Title :
Wind speed estimation based control of Stand-Alone DOIG for wind energy conversion system
Author :
Kaur, Kanwalpreet ; Saha, Tapan K. ; Mahato, S.N. ; Banerjee, Sean
Author_Institution :
Dept. of Electr. Eng., Bengal Coll. of Eng. & Tech, Durgapur, India
fDate :
Feb. 26 2014-March 1 2014
Abstract :
A sensor less wind speed estimation scheme for variable-speed wind turbine generators has been analysed in this paper. Neural network principles are applied for sensor less wind speed estimation. Model of one pitch controlled horizontal axis wind turbine along with DOIG based generation system has been used for this study. The aerodynamic characteristics of the wind turbine are approximated by a radial basis function network based nonlinear input-output mapping. Based on this mapping, the wind speed is estimated from the measured turbine mechanical power, turbine angular speed and pitch angle. The resulting WTG system efficiently and reliably estimates the wind speed without any mechanical anemometers.
Keywords :
aerodynamics; asynchronous generators; neural nets; power engineering computing; power generation control; wind power; wind turbines; aerodynamic characteristics; angular speed; double output induction generator; mechanical power; neural network principles; nonlinear input-output mapping; one pitch controlled horizontal axis; pitch angle; radial basis function network; sensorless wind speed estimation; stand-alone DOIG; variable-speed wind turbine generators; wind energy conversion system; wind speed estimation based control; Blades; Estimation; Generators; Mathematical model; Rotors; Wind speed; Wind turbines; Artificial neural network(ANN); Rradial basis function network (RBFN); Sensor less control; Wind Turbine generator (WTG); Wind energy conversion system (WECS);
Conference_Titel :
Industrial Technology (ICIT), 2014 IEEE International Conference on
Conference_Location :
Busan
DOI :
10.1109/ICIT.2014.6894984
