INIS
asphaltenes
100%
simulation
100%
capillary flow
100%
deposition
100%
aggregation
100%
interactions
50%
colloids
50%
solvents
40%
dynamics
20%
surfaces
20%
hydrodynamics
20%
flow rate
20%
molecules
20%
depth
20%
increasing
10%
crude oil
10%
screening
10%
rotation
10%
distance
10%
efficiency
10%
hybrids
10%
coulomb potential
10%
lubrication
10%
particles
10%
entrainment
10%
collisions
10%
cholesterol
10%
oils
10%
layers
10%
recovery
10%
rocks
10%
molecular structure
10%
pressure drop
10%
capillaries
10%
length
10%
precipitation
10%
stochastic processes
10%
minerals
10%
brownian movement
10%
Material Science
Multi-Scale Simulation
100%
Asphaltenes
100%
Aggregate
50%
Hydrodynamics
20%
Surface
20%
Wetting
10%
Lubrication
10%
Rock
10%
Crude Oil
10%
Mineral
10%
Particle
10%
Engineering
Multiscale
100%
Obtains
20%
Flow Rate
20%
Simulation Method
10%
Crude Oil
10%
Collision Dynamics
10%
Capillary Length
10%
Recovery Efficiency
10%
Transients
10%
Flowing Condition
10%
Characteristics
10%
Lubrication
10%
Computer Simulation
10%
Two Dimensional
10%
Experiments
10%
Hydrodynamic Interaction
10%
Stokes
10%
Constant Pressure Drop
10%
Chemical Engineering
Agglomeration
100%
Colloid
100%
Mineral
20%
Earth and Planetary Sciences