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Iterative data-driven load control for flexible wind turbine rotors
Sachin Navalkar
Team Raf Van de Plas
Research output
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Thesis
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Dissertation (TU Delft)
151
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Dive into the research topics of 'Iterative data-driven load control for flexible wind turbine rotors'. Together they form a unique fingerprint.
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Engineering
Basis Function
33%
Computational Complexity
33%
Control Action
16%
Control Design
16%
Control Law
33%
Control Structure
16%
Controller Gain
16%
Controller Structure
16%
Conventional Method
16%
Design Space
16%
Direct Approach
33%
Drives
16%
Energy Engineering
33%
Experiments
33%
Feedforward
50%
Flaps
50%
Flexible Rotor
66%
Frequency Region
16%
Good Performance
16%
High Degree
16%
Load Control
100%
Low Wind Speed
16%
Material Cost
16%
Models
16%
Norms
50%
Peak Load
16%
Pitch Control
50%
Recursive
50%
Reduction
33%
Rotors
100%
Step Approach
33%
Supports
16%
Systems Dynamics
16%
Tunnels
16%
Turbine
100%
Wind Power
16%
INIS
actuators
6%
algorithms
3%
approximations
3%
asymmetry
3%
azimuth
3%
capture
3%
complement
3%
control
100%
cost
6%
damping
3%
data
100%
design
3%
dynamics
6%
economics
3%
energy
10%
energy sources
3%
feedback
20%
gain
13%
hands
3%
implementation
3%
iterative methods
100%
levels
3%
noise
3%
norm
10%
operation
3%
peak load
3%
performance
10%
periodicity
3%
pitches
17%
range
3%
reduction
6%
reviews
3%
rotors
100%
schedules
6%
signals
3%
simulation
3%
size
3%
space
3%
spectra
3%
speed
10%
stabilization
3%
suppression
3%
synthesis
3%
tracks
3%
tuning
27%
turbines
24%
viability
3%
wind
24%
wind tunnels
3%
wind turbines
100%
yields
3%