INIS
soils
100%
wind turbines
100%
foundations
100%
modeling
100%
piles
85%
stiffness
64%
design
42%
soil-structure interactions
25%
dynamics
17%
strains
17%
accuracy
14%
damping
10%
steels
10%
springs
10%
capture
10%
fatigue
10%
cost
10%
wind
10%
kernels
10%
length
10%
towers
10%
mimic
7%
energy
7%
simulation
7%
geometry
7%
thickness
7%
yields
7%
cones
7%
physics
7%
wind farms
7%
engineering
7%
hydraulics
3%
electricity
3%
reaction mechanisms
3%
rotation
3%
installation
3%
turbines
3%
shells
3%
capacity
3%
accumulation
3%
applications
3%
risks
3%
damage
3%
curves
3%
range
3%
excitation
3%
interest rate
3%
optimization
3%
interactions
3%
exercise
3%
speed
3%
output
3%
monitoring
3%
comparative evaluations
3%
energy dissipation
3%
degrees of freedom
3%
energy sources
3%
climatic change
3%
wind power
3%
site characterization
3%
capital costs
3%
disturbances
3%
tuning
3%
shores
3%
sensors
3%
walls
3%
humans
3%
steady-state conditions
3%
loading
3%
depth
3%
inclusions
3%
added mass effect
3%
Keyphrases
Seismic 3D
100%
Stratified Soil
50%
Static Response
33%
Local Method
33%
1D Design
16%
Keff
16%
Ceff
16%
Restoring Force
16%
Steel Fatigue
16%
Subgrade Modulus
16%
Accurate Method
16%
Empirical Tuning
16%
Total Capital Cost
16%
Wind-generated Electricity
16%
Fatigue Limit State
16%
Seismic Cone Penetration Test
16%
Damping Frequency
16%
Site Characterization
16%
Global Energy Mix
16%
Intuitive Representation
16%
Effective Damping
16%
Design Check
16%
Elastic Continuum
16%
Steel Shell
16%
Local Stiffness
16%
Engineering
Stratified Soil
20%
Subgrade Modulus
6%
Steel Shell
6%
Design Check
6%