Title :
Improved drive-train and blade fatigue mitigation in flexible wind turbines using disturbance utilization control
Author :
Parker, Glenn A. ; Johnson, C.D.
Author_Institution :
Huntsville Res. Lab., Georgia Tech Res. Inst., Huntsville, AL, USA
Abstract :
Modern wind turbines are experiencing rapid growth in both physical size and rated capacity. As wind turbines grow larger with necessarily lighter construction materials, dampening flexible modes with active control becomes more critical. In this paper we apply the theory of ldquodisturbance utilization controlrdquo (DUC) to a 600 kW upwind machine to dampen drive-train torsion and blade flap while regulating generator speed. We show that positive ldquoutilityrdquo exists in turbulent wind inflow, and we demonstrate that the optimal DUC controller achieves decreased pitch actuator demand and improved drive-train and blade fatigue life through dampening of torsion oscillation and blade flap.
Keywords :
optimal control; power transmission (mechanical); power transmission control; torsion; wind turbines; active control; blade fatigue mitigation; blade flap; construction material; disturbance utilization control; drivetrain torsion; flexible mode; flexible wind turbine; optimal DUC controller; pitch actuator demand; upwind machine; Automatic control; Blades; Computational modeling; Failure analysis; Fatigue; Laboratories; Mathematical model; Optimal control; Performance analysis; Wind turbines;
Conference_Titel :
Control and Automation, 2009. MED '09. 17th Mediterranean Conference on
Conference_Location :
Thessaloniki
Print_ISBN :
978-1-4244-4684-1
Electronic_ISBN :
978-1-4244-4685-8
DOI :
10.1109/MED.2009.5164723
