Nanoscale coal deformation and its geomechanics effect on pore structure evolution under hydrostatic and uniaxial compression conditions

Keyphrases

• Uniaxial Compression 100%
• Pore Structure Evolution 100%
• Coal Deformation 100%
• Geomechanics 100%
• Compression Condition 100%
• Hydrostatic Compression 100%
• Pore Size 66%
• Illinois 66%
• Degree of Anisotropy 66%
• Gas Injection 66%
• Pressurization 66%
• San Juan 66%
• Nanopore Structure 66%
• Methane 33%
• In Situ 33%
• Axial Stress 33%
• Sorption 33%
• Small-angle Neutron Scattering 33%
• Stress Conditions 33%
• Nanopore 33%
• Argon 33%
• Adsorbed Molecules 33%
• Matrix Swelling 33%
• Structure Evolution 33%
• Carbon Dioxide Injection 33%
• External Stress 33%
• Pore Shrinkage 33%
• Deformation Stage 33%

Engineering

• Nanoscale 100%
• Nanopore 100%
• Geomechanics 100%
• Gas Injection 66%
• Pressurization 66%
• Degree of Anisotropy 66%
• Methane 33%
• Anisotropic 33%
• Stress Condition 33%
• Combined Effect 33%
• External Stress 33%
• Direction Perpendicular 33%
• Adsorbed Molecule 33%