Engineering
Wind Turbine
100%
Large Eddy Simulation
49%
Boundary Layer
31%
Power Output
25%
Vortex
25%
Good Agreement
24%
Turbulence Intensity
21%
Modeling Wind Turbine
19%
Integral Time Scale
18%
Actuator Disk
16%
Power Production
15%
Energy Engineering
13%
Reynolds-Averaged Navier-Stokes
13%
Rotor Time
13%
Speed Ratio
13%
Body Force
13%
Power Curve
13%
Length Scale
12%
Wake Flow
11%
Streamwise
10%
Actuator Line Method
7%
Turbulent Flow
6%
Computational Fluid Dynamics
6%
Overprediction
6%
Gaussians
6%
Control Strategy
6%
Computational Expense
6%
Constant Amplitude
6%
Full Scale
6%
Blade Tip
6%
Computational Domain
6%
Measurement Data
6%
Periodic Time
6%
Flow Velocity
6%
Velocity Fluctuation
6%
Forcing Frequency
6%
Redirection
6%
Blade Geometry
6%
Blade Root
6%
Flow Field
6%
Fluid-Structure Interaction
6%
Prediction Line
6%
Flow Solver
6%
Scale Measurement
6%
Axisymmetric
6%
Performance Prediction
6%
Turbine Control
6%
Wind Shear
6%
Computational Cost
6%
Airfoil
6%
Keyphrases
Wind Farm
28%
Wind Turbine Wake
26%
Wake Recovery
20%
Entrainment
19%
Large Eddy Simulation
15%
Cross-codes
13%
Wake Behavior
13%
Terrain Change
13%
Turbulent Inflow
13%
Integral Time Scale
10%
Turbulence
9%
Wind-farm Flow
9%
Turbulent Scales
8%
Wind Turbine
7%
Power Output
7%
Vertical Axis Wind Turbine
6%
PhD Students
6%
Substation
6%
LiDAR
6%
Denmark
6%
Large-scale Wind Farm
6%
Scanning LiDAR
6%
Turbulence Intensity
6%
Wake Meandering
6%
Near Wake
6%
Tip Vortex
5%
Earth and Planetary Sciences
Wind Turbine
65%
Timescale
18%
Boundary Layer
16%
Complex Terrain
13%
Optical Radar
6%
Flow Distribution
6%
Near Wakes
6%
Boundary Layer Flow
5%
Scale Model
5%