International Journal of Renewable Energy Research-IJRER

This paper presents the wind energy conversion system with a variable speed of wind turbine connected to the grid based on the dual stator induction generator (DSIG) which is controlled by backstepping technique approach. DSIG is increasingly used because of its advantages as better reliability and supply division. DSIG consists of two fixed three-phase stator windings which necessitates having in parallel two converters with a displaced angle of 30° between the two sources and being controlled at the same time. The use of the classical PI regulators has shown some limitations in their synthesis. Due to this down side, the aim of this work  is to apply the backstepping technique for replacing the PI controller into a field oriented control (FOC) structure. The backstepping technique is a systematic and recursive method of synthesis of nonlinear control laws from the Lyapunov functions which ensure step by step the stabilization of each synthesis step. With this algorithm, the feedback control law is constructed to control the power produced from the wind energy. The effectiveness of the proposed control is demonstrated through an illustrative simulation.

R. Aubrée, F. Auger, M. Macé, L. Loron, “Design of an efficient small wind-energy conversion system with an adaptive sensorless MPPT strategyâ€, Renewable Energy, vol. 86, pp. 280-291, 2016.

A. Gaillard, “Système éolien basé sur une MADA: contribution à l’étude de la qualité de l’énergie électrique et de la continuité de serviceâ€, Doctorate Thesis, Henri Poincaré university, Nancy-I. 2010.

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 systemâ€, Front. Energy, vol. 8, no.3, pp. 371–378, 2014.

E. Aydin, A. Polat, L.T. Ergene,“Vector control of DFIG in wind power applicationsâ€, IEEE International Conference on Renewable Energy Research and Applications (ICRERA), doi :10.1109/ICRERA.2016.7884383, pp. 478-483, 23 Nov 2016.

P. Daoutidis, M. Zachar, S. Jogwar, “Sustainability and process control: A survey and perspectiveâ€, Journal of Process Control, vol. 44, pp.184–206, 2016.

M. Doumi, I. Colak , A. G. Aissaoui, M. Abid, A. Tahour, “Robust MRAC for a wind turbine based on a doubly-fed induction generatorâ€, IEEE 6th International Conference on Renewable Energy Research and Applications (ICRERA), doi:10.1109/ ICRERA. 2017.8191236, pp. 1160-1165. 8 Nov 2017.

K. Bedoud, M. Ali-rachedi, T. Bahi, R Lakel, “Adaptive Fuzzy Gain Scheduling of PI Controller for control of the Wind Energy Conversion Systemsâ€, Energy Procedia, vol. 74, pp. 211 – 225, 2015.

G. Brando, A. Del Pizzo, P. Di Noia Luigi, S. Meo, “ Second order variable structure control for wind turbine PMSG-based and generator-side converter systemâ€, IEEE International Conference on Renewable Energy Research and Applications (ICRERA), doi:10.1109/ ICRERA.2017.8191169, pp.797-801, 8. Nov 2017.

K. Kajiwara, S. Kuboyama, T. Higuchi, J.W. Kolar, F. Kurokawa, “A new digital current control AC-DC converter for wind turbineâ€, IEEE International Conference on Renewable Energy Research and Applications (ICRERA) doi:10.1109/ ICRERA. 2016.7884429, pp.726-729, 23 Nov 2016.

H. Amimeur, D. Aouzellag, R. Abdessemed, K. Ghedamsi, “Sliding mode control of a dual-stator inductionFor wind energy conversion systemsâ€, Electrical Power and Energy Systems, vol. 42, 60–70, 2012.

F. Ameur, K. Kouzi, “Genetic Algorithm Optimized PI and Fuzzy Logic speed Vector Control of Dual Stator Induction Generator in Wind Energy Conversion Systemâ€, Proceedings of the third International Conference on Systems, Algiers, 29-31 October, 2013.

S. Basak, C. Chakraborty, A. K. Sinha, “Dual Stator Induction Generator with Controllable Reactive Power Capabilityâ€, 23rd International Symposium on Industrial Electronics (ISIE),IEEE. 2014.

S. Chekkal, N. Aouzellag Lahaçani, D. Aouzellag, K. Ghedamsi, “Fuzzy logic control strategy of wind generator based on the dual-stator induction generatorâ€, Electrical Power and Energy Systems, vol. 59, pp. 166–175, 2014.

F. Bu,Y. Hu ,W. Huang, S. Zhuang, K. Shi, “Wide-Speed-Range-Operation Dual Stator-Winding Induction Generator DC Generating System for Wind Power Applicationsâ€, IEEE Transactions on Power Electronics, vol.30, no.2, February 2015.

S. Lekhchine, T. Bahi, Y. Soufi, “Indirect rotor field oriented control based on fuzzy logic controlled double star induction machineâ€, Electrical Power and Energy Systems, vol. 57, pp. 206–211. 2014.

S. Elmetennani, T.M. Laleg-Kirati, M. D. Tadjine, “New MPPT algorithm for PV applications based on hybrid dynamical approachâ€, Journal of Process Control, vol. 48, pp. 14–24, 2016.

D. Pan, F. Wang, “Modeling and Simulation of Fuzzy Control System for Dual Stator Winding Induction Generatorâ€, Proceeding of International Conference on Electrical Machines and Systems, Seoul, Korea, 8-11 Oct, 2007.

S. Mensou, A. Essadki, T. Nasser, B. Bououlid Idrissi, “An Efficient Nonlinear Backstepping Controller Approach of a Wind Power Generation System Based on a DFIGâ€, International Journal of renewable Energy Research, Vol.7, No.4, 2017.

A. Elmansouri, J. El mhamdi, A. Boualouch, “Control by Back Stepping of the DFIG Used in the Windâ€, International Journal of Emerging Technology and Advanced Engineering, vol. 5, pp. 472-478, 2015.

A. Herizi, R. Balla, S.A. Ahmani, “Backstepping Control of Induction Motorsâ€, El Wahat pour les Recherches et les Etudes, vol. 8, pp. 132– 145, 2015.

B. Bossoufi, M. Karim, A. Lagrioui, M. Taoussi, A. Derouich, “Observer backstepping control of DFIG-Generators for wind turbines variable-speed: FPGA-based implementationâ€, Renewable Energy, vol. 81, pp. 903-917, .2015.

Z. H. Kamali, Z. Salameh, A. Ashfaq, “Modeling of Wind Energy Conversion System using PSCAD/EMTDCâ€, International Journal of renewable Energy Research, vol.7, no.1, 2017.

S. Kahla, Y. Soufi, M. Sedraoui, M. Bechouat, “Maximum Power Point Tracking of Wind Energy Conversion System Using Multi-objective Grey Wolf Optimization of Fuzzy-Sliding Mode Controllerâ€, International Journal of renewable Energy Research, vol.7, no.2, 2017.

M. Quraan, Q. Farhat , M. Bornat , “A new control scheme of back-to-back converter for wind energy technologyâ€, IEEE 6th International Conference on Renewable Energy Research and Applications (ICRERA), doi: 10.1109/ICRERA.2017.8191085, pp.354-358,8 Nov 2017.

Z. Tir, O.P. Malik, A.M. Eltamaly, “Fuzzy logic based speed control of indirect field oriented controlled Double Star Induction Motors connected in parallel to a single six-phase inverter supplyâ€, Electric Power Systems Research, vol. 134, pp.126–133, 2016.

N. Khemiri, A. Khedher, M.F. Mimouni, “Wind Energy Conversion System using DFIG Controlled by Backstepping and Sliding Mode Strategiesâ€, Int. J of Renewable Energy, vol. 2, no.3, 2012.

Y. Hwang, K. Park, H, Yang. “Robust Adaptive Backstepping Control for Efficiency Optimization of Induction Motors with Uncertaintiesâ€, In: IEEE International Symposium on Industrial Electronics, pp. 878-883, 2008.

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 Farmâ€, Energy Procedia, vol. 74, pp. 477 – 490, 2015.

S. El Aimani, “Modélisation de différentes technologies d'éoliennes intégrées dans un réseau de moyenne tensionâ€, Doctorate Thesis, France : L2EP Central School of Lille, 2004.