Earth and Planetary Sciences
High Temperature
100%
Salinity
100%
Enhanced Oil Recovery
100%
Reservoir
100%
Sandstone
100%
Show
83%
Investigation
83%
Water
66%
Utilization
50%
Oil Recovery
33%
Flood
33%
Oil
33%
Sodium Chloride
33%
Stability
16%
Synthetic Water
16%
Gas
16%
Constraint
16%
Industry
16%
Behavior
16%
Rate
16%
Hydraulic Fracturing
16%
Increasing
16%
Amount
16%
Country
16%
Production Cost
16%
Drilling Fluid
16%
Shear Thinning
16%
Experiment
16%
Hydrocarbon
16%
Environmental Cost
16%
INIS
sandstones
100%
high temperature
100%
polymers
100%
oils
100%
recovery
100%
salinity
100%
gums
100%
water
41%
viscosity
33%
applications
25%
solutions
25%
production
16%
sodium chlorides
16%
cost
16%
shear
16%
increasing
8%
operation
8%
hydraulic fracturing
8%
mobility
8%
drilling fluids
8%
polymer flooding
8%
hydrocarbons
8%
stability
8%
biodegradation
8%
industry
8%
environment
8%
additives
8%
gases
8%
Engineering
Sandstone
100%
Enhanced Oil Recovery
100%
High Temperature
100%
Polymers
100%
Fluid Viscosity
36%
Application
27%
Water
27%
Production
18%
Oil Recovery
18%
Mobility Ratio
9%
Environment
9%
Hydraulic Fracturing
9%
Shear Rate
9%
Fluid
9%
Recovery Factor
9%
Oil
9%
Shear Thinning
9%
Limitations
9%
Drilling
9%
Larger Quantity
9%
Natural Water
9%
Polymer Flooding
9%
Synthetic Polymer
9%
Rheological Property
9%
Applicability
9%
Synthetic Water
9%
Additives
9%
Recovery Process
9%
Environmental Concern
9%
Experiments
9%
Petroleum Industry
9%
Microbial Biodegradation
9%
Thinning Behavior
9%
Temperature
9%
High Cost
9%
Chemical Engineering
Polymer
100%
Temperature
100%
Water
27%
Natural Polymer
18%
Hydrocarbon
9%
Microbial Biodegradation
9%
Polyacrylates
9%
Deionized Water
9%
Synthetic Water
9%
Keyphrases
Guar Gum
100%
High-salinity Reservoirs
33%
Drilling Hydraulics
16%
Guar Polymers
16%
Fluid-driven Fracturing
16%