Control of dual stator induction generator integrated in wind energy conversion system

Year 2017, Volume: 1 Issue: 1, 21 - 31, 04.09.2017

Meryem Benakcha , Leila Benalia Fatima Ameur Djamel Eddine Tourqui

https://doi.org/10.30521/jes.351269

Cited By: 5

https://izlik.org/JA46MB56LT

Abstract

This paper deals with the modeling and the control of a dual stator induction generator (DSIG) integrated into a wind energy conversion system with a variable speed wind turbine. DSIG is increasingly used because of its advantages in better reliability and supply division. It consists of two fixed three-phase stator windings displaced with an electrical angle 𝛼𝛼. To minimize the harmonic distortion (THD), the objective of this work is to study the influence of the angle between these two stator windings on the grid generated current quality. To improve the performance of the system, the proposed control is demonstrated through an illustrative simulation.

Keywords

Dual stator induction generator , Variable speed wind turbine , Field oriented control , Maximum power point tracking (MPPT)

References

• H. Jabbari Asl, J. Yoon, “Power capture optimization of variable-speed wind turbines using an output feedback controller”, Renewable Energy 86, p. 517-525, 2016.
• I. Villanueva, P. Ponce, A. Molina, “Interval Type 2 Fuzzy Logic Controller for Rotor Voltage of a Doubly-Fed Induction Generator and Pitch Angle of Wind Turbine Blades”, IFAC-Papers 48(3), p. 2195–2202, 2015.
• B. Multon, O. Gergaud, H. Ben Ahmed, X. Roboam, S. Astier, B. Dakyo, C. Nikita, “L'électronique de puissance vecteur d'optimisation pour les énergies renouvelables”, Ed. NOVELECT - ECRIN, ISBN : 2-912154-8-1, p. 97-154, 2002.
• F. Bu, W. Huang, Y. Hu, K. Shi, “An Excitation-Capacitor-Optimized Dual Stator-Winding Induction Generator with the Static Excitation Controller for Wind Power Application”, IEEE Transactions on Energy Conversion 26(1), p. 122-131, 2011.
• P. Daoutidis, M. Zachara, S.S Jogwarb, “Sustainability and process control: A survey and perspective”, J. Process Control 44, p. 184–206, 2016.
• A.Boumassata, D. Kerdoun, N. Cherfia, N. Bennecib, “Performance of wind energy conversion systems using a cycloconverter to control a doubly fed induction generator”, Energy Procedia 42, p.143-152, 2013.
• H. Amimeur, D. Aouzellag, R. Abdessemed, K. Ghedamsi, “Sliding mode control of a dual-stator induction forwind energy conversion systems”, Electrical Power and Energy Systems 42, p. 60–70, 2012.
• S. Lekhchine, T. Bahi, Y. Soufi, “Indirect rotor field oriented control based on fuzzy logic controlleddouble star induction machine”, Electrical Power and Energy Systems 57, p. 206–211, 2014.
• S. Chekkal, N. Aouzellag Lahaçani, D. Aouzellag, K. Ghedamsi, “Fuzzy logic control strategy of wind generator based on the dual-stator induction generator”, Electrical Power and Energy Systems 59, p.166–175, 2014.
• A. Tamaarat, A. Benakcha, “Performance of PI controller for control of active and reactive power in DFIG operating in a grid-connected variable speed wind energy conversion system”, Front. Energy 8(3), P. 371–378, 2014.
• K. Bedoud, M. Ali-rachedi, T. Bahi, R. Lakel, “Adaptive Fuzzy Gain Scheduling of PI Controller for control of the Wind Energy Conversion Systems”, Energy Procedia 74, p. 211 – 225, 2015.
• D. Kumar, K. Chatterjee, “A review of conventional and advanced MPPT algorithms for wind energy systems”, Renewable and Sustainable Energy Reviews 55, p. 957–970, 2016.
• H. Labar, N. Zerzouri, M.S. Kelaiaia, “Wind turbine gearbox fault diagnosis based on symmetrical components and frequency domain”, Electr Eng. doi: 10.1007/s00202-015-03407.
• F. Hachicha, L. Krichen, “Rotor power control in doubly fed induction generator wind turbine under grid faults”, Energy 44, p. 853-861, 2016.
• K. Ro, H. Choi, “Application of neural network controller for maximum power extraction of a grid-connected wind turbine system”, Electr Eng 88, p. 45–53, 2005.
• F. Ameur, K. Kouzi, “Genetic Algorithm Optimized PI and Fuzzy Logic peed Vector Control of Dual Stator Induction Generator in Wind Energy Conversion System”, Proceedings of the 3rd International Conference on Systems, Algiers, 29-31 Oct. 2013.
• S. Sünter, H. Altun, “Control of a permanent magnet synchronous motor fed by a direct AC-AC converter”, Electr Eng 87, p. 83–92, 2005.
• Z. Tir, O.P. Malik, M. Eltamaly Ali, “Fuzzy logic based speed control of indirect field oriented controlled Double Star Induction Motors connected in parallel to a single six-phase inverter supply”, Electric Power Systems Research 134, P. 126–133, 2016.
• S. El Aimani, “Modélisation de différentes technologies d'éoliennes intégrées dans un réseau de moyenne tension”, Doctorate Thesis, France, L2EP Central School of Lille, 2004.
• Y. Errami, M. Ouassaid, M. Maaroufi, “Optimal Power Control Strategy of Maximizing Wind Energy Tracking and Different Operating Conditions for Permanent Magnet Synchronous Generator Wind Farm”, Energy Procedia 74, p. 477 – 490, 2015.