Engineering
Performance
100%
Hydrogen Underground Storage
100%
Productivity
100%
Models
66%
Capillary Number
66%
Subsurface
66%
Cycles
66%
Thickness
33%
Efficiency
33%
Reservoir Characteristic
33%
Operational Parameter
33%
Hydrogen Storage
33%
Gravitational Force
33%
Water
33%
Comparative Study
33%
Bond Number
33%
Viscous Force
33%
Relative Permeability
33%
Enhancement
33%
Capillary Force
33%
Storage
33%
Flow Rate
33%
Porous Medium
33%
Hysteresis Phenomenon
33%
Loss
33%
Saturation Pressure
33%
Renewables
33%
Well Design
33%
INIS
injection
100%
underground
100%
hysteresis
100%
performance
100%
hydrogen storage
100%
capillaries
100%
hydrogen
36%
productivity
27%
curves
27%
permeability
27%
saturation
27%
trapping
27%
aquifers
18%
design
9%
electricity
9%
hypothesis
9%
efficiency
9%
wettability
9%
thickness
9%
porous materials
9%
losses
9%
flow rate
9%
storage
9%
space
9%
competition
9%
hydrocarbons
9%
water
9%
solutions
9%
inclusions
9%
Earth and Planetary Sciences
Impact
100%
Hydrogen
100%
Injection
100%
Capillary Pressure
100%
Permeability
37%
Productivity
37%
Rate
37%
Investigation
25%
Trapping
25%
Cycle
25%
Model
25%
Aquifer
25%
Space Storage
12%
Bond Number
12%
Surface Pressure
12%
Comparative Study
12%
Water
12%
Porous Medium
12%
Behavior
12%
Flow Velocity
12%
Reservoir
12%
Hydrocarbon Reservoir
12%
Dependence
12%
Saturation Curve
12%
Electricity
12%
Loss
12%
Efficiency
12%
Inclusion
12%
Hypothesis
12%
Wettability
12%
Chemical Engineering
Hydrogen
100%
Aquifer
25%
Hydrocarbon
12%
Water
12%
Keyphrases
Capillary Hysteresis
100%
Hydrogen Loss
20%
Hydrogen Saturation
20%