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Dynamic pore scale network modeling: Effect of contact angle
M. Amani, M. R. Rasaei
School of Energy, Geoscience, Infrastructure and Society
Research output
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peer-review
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Engineering
Capillary Force
100%
Capillary Number
50%
Deep Understanding
50%
Displacement Efficiency
50%
Fluid Displacement
50%
Layer Flow
50%
Microscale
50%
Multiphase Flows
50%
Network Model
100%
Scale Model
100%
Scale Network
100%
Viscous Force
100%
Well Flooding
50%
INIS
capillaries
100%
capture
25%
displacement fluids
25%
dynamics
100%
efficiency
25%
fluids
25%
gain
25%
increasing
25%
interactions
25%
laboratories
25%
layers
25%
levels
25%
modeling
100%
multiphase flow
25%
porous materials
25%
scale models
50%
size
25%
solids
25%
waterflooding
25%
yields
25%
Earth and Planetary Sciences
Capillary Pressure
33%
Imbibition
33%
Multiphase Flow
33%
Pore Scale
100%
Scale Model
66%
Waterflooding
33%
Material Science
Contact Angle
100%
Multiphase Flow
33%