Coupling between bending and twist has a significant influence on the aeroelastic response of wind turbine blades. The coupling can arise from the blade geometry (e.g. sweep, prebending, or deflection under load) or from the anisotropic properties of the blade material. Bend–twist coupling can be utilized to reduce the fatigue loads of wind turbine blades. In this study the effects of material-based coupling on the aeroelastic modal properties and stability limits of the DTU 10 MW Reference Wind Turbine are investigated. The modal properties are determined by means of eigenvalue analysis around a steady-state equilibrium using the aero-servo-elastic tool HAWCStab2 which has been extended by a beam element that allows for fully cou...
Bending-twisting coupling in the composite blades is exploited for load alleviation in the whole tur...
Wind turbine blades are complex structures and, despite advancements in analysis techniques, differe...
In the present study results of a modal test campaign involving four identical rotor blades of 20 m ...
AbstractThe effects of bend–twist coupling on the aeroelastic modal properties and stability limits ...
A preliminary method has been provided in designing composite blades, with requirement to meet the u...
A preliminary method has been provided in designing composite blades, with requirement to meet the u...
Wind turbine blades for turbines with large rotor diameter tend to be very flexible in order to rema...
This thesis concerns the optimal design of wind turbine blades for bend twist coupling effects. Bend...
Material bend-twist coupling has been widely studied in the research community as a passive control ...
This paper presents some results and aspects of the multidisciplinary and interdisciplinary research...
The implementation of bend-twist coupling effect on wind turbine blades on the structural performanc...
This paper reviews issues related to the use of aeroelastic tailoring as a cost-effective, passive m...
Over the last years, bend-twist coupling (BTC) has become one of the most important passive load red...
The correct prediction of flexo-torsional deformation is of capital importance for the future develo...
The present master thesis is devoted to the implementation of a bend-twist elastic coupling evaluati...
Bending-twisting coupling in the composite blades is exploited for load alleviation in the whole tur...
Wind turbine blades are complex structures and, despite advancements in analysis techniques, differe...
In the present study results of a modal test campaign involving four identical rotor blades of 20 m ...
AbstractThe effects of bend–twist coupling on the aeroelastic modal properties and stability limits ...
A preliminary method has been provided in designing composite blades, with requirement to meet the u...
A preliminary method has been provided in designing composite blades, with requirement to meet the u...
Wind turbine blades for turbines with large rotor diameter tend to be very flexible in order to rema...
This thesis concerns the optimal design of wind turbine blades for bend twist coupling effects. Bend...
Material bend-twist coupling has been widely studied in the research community as a passive control ...
This paper presents some results and aspects of the multidisciplinary and interdisciplinary research...
The implementation of bend-twist coupling effect on wind turbine blades on the structural performanc...
This paper reviews issues related to the use of aeroelastic tailoring as a cost-effective, passive m...
Over the last years, bend-twist coupling (BTC) has become one of the most important passive load red...
The correct prediction of flexo-torsional deformation is of capital importance for the future develo...
The present master thesis is devoted to the implementation of a bend-twist elastic coupling evaluati...
Bending-twisting coupling in the composite blades is exploited for load alleviation in the whole tur...
Wind turbine blades are complex structures and, despite advancements in analysis techniques, differe...
In the present study results of a modal test campaign involving four identical rotor blades of 20 m ...