Title of article :
DEVELOPMENT OF A STRICT FEEDBACK TWO-MASS HORIZONTAL AXIS WIND TURBINE MODEL WITH EMPIRICAL POWER COEFFICIENT AND EXTERNAL STIFFNESS
Author/Authors :
Kamarudin, Muhammad Nizam Universiti Teknikal Malaysia Melaka - Faculty of Electrical Engineering, Malaysia , Husain, Abdul Rashid Universiti Teknologi Malaysia - Faculty of Electrical Engineering, Malaysia , Ahmad, Mohamad Noh Universiti Teknologi Malaysia - Faculty of Electrical Engineering, Malaysia , Mohamed, Zaharuddin Universiti Teknologi Malaysia - Faculty of Electrical Engineering, Malaysia
Abstract :
For a variable speed wind turbine, the control approach requires the exact dynamical model of such wind turbine to be under controlled. The established wind turbine dynamics neglect the external stiffness as an integrator to the system dynamics is introduced. In addition, many approaches assume a constant value for the coefficient, which is practically not a valid choice. Hence, this paper proposed a strict feedback model of a two-mass wind turbine system that focused on external stiffness, and also embedded empirical power coefficient in the system dynamics. The model represented in this study is a ready-to-be-used form that benefits the control system engineers when the feedback control approaches are taken into account.
Keywords :
Wind turbine , modeling , strict feedback model , power coefficient , tip , speed , rati
Journal title :
Journal of Advanced Manufacturing Technology
Journal title :
Journal of Advanced Manufacturing Technology
