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New industrial paradigm for design of wind turbine blades - tip and root optimization for increasing power performance
Lønbæk, Kenneth
(PhD Student)
Jamieson, Peter
(Examiner)
Gaunaa, Mac
(Examiner)
Bak, Christian
(Main Supervisor)
Zahle, Frederik
(Supervisor)
Madsen, Jens Ingemann
(Supervisor)
Hjort, Søren
(Examiner)
Department of Wind and Energy Systems
Overview
Fingerprint
Publications
(1)
Project Details
Status
Finished
Effective start/end date
15/09/2017
→
11/02/2021
Funding
Industrial PhD
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Fingerprint
Explore the research topics touched on by this project. These labels are generated based on the underlying awards/grants. Together they form a unique fingerprint.
Aeroelasticity
Keyphrases
100%
Design Optimization
Keyphrases
100%
Optimization Framework
Keyphrases
100%
Semi-analytical
Keyphrases
100%
Wind Turbine Rotor Design
Keyphrases
100%
Rotors
Engineering
100%
Wind Turbine
Engineering
100%
Load Constraints
Keyphrases
75%
Research output
Publications per year
2020
2020
2020
1
Ph.D. thesis
Publications per year
Publications per year
Preliminary Wind Turbine Rotor Design: Semi-Analytical aero-elastic wind turbine rotor design optimization
Lønbæk, K.
,
2020
, Risø, Roskilde, Denmark:
DTU Wind Energy
.
133 p.
Research output
:
Book/Report
›
Ph.D. thesis
Open Access
File
Design Optimization
100%
Aeroelasticity
100%
Semi-analytical
100%
Optimization Framework
100%
Wind Turbine Rotor Design
100%
228
Downloads (Pure)