Blade vibration suppression system for a wind turbine and associated method

The invention claimed is: 1. A blade vibration suppression system for a wind turbine having a plurality of blades, wherein the blade vibration suppression system comprises: at least one actively controlled gyroscopic stabilization system attached to each respective blade at a longitudinal position along the respective blade, wherein the at least one actively controlled gyroscopic stabilization system includes, a gyroscope with a rotation control axis extending in a first direction, a first rigid body control axis extending in a second direction different from the first direction, a second rigid body control axis extending in a third direction different from the first and second directions, and a flywheel rotatable in respect of the rotation control axis and free to move in respect of the first and second rigid body control axes, at least one flywheel drive actuator configured to apply a torque to the gyroscope, and at least one sensor arranged on the respective blade and configured to detect the motions of the respective blade, wherein the blade vibration suppression system further comprises at least one control device in communication with each respective sensor and with each respective at least one flywheel drive actuator, the control device being configured for receiving signals representative of the motion of the each respective blade from each respective sensor and for controlling the actuation of each respective at least one flywheel drive actuator according to said received signals in order to apply at least one controlled torque over the respective gyroscope to generate reaction torques on the respective gyroscope about the required axes that oppose or counteract the detected motions of the respective blade. 2. The blade vibration suppression system according to claim 1 , wherein the flywheel of the at least one gyroscopic stabilization system is free to move in respect of both rigid body control axes, said gyroscopic stabilization system comprising a first flywheel drive actuator of the at least one flywheel drive actuator configured to cause a torque over the gyroscope about the first rigid body control axis and a second flywheel drive actuator of the at least one flywheel drive actuator configured to cause a torque over the gyroscope about the second rigid body control axis, the control device being configured for receiving signals representative of the motion of the corresponding blade from the sensor of said gyroscopic stabilization system and for controlling said first and second flywheel drive actuators to apply a torque over the corresponding gyroscope and about the corresponding axis according to the signals received from said sensor, to suppress unwanted motions of said blade. 3. The blade vibration suppression system according to claim 2 , wherein the flywheels of all the gyroscopic stabilization systems of the blade vibration suppression system of a wind turbine are free to move in respect of both rigid body control axes. 4. The blade vibration suppression system according to claim 1 , wherein at least one of the gyroscopic stabilization systems of the blade vibration suppression system comprises an additional flywheel drive actuator of the at least one flywheel drive actuator configured for actively controlling the rotation speed of the corresponding flywheel in respect of the rotation control axis, the control device being further communicated with said additional flywheel drive actuator and being further configured for controlling the actuation upon the additional flywheel drive actuator according to control said rotation speed. 5. The blade vibration suppression system according to claim 4 , wherein the gyroscopic stabilization system of the blade vibration suppression system comprising the additional flywheel drive actuator further comprises an additional sensor for detecting the rotation speed of the corresponding flywheel in respect of the rotation control axis, said additional sensor being preferably attached to a shaft of said flywheel, said shaft extending in the direction of the rotation control axis. 6. A wind turbine comprising: a plurality of blades and a blade vibration suppression system, wherein the blade vibration suppression system includes a plurality of actively controlled gyroscopic stabilization systems and at least one control device in communication with the plurality of actively controlled gyroscopic stabilization systems of the blade vibration suppression system, wherein each actively controlled gyroscopic stabilization system comprises: a gyroscope attached at a longitudinal position along the blade with a rotation control axis extending in a first direction, a first rigid body control axis extending in a second direction different from the first direction, a second rigid body control axis extending in a third direction different from the first and second directions, and a flywheel rotatable in respect of the rotation control axis and free to move in respect of the rigid body control axes, at least one flywheel drive actuator configured to apply a torque over the gyroscope, and at least one sensor arranged on the corresponding blade and configured to detect the motions of the corresponding blade, wherein the at least one control device is in communication with each respective at least one sensor and with each respective at least one flywheel drive actuator, the at least one control device being configured for receiving signals representative of the motion of the corresponding blade from the respective sensor and for controlling the actuation of the respective at least one flywheel drive actuator according to said received signals in order to generate a counter torque upon the corresponding flywheel to suppress unwanted motions of the corresponding blade. 7. The wind turbine according to claim 6 , wherein the flywheel of the at least one gyroscopic stabilization system is free to move in respect of both rigid body control axes, said gyroscopic stabilization system comprising a first flywheel drive actuator of the at least one flywheel drive actuator associated to the first rigid body control axis and a second flywheel drive actuator of the at least one flywheel drive actuator associated to the second rigid body control axis, the control device being configured for receiving signals representative of the motion of the corresponding blade from the sensor of said gyroscopic stabilization system and for controlling said first and second flywheel drive actuators to apply a torque upon the corresponding flywheel according to the signals received from said sensor, to suppress unwanted motions of said blade. 8. The wind turbine according to claim 7 , wherein the flywheels of all the gyroscopic stabilization systems of the blade vibration suppression system of a wind turbine are free to move in respect of both rigid body control axes. 9. The wind turbine according to claim 6 , wherein at least one of the gyroscopic stabilization systems of the blade vibration suppression system comprises an additional flywheel drive actuator of the at least one flywheel drive actuator configured for actively controlling the rotation speed of the corresponding flywheel in respect of the rotation control axis, the control device being further communicated with said additional flywheel drive actuator and being further configured for controlling the actuation upon the additional flywheel drive actuator in order to control said rotation speed. 10. The wind turbine according to claim 9 , wherein at least one of the gyroscopic stabilization systems of the blade vibration suppression system comprising the additional flywheel drive actuator further comprises an additional sensor for detecting th