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Changes in rock matrix compressibility during deep CO
2
storage
Kiseok Kim,
Roman Y. Makhnenko
Civil and Environmental Engineering
National Center for Supercomputing Applications (NCSA)
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2
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Keyphrases
Compressibility
100%
CO2 Storage
100%
Rock Matrix
100%
Matrix Compressibility
100%
Deep CO2
100%
CO2 Treatment
80%
Reservoir Rock
60%
Silica
40%
High Pressure
20%
Sandstone
20%
Large Volume
20%
Microimaging
20%
Pore Structure
20%
Chemical Processes
20%
Water-saturated
20%
Solid Matrix
20%
Crystal Surface
20%
Interconnected Pores
20%
Velocity Measurement
20%
Mercury Intrusion Porosimetry
20%
Local Dissolution
20%
Number of Factors
20%
Matrix Structure
20%
Indiana Limestone
20%
CO2 Injection
20%
Brine
20%
Rocking Behavior
20%
Water Treatment
20%
Silica-rich
20%
Reservoir Model
20%
Storage Project
20%
Calcite Crystals
20%
Berea Sandstone
20%
Low-permeability Layers
20%
Liquid CO2
20%
Supercritical CO2 (SCO2)
20%
Rock Properties
20%
CO2 Geological Storage
20%
High Pressure CO2
20%
Ultrasonic Wave Velocity
20%
Solid Minerals
20%
Hydro-mechanical Processes
20%
Engineering
Compressibility
100%
CO2 Storage
100%
Rock Matrix
100%
Reservoir Rock
50%
Ultrasonics
16%
Wave Velocity
16%
Crystal Surface
16%
Saturated Water
16%
Solid Matrix
16%
Process Chemical
16%
Mercury Intrusion Porosimetry
16%
Matrix Structure
16%
Earth and Planetary Sciences
Compressibility
100%
Calcite
83%
Reservoir Rock
50%
Carbon Sequestration
16%
Crystal Surface
16%
Velocity Measurement
16%
Wave Velocity
16%
Indiana
16%
Ultrasonic Radiation
16%
Rock Property
16%
Berea Sandstone
16%