Title :
MPPT for Magnus wind turbines based on cylinders rotation speed
Author :
Correa, L.C. ; Lenz, J.M. ; Ribeiro, C.G. ; Trapp, J.G. ; Farret, Felix Alberto
Author_Institution :
Center of Studies in Energy & Power Syst., Fed. Univ. of Santa Maria, Santa Maria, Brazil
Abstract :
This paper proposes a method to reach the maximum power point of a Magnus wind turbine. Firstly, a special discussion is made about this turbine and its behavior, showing that this turbine is a special case of horizontal axis wind generator, whereas using rotating cylinders instead of fixed blades. Secondly, it is presented an explanation of how some maximum power point trackers (MPPT) can be used with wind energy conversion systems and, specially, the divided step hill climbing search method (HCS). The MPPT method proposed for the Magnus turbine is based on the control of cylinder rotation speed to change the tip speed ratio. Finally, simulation results are presented with the proposed MPPT method applied to a Magnus wind turbine.
Keywords :
AC generators; angular velocity control; maximum power point trackers; power generation control; wind power plants; wind turbines; MPPT method; Magnus wind turbines; cylinder rotation speed; cylinder rotation speed control; divided step HCS method; divided step hill climbing search method; horizontal axis wind generator; maximum power point trackers; rotating cylinders; tip speed ratio; wind energy conversion systems; Blades; Force; Generators; Mathematical model; Maximum power point trackers; Wind speed; Wind turbines; MPPT; Magnus effect; Magnus wind turbines; rotating cylinder;
Conference_Titel :
Power Electronics Conference (COBEP), 2013 Brazilian
Conference_Location :
Gramado
DOI :
10.1109/COBEP.2013.6785156
