TASK 3 REPORT LABORATORY CHARACTERIZATION OF STRESS DEPENDENT WAVESPEED: 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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This report presents a summary of Task 3 (Laboratory Experimental Characterization of Stress Dependent Wavespeed in Rocks and Application for In-Situ Stress Estimation) of the project titled “A Non-Invasive Approach for Elucidating the Spatial Distribution of In-Situ Stress in Deep Subsurface Geologic Formations Considered for CO2 Storage”. The main objective of this component of the project was to employ non-destructive techniques to determine how compressional (P)-wave and shear (S)-wave propagation velocities are related to triaxial-stress conditions in laboratory test samples of targeted reservoir rocks. The overarching principle is that such laboratory measurements can provide a basis whereby field measurements of wave-propagation velocities in rocks can be used to ascertain the stress state that would be expected to generate the observed wave-propagation behavior.

FutureGen2 Niagaran Pinnacle Reef TUV core geomechanics stress triaxial ultrasonic velocity

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citationBunger, A., Gunaydin, D., Kelley, M. 2021. TASK 3 REPORT LABORATORY CHARACTERIZATION OF STRESS DEPENDENT WAVESPEED. Topical report prepared for DOE-NETL project DE-FE0031686, Battelle Memorial Institute, Columbus, OH., DOI: 10.2172/1890651

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poc_emailwilliam.aljoe@netl.doe.gov

point_of_contactWilliam Aljoe

program_or_projectCarbon Storage

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