INIS
asphaltenes
100%
simulation
100%
capillary flow
100%
deposition
100%
capillaries
70%
flow rate
50%
solvents
50%
depth
40%
particles
30%
interactions
30%
deposits
20%
dynamics
20%
hydrodynamics
20%
pressure drop
20%
aggregation
20%
increasing
10%
rotation
10%
time dependence
10%
coulomb potential
10%
toluene
10%
optical microscopy
10%
collisions
10%
information
10%
oils
10%
colloids
10%
heptane
10%
glass
10%
permeability
10%
walls
10%
industry
10%
reservoir rock
10%
length
10%
precipitation
10%
stochastic processes
10%
brownian movement
10%
Earth and Planetary Sciences
Asphaltenes
100%
Capillary Flow
100%
Experiment
100%
Solvent
50%
Flow Velocity
50%
Depth
40%
Deposit
20%
Surface Pressure
20%
Condition
20%
Whirl
10%
Oil Industry
10%
Matching
10%
Wall
10%
Microscopy
10%
Stokes Flow
10%
Colloid
10%
Increasing
10%
Brownian Motion
10%
Slot
10%
Plugging
10%
Chemistry
Solvent
100%
Flow Kinetics
100%
Pressure Drop
40%
Colloid
20%
Oil
20%
Glass
20%
Coulomb Potential
20%
Rotation
20%
Monolayer
20%
Potential Well
20%
Time
20%
Colloid Chemistry
20%
Deposition Process
20%
Procedure
20%
Permeability
20%
Optical Microscopy
20%
Engineering
Experiments
100%
Flow Rate
50%
Obtains
37%
Transients
25%
Flow Condition
25%
Simulation Result
25%
Function of Time
12%
Constant Flow Rate
12%
Experimental Result
12%
Capillary Length
12%
Asphaltene Deposition
12%
Precipitation of Asphaltenes
12%
Monolayer
12%
Dimensionless
12%
Heptane
12%
Hydrodynamic Interaction
12%
Interaction Potential
12%
Stokes
12%
Chemical Engineering
Deposit
100%
Agglomeration
100%
Precipitation (Chemical)
50%
Heptane
50%
Toluene
50%
Colloid
50%
Material Science
Asphaltenes
100%
Particle
30%
Hydrodynamics
20%
Microscopy
10%
Permeability
10%
Rock
10%
Glass
10%
Monolayers
10%