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Coupled geochemical-geomechanical alterations in shale fracture systems
A. H. Menefee
, L. P. Frash
, W. Hicks
, J. W. Carey
John and Willie Leone Department of Energy & Mineral Engineering (EME)
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Dive into the research topics of 'Coupled geochemical-geomechanical alterations in shale fracture systems'. Together they form a unique fingerprint.
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Keyphrases
Fracture System
100%
Geomechanics
100%
Barite Precipitation
100%
Shale Fracture
100%
Shale
75%
Barite
50%
Tight
25%
Flow Path
25%
Increased Temperature
25%
Controlled Temperature
25%
Fluid Transport
25%
Ba2+
25%
Energy Sources
25%
Shale Gas Reservoir
25%
Fracture Permeability
25%
X-ray Computed Tomography (X-CT)
25%
Induced Permeability
25%
Permeability Reduction
25%
Radiography
25%
Low Permeability
25%
Chemical Control
25%
SO42-
25%
Subsurface System
25%
Physical Control
25%
Primary Flow
25%
Geochemical Alteration
25%
Fluid Saturation
25%
Triaxial
25%
Saturation Index
25%
Fractured Shale
25%
Subsurface Conditions
25%
Energy Waste
25%
Fracture Geometry
25%
Direct Shear Experiment
25%
Shale Oil Reservoir
25%
Earth and Planetary Sciences
Barite
100%
Tomography
16%
Gas Reservoir
16%
Geochemical Alteration
16%
Chemical Control
16%
Fracture Geometry
16%
Shale Oil
16%
Shale Gas
16%