Keyphrases
3D Finite Element Analysis
25%
3D numerical Modeling
25%
Analytical Model
21%
Borehole
50%
Carbonate Sand
25%
Clay Subgrade
29%
Climatic Conditions
30%
Conductivity Test
25%
Contact Pressure
25%
Design Temperature
25%
Determination Method
25%
Drivability
25%
Energy pile
100%
Finite Difference
25%
Finite Element Technique
25%
Finite Line Source Model
40%
Foundation Performance
32%
Friction-induced
25%
Geothermal Heat Exchanger
50%
Heat Exchanger
59%
Heat Exchanger pile
75%
Linear Elements
25%
Load-settlement Curve
25%
Long-term Performance
50%
Method Comparison
25%
Microscale Characterization
25%
Nanoindentation
25%
New Austrian Tunneling Method
25%
Numerical Analysis
35%
Numerical Model
54%
Numerical Modeling
75%
Numerical Results
20%
Pile Field
25%
Pile Foundation
32%
Pile Integrity Test
25%
Preconsolidation Pressure
50%
Radial Expansion
25%
Single Tube
20%
Soil Layer
20%
Support System
25%
Temperature Variation
62%
Thermal Conductivity
25%
Thermal Performance
21%
Thermal Strain
28%
Thermal Stress
25%
Thermo-mechanical Stress
25%
Thermomechanical
25%
Two Dimensional
25%
Umbrella Arch Method
25%
Vertical Ground Heat Exchanger
25%
Engineering
Analytical Model
19%
Borehole
25%
Borehole Heat Exchanger
31%
Boundary Condition
18%
Carbonate Sand
25%
Climatic Condition
30%
Computational Effort
12%
Constant Temperature
16%
Contact Pressure
25%
Cross Section
29%
Defects
25%
Dimensional Finite Element Analysis
25%
Discretization
12%
Exchanger
96%
Field Measurement
30%
Finite Element Mesh
25%
Finite Element Method
46%
Finite Line Source Model
40%
Fluid Temperature
12%
Heat Exchange
34%
Heat Exchanger Pile
75%
Heat Rate
16%
Isothermal
25%
Linear Element
25%
Mechanical Stress
25%
Microscale
25%
New Austrian Tunneling Method
25%
Numerical Model
73%
Numerical Modeling
100%
Pile Capacity
17%
Preconsolidation Pressure
50%
Radial Expansion
25%
Raft Foundation
25%
Reference Signal
25%
Settlement Behavior
15%
Signal Data
25%
Soil Layer
14%
Soil Pile
17%
Stress History
12%
Subgrade
29%
Support System
25%
Temperature Change
60%
Term Performance
50%
Testing Method
25%
Thermal Conductivity
25%
Thermal Load
18%
Thermal Performance
25%
Thermal Resistance
12%
Thermal Strain
28%
Two Dimensional
25%