Keyphrases
Low Temperature
100%
Storage Conditions
100%
Thermal Recovery Efficiency
100%
Aquifer Thermal Energy Storage System
100%
Groundwater Flow
50%
Aquifer Thermal Energy Storage
37%
Well Screen
25%
Ambient Flow
25%
Thermal Radius
25%
Analytical Approach
12%
Groundwater
12%
Flow Velocity
12%
Range of Values
12%
Energy Saving
12%
Aquifer
12%
Space Heating
12%
Analytical Expression
12%
Process Controlling
12%
Space Cooling
12%
Heat Loss
12%
Volume Ratio
12%
Hydrogeological Conditions
12%
Storage Study
12%
Overall Energy
12%
Storage Volume
12%
Groundwater Flow Velocity
12%
Value Sensitive Design
12%
Conduction Losses
12%
Efficiency Decrease
12%
Energy Storage Design
12%
Stored Thermal Energy
12%
Displacement Loss
12%
Thermal Energy Losses
12%
Sustainable Space
12%
Engineering
Recovery Efficiency
100%
Low-Temperature
100%
Aquifer Thermal Energy Storage
100%
Thermal Energy Storage System
100%
Flow Velocity
25%
Thermal Energy
25%
Energy Dissipation
12%
Simulation Result
12%
Main Process
12%
Space Heating
12%
Energy Conservation
12%
Heat Losses
12%
Conduction Loss
12%
Optimal Design
12%
Principal Factor
12%
Analytical Approach
12%
Main Parameter
12%
Design Value
12%
Volume Ratio
12%
Systematic Analysis
12%
Increasing Surface Area
12%
Earth and Planetary Sciences
Heat Storage
100%
Thermal Recovery
100%
Groundwater Flow
62%
Flow Velocity
25%
Thermal Energy
25%
Surface Area
12%
World System
12%
Energy Dissipation
12%