Keyphrases
Silica
100%
Brine System
100%
Methylene Blue
100%
Wetting Characteristics
100%
Hydrogen Underground Storage
100%
Underground H2 Storage
57%
Wettability
42%
Fossil Fuels
28%
Containment
28%
Water Wetting
28%
H2 Storage
28%
Storage Capacity
28%
Organic Acids
28%
Rock Wettability
28%
Wastewater
14%
Environmentally Friendly
14%
Pollution
14%
Nanofluid
14%
Geological Formation
14%
Contact Angle Measurement
14%
Volatility
14%
Geological Storage
14%
Carbon Dioxide Emissions
14%
Carbon-based
14%
Injection Rate
14%
Compressibility
14%
Earth Surface
14%
Methyl Orange
14%
Large-scale Storage
14%
Environmental Sustainability
14%
Anthropogenic CO2
14%
Chemical Agents
14%
Stearic Acid
14%
Underground Reservoir
14%
Large-scale Implementation
14%
Global Energy Demand
14%
Sustainable Option
14%
Withdrawal Rate
14%
Sandstone Formation
14%
Chemical Injection
14%
Earth and Planetary Sciences
Geological Storage
100%
Methylene Blue
100%
Wettability
71%
Organic Acid
28%
Fossil Fuel
28%
Carboxylate
28%
Carboxylic Acid
28%
Compressibility
14%
Earth Surface
14%
Carbon Dioxide Emission
14%
Energy Demand
14%
Stearate
14%
Engineering
Hydrogen Storage
100%
Geological Hydrogen Storage
100%
Storage Capacity
33%
Fossil Fuel
33%
Contact Angle Measurement
16%
Injection Rate
16%
Strongly Water
16%
Global Energy Demand
16%
Demonstrates
16%
Determines
16%
Satisfies
16%
Nanofluid
16%
Rock Storage
16%
Compressibility
16%
Underground Reservoirs
16%
Chemical Engineering
Carboxylic Acid
100%
Organic Acid
100%
Stearic Acid
50%
Carbon Dioxide
50%
Angle Measurement
50%