technology Based on Seismic Azimuthal Anisotropy

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