INIS
foams
100%
permeability
100%
capillaries
100%
pressure gradients
44%
gases
33%
porous materials
22%
glass
22%
prediction
11%
boundary layers
11%
injection
11%
dynamics
11%
surfaces
11%
computerized tomography
11%
sintering
11%
mobility
11%
x radiation
11%
surfactants
11%
oils
11%
recovery
11%
saturation
11%
images
11%
grain size
11%
sweep efficiency
11%
velocity
11%
critical pressure
11%
solutions
11%
length
11%
critical velocity
11%
Earth and Planetary Sciences
Foam
100%
Inflow
100%
Pressure Gradient
44%
Gas
33%
Show
22%
Core
22%
Porous Medium
22%
Investigation
22%
Laminate
22%
Experiment
22%
Sintering
11%
Tomography
11%
Image
11%
Enhanced Oil Recovery
11%
X Ray
11%
Injection
11%
Contrast
11%
Event
11%
Unconformity
11%
Grain Size
11%
Mach Number
11%
Field Scale
11%
Model
11%
Critical Pressure
11%
Subsurface Flow
11%
Shape
11%
Theoretical Study
11%
Engineering
Foam
100%
Fields
22%
Scale Feature
22%
Experiments
22%
Injected Gas
11%
Velocity
11%
Models
11%
Enhanced Oil Recovery
11%
Phase Saturation
11%
Small Scale
11%
Surfactant
11%
Images
11%
Subsurface
11%
Recovery Process
11%
Velocity Gradient
11%
Length Scale
11%
Boundary Layer
11%
Critical Velocity
11%