INIS
preservation
100%
methane hydrates
100%
carbon nanotubes
100%
hydrates
63%
methane
45%
comparative evaluations
27%
water
18%
gases
18%
kinetics
18%
phase diagrams
18%
aqueous solutions
18%
natural gas
18%
production
9%
capacity
9%
concentration
9%
environment
9%
storage
9%
induction
9%
stability
9%
economics
9%
reserves
9%
conversion
9%
promoters
9%
safety
9%
equilibrium
9%
gas hydrates
9%
uptake
9%
atmospheric pressure
9%
nanofluids
9%
liquefied natural gas
9%
Engineering
Hydrate Formation
100%
Carbon Nanotubes
100%
Methane
100%
Natural Gas
18%
Aqueous Solution
18%
Kinetic Parameter
9%
Induction Time
9%
Technical Challenge
9%
Storage Capacity
9%
Equilibrium Condition
9%
Gas Reserve
9%
Stabilizer
9%
Equilibrium Phase Boundary
9%
Nanofluid
9%
Liquefied Natural Gas
9%
Atmospheric Pressure
9%
Chemical Engineering
Carbon Nanotube
100%
Methane
45%
Deionized Water
9%
Gas Hydrate
9%
Material Science
Carbon Nanotubes
100%
Natural Gas
18%
Solution
18%
Stabilizer (Agent)
9%
Liquefied Natural Gas
9%