INIS
dissociation
100%
hydrates
100%
methane hydrates
100%
montmorillonite
100%
fluid mechanics
100%
surfaces
33%
clays
33%
fluids
33%
production
22%
kinetics
22%
grain boundaries
22%
polycrystals
22%
simulation
22%
layers
22%
comparative evaluations
22%
water
22%
instability
22%
fractures
22%
gases
22%
control
11%
deposits
11%
bonding
11%
temperature gradients
11%
fluid flow
11%
efficiency
11%
viscous flow
11%
mobility
11%
hydrogen
11%
interactions
11%
methane
11%
transport
11%
pressure gradients
11%
depressurization
11%
molecules
11%
crystals
11%
liquids
11%
gas hydrates
11%
phase transformations
11%
laminar flow
11%
environment
11%
molecular dynamics method
11%
stimulation
11%
Material Science
Fluid Dynamics
100%
Crystalline Material
100%
Montmorillonite
100%
Fluid
75%
Clay
75%
Surface
75%
Gas
75%
Water
50%
Temperature
50%
Nanopore
50%
Liquid
25%
Hydrogen Bonding
25%
Laminar Flows
25%
Engineering
Hydrate Dissociation
100%
Fluid
75%
Outer Surface
25%
Temperature Gradient
25%
Static Condition
25%
Bulk Phase
25%
Forming
25%
Depressurization
25%
Temperature Change
25%
Flow Condition
25%
Computer Simulation
25%
Simulation Result
25%
Monocrystalline
25%
Complex Phase
25%
Flow System
25%
Gas Molecule
25%
Darcy Flow
25%
Crystal Grain
25%
Supports
25%
Chemical Engineering
Clay Mineral
100%
Water
66%
Natural Gas Wells-Hydrate
66%
Temperature
66%
Viscous Flow
33%
Deposit
33%
Fluid Flow
33%
Gas Hydrate
33%
Hydrogen
33%