Multivariable input-output linearization sliding mode control of DFIG based wind energy conversion system
In this paper, obtaining of maximum active and reactive output power for wind turbines equipped with a double fed induction generator using stator-flux-oriented vector control based on novel multivariable input output linearization sliding mode control presented. The main control problem is the esti...
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| Published in | 2013 9th Asian Control Conference (ASCC) pp. 1 - 6 |
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| Main Authors | , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.06.2013
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| Subjects | |
| Online Access | Get full text |
| ISBN | 9781467357678 1467357677 |
| DOI | 10.1109/ASCC.2013.6606347 |
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| Abstract | In this paper, obtaining of maximum active and reactive output power for wind turbines equipped with a double fed induction generator using stator-flux-oriented vector control based on novel multivariable input output linearization sliding mode control presented. The main control problem is the estimation of maximum power operating points of wind turbine under stochastic wind velocity profiles and tracking them using conventional offline and innovative adaptive online method. In this control strategy the wind speed and consequent aerodynamics torque is considered as the disturbance. Results under different operating conditions show the superior performance of the proposed online input-output linearization sliding mode technique. |
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| AbstractList | In this paper, obtaining of maximum active and reactive output power for wind turbines equipped with a double fed induction generator using stator-flux-oriented vector control based on novel multivariable input output linearization sliding mode control presented. The main control problem is the estimation of maximum power operating points of wind turbine under stochastic wind velocity profiles and tracking them using conventional offline and innovative adaptive online method. In this control strategy the wind speed and consequent aerodynamics torque is considered as the disturbance. Results under different operating conditions show the superior performance of the proposed online input-output linearization sliding mode technique. |
| Author | Shamsaddinlou, Ali Tohidi, Akbar Sedigh, Ali Khaki |
| Author_xml | – sequence: 1 givenname: Akbar surname: Tohidi fullname: Tohidi, Akbar email: akbar.tohidi@iaupmogan.ac.ir organization: Fac. of Electr. Eng, K.N. Toosi Univ. of Technol., Tehran, Iran – sequence: 2 givenname: Ali surname: Shamsaddinlou fullname: Shamsaddinlou, Ali email: ali.shamsaddinlou@yahoo.com organization: Fac. of Electr. Eng, K.N. Toosi Univ. of Technol., Tehran, Iran – sequence: 3 givenname: Ali Khaki surname: Sedigh fullname: Sedigh, Ali Khaki email: sedigh@kntu.ac.ir organization: Fac. of Electr. Eng, K.N. Toosi Univ. of Technol., Tehran, Iran |
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| Snippet | In this paper, obtaining of maximum active and reactive output power for wind turbines equipped with a double fed induction generator using... |
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| SubjectTerms | Adaptive Online Estimator DFIG Based Wind Turbine Generators Multivariable Input-Output linearization Rotors Sliding Mode Sliding mode control Stators Torque Wind speed Wind turbines |
| Title | Multivariable input-output linearization sliding mode control of DFIG based wind energy conversion system |
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