Given the difficulty of accurately setting multiple control parameters in wind turbines, a design method for a pitch controller considering tower load reduction is proposed, which enhances the control performance and reduces both the tower vibration and load. Firstly, the pitch-speed system and the tower fore-aft active damping control are built. In addition, the explicit equation of the tower fore-aft active damping gain is deduced to calculate its initial value. Secondly, the pitch-speed system is identified as an inertial time-delay system using the least squares method. Subsequently, the pitch PI control parameters are set using the Chien–Hrones–Reswick method. Thirdly, the pitch PI control parameters and the tower fore-aft active dampi...
Speed regulation of wind turbine rotors are controlled by pitch angle controllers that aect the life...
The tower is one of the major components in wind turbines with a contribution to the cost of energy ...
We present an application of L1 adaptive output feedback control design to wind turbine collective p...
For wind turbines operating in the full load region, stabilizing the generated power at its nominal ...
A simple superposition method of two separate pitch control loops is adopted in the traditional towe...
Collective pitch control (CPC) and active tower damping control (ATDC) are currently two standard co...
Over the last decades, wind energy is becoming a feasible solution to cope with the growing power de...
In wind turbine engineering, it is a well-known fact that mechanical loading of the structural compo...
The integrated pitch control system of a three-bladed, variable-speed, horizontal-axis large-sized w...
This paper considers how structured H∞-control design based on a given wind spectrum can be used as ...
Wind turbine blade and tower sizes have increased over the last decade, leading to an increase in me...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
With increased wind power penetration in modern power systems, wind turbine generators (WTG) are exp...
We present an application of L1 adaptive output feedback control design to wind turbine collective p...
Vibration in the wind turbine tower disturbs the reliability and increases the possibility of struct...
Speed regulation of wind turbine rotors are controlled by pitch angle controllers that aect the life...
The tower is one of the major components in wind turbines with a contribution to the cost of energy ...
We present an application of L1 adaptive output feedback control design to wind turbine collective p...
For wind turbines operating in the full load region, stabilizing the generated power at its nominal ...
A simple superposition method of two separate pitch control loops is adopted in the traditional towe...
Collective pitch control (CPC) and active tower damping control (ATDC) are currently two standard co...
Over the last decades, wind energy is becoming a feasible solution to cope with the growing power de...
In wind turbine engineering, it is a well-known fact that mechanical loading of the structural compo...
The integrated pitch control system of a three-bladed, variable-speed, horizontal-axis large-sized w...
This paper considers how structured H∞-control design based on a given wind spectrum can be used as ...
Wind turbine blade and tower sizes have increased over the last decade, leading to an increase in me...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
With increased wind power penetration in modern power systems, wind turbine generators (WTG) are exp...
We present an application of L1 adaptive output feedback control design to wind turbine collective p...
Vibration in the wind turbine tower disturbs the reliability and increases the possibility of struct...
Speed regulation of wind turbine rotors are controlled by pitch angle controllers that aect the life...
The tower is one of the major components in wind turbines with a contribution to the cost of energy ...
We present an application of L1 adaptive output feedback control design to wind turbine collective p...