Keyphrases
Brine
100%
Carbonate Formation
100%
Engineered Water Systems
100%
Anionic Surfactant
100%
Hybrid Enhanced Oil Recovery
100%
Enhanced Oil Recovery
75%
Low Salinity Water
50%
Hybrid Method
50%
Recovery Factor
50%
Surfactant
50%
Water Wetting
50%
Seawater
50%
Microemulsion
50%
Oil Recovery
25%
Formation Water
25%
Oil Field
25%
Wettability
25%
Low Salinity Water Injection
25%
Water Salinity
25%
Caspian
25%
Carbonate
25%
Contact Angle Measurement
25%
Alkyl
25%
Calcium Ion
25%
Combined Method
25%
Wet Condition
25%
Wetting State
25%
Wettability Alteration
25%
Solubilization Efficiency
25%
Main Criteria
25%
Surfactant Flooding
25%
Sulfate Ion
25%
Capillary number
25%
Low Salinity
25%
High Oil
25%
Performance Optimization
25%
Ionic Composition
25%
Benzenesulfonic Acid
25%
Middle Phase
25%
Aqueous Stability
25%
Ionic Surfactant
25%
Total Height
25%
Winsor III
25%
INIS
water
100%
applications
100%
oils
100%
recovery
100%
hybrids
100%
carbonates
100%
surfactants
100%
brines
50%
salinity
50%
wettability
25%
microemulsions
25%
seawater
25%
performance
12%
comparative evaluations
12%
stability
12%
dilution
12%
ions
12%
injection
12%
calcium
12%
formation water
12%
oil fields
12%
height
12%
sulfates
12%
capillaries
12%
ionic composition
12%
Engineering
Enhanced Oil Recovery
100%
Surfactant
100%
Anionic Surfactant
100%
Hybrid Method
50%
Recovery Factor
50%
Microemulsion
50%
Dilution
25%
Oil Recovery
25%
Formation Water
25%
Oil Field
25%
Water Injection
25%
Combined Method
25%
Contact Angle Measurement
25%
Capillary Number
25%
Material Science
Surface Active Agent
100%
Anionic Surfactant
100%
Microemulsions
50%
Seawater
50%
Wettability
50%
Contact Angle
25%
Dilution
25%
Pharmacology, Toxicology and Pharmaceutical Science
Surfactant
100%
Anionic Surfactant
100%
Sea Water
50%
Microemulsion
50%
Calcium Ion
25%
Benzenesulfonic Acid
25%
Sulfate
25%
Chemical Engineering
Surfactant
100%
Anionic Surfactant
100%
Microemulsion
50%
Angle Measurement
25%