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Control of a drag power kite over the entire wind speed range
Florian Bauer
, Daniel Petzold
,
Ralph M. Kennel
, Filippo Campagnolo
, Roland Schmehl
Chair of High-Power Converter Systems
Technical University of Munich
Delft University of Technology
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Scopus citations
Overview
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Keyphrases
Wind Speed
100%
Speed Range
100%
Power Kite
100%
Drag Power
100%
Control Scheme
66%
Tangential Force
66%
Speed Controller
66%
Powertrain
66%
Flight Speed
66%
Controller
33%
Force Control
33%
Actuator
33%
Figure-of-eight
33%
Plant Model
33%
Power Mean
33%
Nonlinearity
33%
Power Constraint
33%
Speed Limit
33%
Actuator Constraints
33%
Aerodynamic Model
33%
Nominal Power
33%
Control Allocation
33%
Force Actuator
33%
Temperature Controller
33%
Point Mass Model
33%
High Wind Speed
33%
Centripetal Force
33%
Airborne Wind Turbine
33%
Force Constraints
33%
Force Demand
33%
Engineering
Simulation Result
100%
Speed Controller
100%
Powertrain
100%
Control Scheme
100%
Tangential Force
100%
Actuator
100%
Good Match
50%
Aerodynamic Model
50%
Nominal Power
50%
Temperature Controller
50%
High Wind Speed
50%
Point Mass Model
50%
Centripetal Force
50%
Nonlinearity
50%
Compressed Air Motors
50%
Force Control
50%