Earth and Planetary Sciences
Heat Storage
100%
Temperature
100%
Geometry
100%
Loss
100%
Storage (Process)
100%
Aquifer
100%
Ratio
45%
Condition
36%
Buoyancy-Driven Flow
27%
Thermal Recovery
27%
Volume
27%
Hydraulic Conductivity
18%
Support
18%
Show
9%
Fraction
9%
Investigation
9%
Anisotropy
9%
Contrast
9%
Radii
9%
Assessment
9%
Attitude (Inclination)
9%
Area
9%
INIS
energy storage systems
100%
aquifers
100%
geometry
100%
heat losses
100%
storage
100%
thermal recovery
27%
efficiency
27%
range
27%
energy storage
27%
dispersions
27%
volume
27%
buoyancy
27%
design
18%
energy
18%
simulation
18%
hydraulic conductivity
18%
hydraulics
9%
temperature range
9%
screens
9%
economics
9%
thickness
9%
anisotropy
9%
optimization
9%
interactions
9%
analytical solution
9%
assessments
9%
performance
9%
length
9%
Engineering
Heat Losses
100%
Aquifer Thermal Energy Storage
100%
Thermal Energy Storage System
100%
Driven Flow
37%
Recovery Efficiency
37%
Hydraulics
37%
Volume Ratio
25%
Supports
25%
Energy Engineering
25%
Optimization
12%
Mechanical Dispersion
12%
Determines
12%
High Potential
12%
Design
12%
Temperature Range
12%