DC-bus voltage control of self-excited induction generator for variable-speed wind turbine generation including dynamic saturation

• Autorzy: Abdelhamid Zabouri , Mohamed Chenafa , Khalfallah Naima , Yacine Bendjeddou , Abderrahmen Kacimi , Boufadene Mourad

Identyfikatory

DOI

10.15199/48.2023.11.28

Warianty tytułu

PL

Sterowanie napięciem szyny DC samowzbudnego generatora indukcyjnego do generacji turbin wiatrowych o zmiennej prędkości, w tym dynamiczny Nasycenie

• Języki publikacji: EN

Abstrakty

EN

The presented paper proposes a linear polynomial controller that demonstrates robustness against parameter uncertainties when used for voltage-oriented control of the id and iq currents in a squirrel cage induction generator. The control approach maintains generated voltage at a steady-state regime, even in the presence of disturbances, through the identification of the magnetic curve. The controller's efficacy is evaluated under various speed and load torque variations through simulation using MATLAB/SIMULINK. The obtained results highlight the effectiveness of the proposed approach in improving wind turbine efficiency, making it a promising solution for DC micro grid applications.

PL

W prezentowanej pracy zaproponowano liniowy wielomianowy regulator, który wykazuje odporność na niepewność parametrów, gdy jest używany do zorientowanego na napięcie sterowania prądami id i iq w klatkowym generatorze indukcyjnym. Podejście kontrolne utrzymuje generowane napięcie w stanie ustalonym, nawet w obecności zakłóceń, poprzez identyfikację krzywej magnetycznej. Skuteczność sterownika jest oceniana przy różnych zmianach prędkości i momentu obciążenia poprzez symulację przy użyciu MATLAB/SIMULINK. Uzyskane wyniki podkreślają skuteczność proponowanego podejścia w poprawie wydajności turbin wiatrowych, co czyni je obiecującym rozwiązaniem dla zastosowań w mikrosieciach prądu stałego.

Słowa kluczowe

EN

RST robust; SESC-IG; PLL; PI controller

PL

RST robust; SESC-IG; PLL; PI kontroler

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2023
• Tom: R. 99, nr 11
• Strony: 163--169
• Opis fizyczny: Bibliogr. 17 poz., rys., tab.

Twórcy

autor

Abdelhamid Zabouri

• Department of electrical engineering, national polytechnic High school, Automation laboratory and systems analysis (LAAS), maurice audin-oran BP 1523 el’m’naouer,oran, (Algeria)

autor

Mohamed Chenafa

• Department of electrical engineering, national polytechnic High school, Automation laboratory and systems analysis (LAAS), maurice audin-oran BP 1523 el’m’naouer,oran, (Algeria)

autor

Khalfallah Naima

• Department of electrical engineering, national polytechnic High school, Automation laboratory and systems analysis (LAAS), maurice audin-oran BP 1523 el’m’naouer,oran, (Algeria)

autor

Yacine Bendjeddou

• Département de Génie Electrique, Ecole Supérieure en Génie Electrique et Energétique d’Oran, Laboratoire de Génie Electrique et Matériaux, 31000 Bir El Djir, (Algeria)

autor

Abderrahmen Kacimi

• Department of electrical engineering, Automation laboratory and systems analysis (LAAS), Institute of Maintenance and Industrial Safety, University of Oran 2 Mo-hamed Ben Ahmed, B.P 170, ElM’Naouer 31000, Oran (Algeria)

autor

Boufadene Mourad

• Department of Electrical Engineering, High School of Applied Science (ESSA), Lycee Emir Abdelkqder Bab El Oued, (Alger)

Bibliografia

• [1] Yang, Han, Jin Chen, and Xiaoping Pang. "Wind turbine optimization for minimum cost of energy in low wind speed areas considering blade length and hub height." Applied Sciences 8.7 (2018): 1202.
• [2] Ghanim, Ammar Shamil, and Ahmed Nasser B. Alsammak. "Modelling and Simulation of Self-Excited Induction Generator Driven by a Wind Turbine." Восточно-Европейский журнал передовых технологий 6.8 (2020) : 6-16.
• [3] Domínguez-García, José Luis, et al. "Indirect vector control of a squirrel cage induction generator wind turbine." Computers & Mathematics with Applications 64.2 (2012): 102-114.
• [4] Bašić, Mateo, Dinko Vukadinović, and Miljenko Polić. "Fuzzy DC-voltage controller for a vector controlled stand-alone induction generator." order 1 (2013): 2.
• [5] Ramos, Thales, et al. "Slip control of a squirrel cage induction generator driven by an electromagnetic frequency regulator to achieve the maximum power point tracking." Energies 12.11 (2019): 2100.
• [6] Bašić, Mateo, et al. "Sensorless maximum power control of a stand-alone squirrel-cage induction generator driven by a variable-speed wind turbine." Journal of Electrical Engineering & Technology 16 (2021): 333-347
• [7] Abdelli, Radia, et al. "Application and Comparison of Different Control Strategies of Induction Generator in Wind Energy Conversion System." 2019 7th International Renewable and Sustainable Energy Conference (IRSEC). IEEE, 2019.
• [8] Oussama Abdessemad, Ahmed Lokmane Nemmour, Lamri Louze, Abdelmalek Khezzar (2021), ‘Real-Time Implementation of a Novel Vector Control Strategy for a Self-Excited Asynchronous Generator Driven by a Wind Turbine’, journal européenne des systèmes automatisés, vol.54, No. 2, pp.235- 241.
• [9] Mohammed M. Khalaf, Amer M. Ali (2021), ‘PERFORMANCE AS-SESS OF SELF-EXCITED IG DRIVEN BY WIND TURBINE WORKING WITH FC-TCR’, Journal of Engineering and Sustainable Development, Vol. 25, No. 05, pp. 2520-0917.
• [10] Xiong, Liansong, et al. "PLL-Free Voltage Oriented Control Strategy for Voltage Source Converters Tied to Unbalanced Utility Grids." Frontiers in Energy Research (2022): 806.
• [11] Amieur, Toufik, Djamel Taibi, and Oualid Amieur. "Voltage oriented control of self-excited induction generator for wind energy system with MPPT." AIP Conference Proceedings. Vol. 1968. No. 1. AIP Publishing LLC, 2018.
• [12] Bendjeddou, Yacine, et al. "Super twisting sliding mode approach applied to voltage orientated control of a stand-alone induction generator." Protection and Control of Modern Power Systems 6.1 (2021): 18.
• [13] Morfín, Onofre A., et al. "The squirrel-cage induction motor model and its parameter identification via steady and dynamic tests." Electric Power Components and Systems 46.3 (2018): 302-315.
• [14] Levi, E. "Modelling of saturated induction machines using flux linkages as state variables." Proceedings of the International Power Engineering Conference IPEC. Vol. 95. 1995.
• [15] Ors, Marton. "Voltage control of a self-excited induction generator." 2008 IEEE International Conference on Automation, Quality and Testing, Robotics. Vol. 3. IEEE, 2008.
• [16] H. Gharsallaoui, M. Ayadi, M. Benrejeb and P. Borne (2009), ‘Flatness-based Control and Conventional RST Polynomial Control of a Thermal Process’, Int. J. of Computers, Communications & Control, vol. IV, no. 1, pp. 41-56.
• [17] Senoussaoui, Abderrahmene, et al. "LQGi/LTR controller with integrators and feedforward controller applied to a Twin Rotor MIMO System." Przegląd Elektrotechniczny 97 (2021).