TASK 5 REPORT FIELD SCALE STRESS MODELING: A Non-Invasive Approach for Elucidating the Spatial Distribution of In Situ Stress in Deep Subsurface Geologic Formations Considered for CO2 Storage

OwnerNational Energy Technology Laboratory (NETL) - view all

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Last updatedabout 1 year ago

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This report describes research accomplishments achieved with funding provided through Department of Energy (DOE) Contract DE-FE0031686, for the project “A Non-Invasive Approach for Elucidating the Spatial Distribution of In Situ Stress in Deep Subsurface Geologic Formations Considered for CO2 Storage.” The purpose of this DOE funding is to develop non-invasive methods to obtain important information about subsurface stresses. The overall research goal of the project was to develop and improve methods for determining the spatial distribution of stresses, including magnitude and orientation of the three principal stress components in the subsurface, based on new methods that extract stress information from seismic data combined with well measurements, extended with well tests and logs, and unified in a numerical model that permits computation of the full stress tensor throughout the domains under investigation.

Michigan Basin Niagaran reef Silurian carbonates core field testing geomechanics stress

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citationAndersen, O., Kelley, M., Smith, V., Modroo, A. 2021. TASK 5 REPORT FIELD SCALE STRESS MODELING. Topical report prepared for DOE-NETL project DE-FE0031686, Battelle Memorial Institute, Columbus, OH., DOI: 10.2172/1890654

netl_productyes

poc_emailwilliam.aljoe@netl.doe.gov

point_of_contactWilliam Aljoe

program_or_projectCarbon Storage

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