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(2018)
Parameters and states estimation by moving horizon estimation, high gain observer and unscented Kalman filter of a doubly-fed induction generator driven by wind turbine: A comparative study
Jacob Sanjuan, J. Linares-Flores, E. Mendoza, Mario Tlaxcaltecatl (2018)
A sensorless passivity-based control for PMSM2018 International Conference on Electronics, Communications and Computers (CONIELECOMP)
M. Hamida, J. León, A. Glumineau (2017)
Experimental sensorless control for IPMSM by using integral backstepping strategy and adaptive high gain observerControl Engineering Practice, 59
Elhassen Benfriha, A. Mansouri, A. Bendiabdellah, Mourad Boufadene (2019)
Nonlinear adaptive observer for sensorless passive control of permanent magnet synchronous motorJournal of King Saud University: Engineering Sciences
Kamel Kerrouche, A. Mezouar, Kh. Belgacem (2013)
Decoupled Control of Doubly Fed Induction Generator by Vector Control for Wind Energy Conversion SystemEnergy Procedia, 42
Ihedrane Yasmine, El Chakib, Bossoufi Badre (2017)
Power Control of DFIG-Generators for Wind Turbines Variable-SpeedInternational Journal of Power Electronics and Drive Systems, 8
R. Ortega (1998)
Passivity-based control of Euler-Lagrange systems : mechanical, electrical and electromechanical applications
R. Subramaniam, Y. Joo (2021)
Passivity-Based Fuzzy ISMC for Wind Energy Conversion Systems With PMSGIEEE Transactions on Systems, Man, and Cybernetics: Systems, 51
F. Mazouz, Sebti Belkacem, I. Colak, S. Drid, Y. Harbouche (2020)
Adaptive direct power control for double fed induction generator used in wind turbineInternational Journal of Electrical Power & Energy Systems, 114
M. Farza, M. M'Saad, M. Triki, T. Maatoug (2011)
High gain observer for a class of non-triangular systemsSyst. Control. Lett., 60
A. Boualouch, T. Nasser, A. Essadki, A. Boukhriss, Abdellatif Frigui (2017)
A Robust Power Control of a DFIG used in Wind Turbine Conversion SystemInternational Energy Journal, 17
A. Djoudi, H. Chekireb, E. Berkouk (2013)
Robust sliding mode observer/controller of wind energy conversion system based on DFIG3rd International Conference on Systems and Control
A. Benamor, M. Benchouia, K. Srairi, M. Benbouzid (2019)
A new rooted tree optimization algorithm for indirect power control of wind turbine based on a doubly-fed induction generator.ISA transactions, 88
D. Mhamed, A. Ghani, A. Mohamed, T. Ahmed, T. Khalfallah (2016)
Robust Fuzzy Gains Scheduling of RST Controller for a WECS Based on a Doubly-Fed Induction GeneratorAutomatika: Journal for Control, Measurement, Electronics, Computing and Communications, 57
Bo Yang, Tao Yu, H. Shu, Yuming Zhang, Jian Chen, Y. Sang, Lin Jiang (2018)
Passivity-based sliding-mode control design for optimal power extraction of a PMSG based variable speed wind turbineRenewable Energy, 119
Marouane Azzaoui, H. Mahmoudi, Chafik Ed-dahmani (2016)
Backstepping control of a Doubly Fed Induction Generator integrated to wind power system2016 International Conference on Electrical and Information Technologies (ICEIT)
M. Doumi, A. Aissaoui, M. Abid, A. Tahour, K. Tahir (2016)
Robust Fuzzy Gains Scheduling of RST Controller for a WECS Based on a Doubly-Fed Induction GeneratorAutomatika, 57
Jiawei Huang, Hong-hua Wang, Chong Wang (2017)
Passivity-Based Control of a Doubly Fed Induction Generator System under Unbalanced Grid Voltage ConditionsEnergies, 10
Jiawei Chen, Jing Chen, Chunying Gong (2013)
New Overall Power Control Strategy for Variable-Speed Fixed-Pitch Wind Turbines Within the Whole Wind Velocity RangeIEEE Transactions on Industrial Electronics, 60
A. Belabbes, B. Hamane, M. Bouhamida, A. Draou (2012)
Power Control of a Wind Energy Conversion System based on a Doubly Fed Induction Generator using RST and Sliding Mode ControllersRenewable Energy and Power Quality
S. Pang, B. Nahid-Mobarakeh, S. Pierfederici, M. Phattanasak, Y. Huangfu, Guangzhao Luo, F. Gao (2019)
Interconnection and Damping Assignment Passivity-Based Control Applied to On-Board DC–DC Power Converter System Supplying Constant Power LoadIEEE Transactions on Industry Applications, 55
D. Kairous, R. Wamkeue (2012)
DFIG-based fuzzy sliding-mode control of WECS with a flywheel energy storageElectric Power Systems Research, 93
Zoubir Gadouche, C. Belfedal, T. Allaoui, B. Belabbas (2017)
Speed-Sensorless DFIG Wind Turbine for Power Optimization Using Fuzzy Sliding Mode ObserverInternational Journal of Renewable Energy Research
Y. Maanani, A. Menacer, I. Harzelli (2018)
COMPARATIVE STUDY BETWEEN SENSORLESS VECTOR CONTROL AND NONLINEAR CONTROL FOR PMSM BASED ON EXTENDED KALMAN FILTER (EKF)
L. Saihi, F. Ferroudji, B. Berbaoui, Y. Bakou, K. Koussa, F. Meguellati, Khayra Roummani (2019)
Hybrid control based on sliding mode fuzzy of DFIG power associated WECSTECHNOLOGIES AND MATERIALS FOR RENEWABLE ENERGY, ENVIRONMENT AND SUSTAINABILITY: TMREES19
A. Loría, H. Nijmeijer (2021)
Passivity-Based ControlHybrid Feedback Control
R. Salim, A. Mansouri, A. Bendiabdellah, Sofyane Chekroun, Mokhtar Touam (2019)
Sensorless passivity based control for induction motor via an adaptive observer.ISA transactions, 84
Q. Wang, Min Tan, Shu Yang (2014)
A Novel Sliding-Mode Observer for Doubly-Fed Induction GeneratorApplied Mechanics and Materials, 511-512
The current study presents a robust sensorless control using passivity based control (PBC) combined with high gain observer (HGO). The proposed controller is applied to control the generated doubly-fed induction generator (DFIG) active and reactive power installed on a variable speed wind energy conversion system. The control objective is used to regulate independently the DFIG stator active and reactive power, which are decoupled by using the field oriented control technique. Additionally, this process leads to reduce the cost of control scheme by eliminating the speed sensor. Firstly, the DFIG is modeled under the port controlled Hamiltonian (PCH) model, as well as the method of simultaneous injection damping. Then, the DFIG is further modeled by assignment passivity based on the simultaneous injection damping and assignment (SIDA-PBC) control of the obtained model under such conditions and a comparison with the fuzzy sliding mode controller is carried out. Furthermore, the HGO is selected in order to estimate the rotor position and the speed from the measurement of the DFIG currents and voltages, and compared with fuzzy sliding mode observer. For testing the proposed control scheme performance, a 1.5 MW DFIG system is developed and simulated using MATLAB/Simulink. The obtained results demonstrate the effectiveness of the proposed control scheme in the presence of various DFIG parameters variation. Additionally, the control objective is achieved without speed sensor.
Wind Engineering – SAGE
Published: Feb 1, 2023
Keywords: Doubly fed induction generator; passivity based control; port controlled Hamiltonian; high gain observer; the simultaneous injection damping and assignment
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