Keyphrases
Wind Turbine
66%
Dynamic Stall Model
40%
Second-order Dynamics
40%
Fatigue Load
39%
High Angle of Attack
36%
Small Wind Turbine
36%
Vortex Shedding
31%
Wind Energy
31%
Aerodynamics
29%
Dynamic Stall
29%
Inflow Effect
27%
Wind Turbine Aerodynamics
27%
Dynamic Inflow
27%
Rotor
22%
Horizontal Axis Wind Turbine
20%
Wind Turbine Farm
20%
Blade Element Momentum Theory
19%
Wind Turbine Technology
16%
Wind Farm
16%
Negative Damping
15%
Frequency Prediction
15%
Parked Condition
15%
Cost-effective Design
15%
Software Design
15%
Stall Phenomenon
15%
Wind Turbine Blade
15%
Design Futures
15%
Unsteady Vortex
15%
Vibration Frequency
15%
Safety Factor
15%
Turbine Design
15%
Driving Fatigue
15%
Small-scale Turbine
15%
Wind Tunnel
15%
Gust
13%
Tangential Force
13%
Vortex Lift
13%
Pragmatic Model
13%
Lift Force
13%
Load Forecasting
13%
Aerodynamic Loads
13%
Grand Challenges
13%
Force Model
13%
Stall Delay
13%
Measurement Approach
13%
Measurement Modeling
13%
Measurement Design
13%
Turbulent Region
13%
Turbulence
13%
Socio-psychological Aspects
13%
Wind Effects
13%
Wind Turbine Noise
13%
Wind Tunnel Test
13%
International Energy Agency
13%
Psychological Effects
13%
Modeling Approach
13%
Design Approach
13%
Lessons Learned
13%
Engineering Model
9%
Loading History
9%
Combined Influence
9%
Large Wind Turbine
9%
Design Codes
9%
Rural Areas
9%
Three-dimensional (3D)
9%
Aerofoil
9%
Extreme Loads
9%
Current Dynamics
9%
Extreme Loading
9%
Wind Turbine Design
8%
Wind Turbine Wake
8%
Unsteady Aerodynamics
8%
Model Wind Turbine
7%
Turbulent Wind
7%
Social Acceptance
7%
Stall
6%
Oscillating Airfoil
6%
Central Field
6%
Wind Farm Development
6%
Winding Design
6%
Innovation Sustainability
6%
Industry Specialist
6%
Swept Area
6%
Detailed Design
6%
Annual Energy Production
6%
Cutting Speed
6%
Innovation Design
6%
Tunneling Effect
6%
Vertical Axis Wind Turbine
6%
Design Testing
6%
University Students
6%
Expert-based
6%
Performance Measurement
6%
Model Specification
6%
Student Teams
6%
Bachelor
6%
Intermittency
5%
Engineering
Compressed Air Motors
100%
Angle-of-Attack
45%
Vortex Shedding
40%
Fatigue Load
31%
Rotors
28%
Fatigue Loading
24%
Blade Element Momentum
22%
Safety Factor
20%
Negative Damping
20%
Frequency Vibration
20%
Airfoil
20%
Horizontal Axis Wind Turbine
20%
Engineering Model
20%
Transients
18%
Blade Element Momentum Theory
13%
Engineering
13%
Induction Factor
13%
Tangential Force
13%
Force Model
13%
Lift Force
13%
Aerodynamic Load
13%
Vortex
13%
Extreme Loading
13%
Extreme Load
13%
Wind Tunnel Test
13%
Rotor Plane
13%
Induced Velocity
13%
Wind Turbines Design
12%
Design Code
10%
Constant Time
9%
Axial Velocity
9%
Model Fidelity
7%
Field Measurement
6%
Annual Energy Production
6%
Vertical Axis Wind Turbine
6%
Collected Data
6%
Construction Design
6%