Open AccessWind Turbine Control based on MRAS Methodology
Author(s) -
Abdel Ghani Aissaoui,
Ahmed Tahour,
İlhami Çolak,
Najib Essounbouli,
M. Abid
Publication year - 2021
Publication title -
international journal of mathematics and computers in simulation
Language(s) - English
Resource type - Journals
ISSN - 1998-0159
DOI - 10.46300/9102.2021.15.6
Subject(s) - mras , controller (irrigation) , control engineering , turbine , wind power , computer science , flexibility (engineering) , control theory (sociology) , adaptive control , engineering , control (management) , artificial intelligence , vector control , voltage , induction motor , electrical engineering , biology , mechanical engineering , agronomy , statistics , mathematics
The use of renewable energies has increased in these last decades. The wind energy attracts more attention of several research studies. The control of the power generated by the wind turbine is very complicated. It requires the application of new techniques of control. This paper presents an application of Model reference adaptive system (MRAS) in the control of wind turbine power. The structure of the proposed MRAS consists of Neuro fuzzy (NF) controller and an adaptive system based on sliding mode controller (SMC). The use of NF and SMC methodologies is very interest and it allows improving the performances of the system control. The NF has the advantages of expert knowledge of the fuzzy inference system and the learning capabilities of neural networks. The use of SMC gives more flexibility to the adaptive system. According to digital simulation results, the designed MRAS-NF-SMC controller provides a good dynamic behaviour, and an excellent tracking of the requested trajectory