The present master thesis is devoted to the implementation of a bend-twist elastic coupling evaluation procedure which is robust and precise with relatively low computational time. The evaluation process used a 2D cross sectional analysis to divide the rotor blade into several cross sections and derive their properties. Subsequently, the 1D anisotropic finite element method was implemented to create the beam model from the cross sections and calculate the element stiffness. To analyze this beammodel, the aerodynamic loads on the blade were calculated based on the blade element momentum method. Three coupled blade designs were analyzed and compared with an uncoupled reference blade. Several nonlinear loading conditions were studied and as...
Bending-twisting coupling in the composite blades is exploited for load alleviation in the whole tur...
The design of wind turbines is a multidisciplinary process. Most of the codes currently used in indu...
In this paper a quick method for modeling composite wind turbine blades is developed for aeroelastic...
The present master thesis is devoted to the implementation of a bend-twist elastic coupling evaluati...
A design model for optimization of structurally and geometrically bend-twist coupled blades is prese...
This thesis concerns the optimal design of wind turbine blades for bend twist coupling effects. Bend...
With the increasing size of wind turbines and the use of flexible and light materials in aerodynamic...
Material bend-twist coupling has been widely studied in the research community as a passive control ...
The simulation of wind turbines with bend–twist adaptive blades is a coupled aero-structure (CAS) pr...
Wind turbine blades for turbines with large rotor diameter tend to be very flexible in order to rema...
ABSTRACT: Elastic coupling is a feature specific to fiber-reinforced plastic mate-rials, and it is o...
This paper presents some results and aspects of the multidisciplinary and interdisciplinary research...
This work is concerned with the design of wind turbine blades with bend-twist-to-feather coupling th...
The simulation of wind turbines with bend–twist adaptive blades is a coupled aero-structure (CAS) pr...
In this dissertation, structural wind turbine blade layouts are presented that are suitable for 10MW...
Bending-twisting coupling in the composite blades is exploited for load alleviation in the whole tur...
The design of wind turbines is a multidisciplinary process. Most of the codes currently used in indu...
In this paper a quick method for modeling composite wind turbine blades is developed for aeroelastic...
The present master thesis is devoted to the implementation of a bend-twist elastic coupling evaluati...
A design model for optimization of structurally and geometrically bend-twist coupled blades is prese...
This thesis concerns the optimal design of wind turbine blades for bend twist coupling effects. Bend...
With the increasing size of wind turbines and the use of flexible and light materials in aerodynamic...
Material bend-twist coupling has been widely studied in the research community as a passive control ...
The simulation of wind turbines with bend–twist adaptive blades is a coupled aero-structure (CAS) pr...
Wind turbine blades for turbines with large rotor diameter tend to be very flexible in order to rema...
ABSTRACT: Elastic coupling is a feature specific to fiber-reinforced plastic mate-rials, and it is o...
This paper presents some results and aspects of the multidisciplinary and interdisciplinary research...
This work is concerned with the design of wind turbine blades with bend-twist-to-feather coupling th...
The simulation of wind turbines with bend–twist adaptive blades is a coupled aero-structure (CAS) pr...
In this dissertation, structural wind turbine blade layouts are presented that are suitable for 10MW...
Bending-twisting coupling in the composite blades is exploited for load alleviation in the whole tur...
The design of wind turbines is a multidisciplinary process. Most of the codes currently used in indu...
In this paper a quick method for modeling composite wind turbine blades is developed for aeroelastic...