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Modeling of anisotropic sorption-induced coal deformations
Ang Liu
,
Shimin Liu
John and Willie Leone Department of Energy & Mineral Engineering (EME)
Research output
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Contribution to conference
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Paper
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peer-review
1
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Dive into the research topics of 'Modeling of anisotropic sorption-induced coal deformations'. Together they form a unique fingerprint.
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Keyphrases
Sorption
100%
Volumetric Strain
100%
Coal Deformation
100%
High Pressure
33%
Gas Adsorption
33%
Strain-induced
33%
Swelling Strain
33%
Geomechanics
33%
Mechanical Compression
33%
Low Pressure
16%
Elastic Properties
16%
Anisotropy
16%
Adsorption
16%
Transversely Isotropic
16%
Young's Modulus
16%
Adsorption Capacity
16%
Sensitivity Study
16%
Coalbed Methane Reservoir
16%
Induced Strain
16%
Poisson's Ratio
16%
Matrix Swelling
16%
Volume Strain
16%
Cleat
16%
Evolution Model
16%
Volumetric Response
16%
Negative Value
16%
Strain Model
16%
Characteristic Strain
16%
Coal Matrix Swelling
16%
Strain Evolution
16%
Deformation Experiments
16%
Compression Effect
16%
Cleat Compressibility
16%
Volumetric Deformation
16%
Engineering
Volumetric Strain
100%
Anisotropic
100%
Geomechanics
33%
Swelling Strain
33%
Compressibility
16%
Young's Modulus
16%
Adsorption Capacity
16%
Coalbed Methane Reservoir
16%
Poisson Ratio
16%
Sensitivity Study
16%
Combined Effect
16%
Negative Value
16%
Pressure Stage
16%
Boundary Condition
16%
Strain Model
16%