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Far offshore wind conditions in scope of wind energy
Maarten Holtslag
Wind Energy
Atmospheric Remote Sensing
Research output
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Thesis
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Dissertation (TU Delft)
492
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Dive into the research topics of 'Far offshore wind conditions in scope of wind energy'. Together they form a unique fingerprint.
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Weight
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Engineering
Wind Turbine
100%
Wind Power
100%
Turbulence
72%
Wind Shear
44%
Atmospheric Condition
38%
Low Level
38%
Performance
38%
Fatigue Load
33%
Offshore Wind Energy
27%
Energy Engineering
27%
Power Production
22%
Characteristics
22%
Evaluation
16%
Wind Turbulence
16%
Research
16%
Boundary Layer
16%
Computer Simulation
11%
Wind Turbines Design
11%
General Framework
11%
Length Scale
11%
Guidelines
5%
Models
5%
Temperature Gradient
5%
Onshore Wind
5%
Blade Root Bending
5%
Measurement
5%
Energy Application
5%
Simple Model
5%
Theoretical Relation
5%
Simulation Software
5%
Energy Resource
5%
Small Scale
5%
Measures
5%
Surface
5%
Energy Performance
5%
Stability Condition
5%
Fields
5%
Bending Moment
5%
Accuracy
5%
Offshore Wind Turbines
5%
Measurement Campaign
5%
Keyphrases
Wind Shear
80%
Low-level Jet
70%
Wind Turbine Performance
60%
Power Production
40%
Atmospheric Stability
40%
Wind Profile
40%
Conservatism
30%
Wind Turbulence
30%
Wind Turbine Fatigue
30%
Stable Conditions
20%
Turbulence Length Scale
20%
Wind Turbine Design
20%
Meteorological Mast
20%
Local Wind
10%
Stability Condition
10%
Offshore Conditions
10%
Wind Model
10%
Measurement Campaign
10%
Offshore Wind Turbine
10%
Wind Power Forecasting
10%
Atmospheric Measurements
10%
Vertical Temperature Gradient
10%
Wind Turbine Simulation
10%
Boundary Layer Wind
10%
Mean Wind Speed
10%
Wind Turbine Blade
10%
Load Estimation
10%
Meteorologist
10%
Turbulence Characteristics
10%
Wind Resource Assessment
10%
Jet Characteristics
10%
Boundary Layer Profile
10%
Blade Root Bending Moment
10%
Wind Turbine Power
10%
Shear Characteristics
10%
Production Load
10%
Subsequent Performance
10%
Maximum Wind Speed
10%
Turbulence Level
10%
Hub Height
10%
Resource Assessment
10%
INIS
energy
100%
wind
100%
wind turbines
52%
turbulence
40%
atmospherics
37%
jets
22%
shear
22%
levels
20%
performance
20%
fatigue
15%
cost
12%
power production
10%
speed
10%
stability
10%
boundary layers
7%
simulation
7%
height
7%
meteorology
7%
kinetic energy
7%
design
5%
coupling
5%
resource assessment
5%
comparative evaluations
5%
data
5%
computerized simulation
5%
length
5%
surfaces
2%
atmospheres
2%
roots
2%
power
2%
temperature gradients
2%
applications
2%
forecasting
2%
north sea
2%
bending
2%
turbine blades
2%
computer codes
2%
accuracy
2%
guidelines
2%
wind power
2%
assessments
2%
engineers
2%
size
2%
modeling
2%
Chemical Engineering
Thermal Gradient
100%