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Wake and wind farm aerodynamics of vertical axis wind turbines
M. Huang
Wind Energy
Research output
:
Thesis
›
Dissertation (TU Delft)
157
Downloads (Pure)
Overview
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Dive into the research topics of 'Wake and wind farm aerodynamics of vertical axis wind turbines'. Together they form a unique fingerprint.
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INIS
aerodynamics
100%
wind turbines
100%
wind farms
100%
actuators
24%
simulation
17%
interactions
17%
recovery
17%
performance
17%
particles
13%
comparative evaluations
13%
images
13%
reynolds number
13%
extraction
13%
navier-stokes equations
10%
power
10%
turbines
10%
wind turbine arrays
10%
vortices
10%
experimental data
10%
distribution
6%
shape
6%
turbine blades
6%
mixing
6%
pitches
6%
floors
6%
control
3%
aspect ratio
3%
increasing
3%
boundary layers
3%
dynamics
3%
operation
3%
width
3%
cylinders
3%
levels
3%
energy
3%
distance
3%
power coefficient
3%
cutting
3%
convection
3%
values
3%
deformation
3%
pitch angle
3%
range
3%
scaling
3%
rotors
3%
speed
3%
energy costs
3%
height
3%
density
3%
topology
3%
velocity
3%
yields
3%
scale models
3%
wind power
3%
physics
3%
cost
3%
water
3%
wind
3%
transport theory
3%
configuration
3%
data
3%
loading
3%
engineering
3%
length
3%
modeling
3%
atmospherics
3%
Engineering
Vertical Axis Wind Turbine
100%
Wind Turbine
100%
Aerodynamics
100%
Models
43%
Deflection
18%
Performance
15%
Recovery
15%
Extraction
12%
Particle Image Velocimetry
12%
Actuators
12%
Reynolds-Averaged Navier-Stokes
9%
Vortex System
9%
Actuator Disk
9%
Turbine
9%
Measurement
6%
Streamwise
6%
Research
6%
Momentum Conservation
6%
Vorticity
6%
Deformation
3%
High Value
3%
Stall Angle
3%
Velocity
3%
Mixing
3%
Floor Effect
3%
Floors
3%
Power Coefficient
3%
Floating Structure
3%
Limitations
3%
High Density
3%
Rotors
3%
Offshore Wind Energy
3%
Cutting Edge
3%
Scaling
3%
Characteristics
3%
Aspect Ratio
3%
Pitch Angle
3%
Enhancement
3%
Speed Ratio
3%
Robotics
3%
Deep Water
3%
Development
3%
Load Distribution
3%
Flow Field
3%
Scale Model
3%
High Reynolds Number
3%
Experiments
3%
Engineering
3%
Superposition
3%
Convection
3%
Low Energy Cost
3%
Boundary Layer
3%
Wind Power
3%
Blade Turbine
3%
High Quality
3%
Zeros
3%
Keyphrases
Analytical Wake Model
6%
Flying Formation
6%
Jensen Model
3%
Wind Turbine Wake Model
3%
Direction Following
3%
Deflection Deformation
3%
Simplified Formulation
3%
Wake Simulation
3%
Wake Superposition
3%
α-gel
3%