BACKSTEPPING INTEGRAL SLIDING MODE CONTROL FOR ENERGY CAPTURE OPTIMIZATION OF WIND TURBINE SYSTEM, 225-234.

Fatima Ez-zahra Lamzouri, El-Mahjoub Boufounas, and Aumeur El Amrani

References

1. [1] G.M.J. Herbert, S. Iniyan, E. Sreevalsan, and S. Rajapandian, A review of wind energy technologies, Renewable andSustainable Energy Reviews, 11(6), 2007, 1117–1145.
2. [2] D. Jena and S. Rajendran, A review of estimation of effectivewind speed based control of wind turbines, Renewable andSustainable Energy Reviews, 43, 2015, 1046–1062.
3. [3] H.J. Asl and J. Yoon, Power capture optimization of variable-speed wind turbines using an output feedback controller,Renewable Energy, 86, 2016, 517–525.
4. [4] I. Poultangari, R. Shahnazi, and M. Sheikhan, RBF neuralnetwork based PI pitch controller for a class of 5-MW windturbines using particle swarm optimization algorithm, ISATransactions, 51, 2012, 641–648.
5. [5] B. Boukhezzar, L. Lupu, H. Siguerdidjane, and M. Hand,Multivariable control strategy for variable speed, variable pitchwind turbines, Renewable Energy, 32(8), 2007, 1273–1287.
6. [6] T. Hawkins, W.N. White, G. Hu, and F.D. Sahneh, Windturbine power capture control with robust estimation, Proc.DSCC 2, Cambridge, Massachusetts, USA, 2010, 895–902.
7. [7] B. Boukhezzar and H. Siguerdidjane, Comparison betweenlinear and nonlinear control strategies for variable speed windturbines, Control Engineering Practice, 18, 2010, 1357–1368.
8. [8] E.B. Muhando, T. Senjyu, N. Urasaki, A. Yona, H. Kinjo, andT. Funabashi, Gain scheduling control of variable speed wtgunder widely varying turbulence loading, Renewable Energy,32(14), 2007, 2407–2423.
9. [9] X.-J. Yao, H.-C. Guo, and Y. Li, Lpv h-infinity controller designfor variable-pitch variable-speed wind turbine, Power Electronics and Motion Control Conference, IPEMC ’09, Wuhan, China, 2009, 2222–2227.
10. [10] A. McIver, D.G. Holmes, and P. Freere, Optimal control of avariable speed wind turbine under dynamic wind conditions,Industry Applications Conference, San Diego, CA, USA, 3,1996, 1692–1698.
11. [11] L.J. Fingersh and K. Johnson, Baseline results and futureplans for the NREL controls advanced research turbine, 23rdASME Wind Energy Symposium, Reno, Nevada, USA, 2004,87–93.
12. [12] K. Pierce, Control method for improved energy capture be-low rated power, 3rd ASME/JSME Joint Fluids EngineeringConference, San Francisco, California, USA, 1999, 1041–1048.
13. [13] S. Bououden, M. Chadli, S. Filali, and A. El Hajjaji, Fuzzymodel based multivariable predictive control of a variable speedwind turbine: LMI approach, Renewable Energy, 37, 2012,434–439.
14. [14] E. Kamal, A. Aitouche, R. Ghorbani, and M. Bayart, Robustfuzzy logic control of wind energy conversion systems withunknown inputs, International Journal of Power and EnergySystems, 32, 2012, 71–81.
15. [15] M.M. Algazar, H. AL-monier, H.A. EL-halim, and M.E.E.Salem, Maximum power point tracking using fuzzy logic control,International Journal of Electrical Power and Energy Systems,39, 2012, 21–28.
16. [16] E. Boufounas, J. Boumhidi, N. Farhane, and I. Boumhidi,Neural network sliding mode controller for a variable speedwind turbine, Control and Intelligent Systems, 41(4), 2013,251–258.
17. [17] W. Liu, Q. Wang, and Q. Guo, Automatic radar waveformrecognition based on neural network, Control and IntelligentSystems, 46, 2018, DOI: 10.2316/Journal.201.2018.2.201-2978.
18. [18] H.M. Hasanien and S.M. Muyeen, Speed control of grid-connected switched reluctance generator driven by variablespeed wind turbine using adaptive neural network controller,Electric Power Systems Research, 84, 2012, 206–213.
19. [19] M.A. Ayoub and L. Tai, Intelligent control of a large variablespeed wind turbine, Journal of Solar Energy Engineering, 134,2012, 011001-1.
20. [20] A. Frih, Z. Chalh, and M. Mrabti, Wind turbine: Bond graphmodelling and sliding mode control, Control and IntelligentSystems, 46, 2018, DOI: 10.2316/Journal.201.2018.1.201-2803.
21. [21] S. Abdeddaim and A. Betka, Optimal tracking and robustpower control of the DFIG wind turbine, International Journalof Electrical Power and Energy Systems, 49, 2013, 234–242.
22. [22] V. Utkin, J. Guldner, and J. Shi, Sliding mode control inelectromechanical system (London: Taylor & Francis, 1999).
23. [23] J.J. Slotine, Sliding controller design for non-linear systems,International Journal of Control, 40 1984, 421–434.
24. [24] V. Utkin and J. Shi, Integral sliding mode in systems operatingunder uncertainty conditions, Digests 35th Annual Conf. IEEEon Decision and Control, Kobe, Japan, 1996, 4591–4596.
25. [25] S. Rajendran and D. Jena, Validation of an integral slidingmode control for optimal control of a three blade variablespeed variable pitch wind turbine, Electrical Power and EnergySystems, 69, 2015, 421–429.
26. [26] R. Saravanakumar and J. Debashisha, Control of variablespeed variable pitch wind turbine at above and below ratedwind speed, Journal of Wind Energy, 2014, 2014, Article ID709128.
27. [27] R. Saravanakumar and J. Debashisha, Backstepping slidingmode control of a variable speed wind turbine for poweroptimization, Journal of Modern Power Systems and CleanEnergy, DOI 10.1007/s40565-015-0106-2.
28. [28] C.M. Hong, F.S. Cheng, and C.H. Chen, Optimal control forvariable-speed wind generation systems using general regressionneural network, International Journal of Electrical Power andEnergy Systems, 60, 2014, 14–23.
29. [29] C.M. Hong and C.H. Chen, Intelligent control of a grid-connected wind-photovoltaic hybrid power Systems, International Journal of Electrical Power and Energy Systems, 55,2014, 554–561.
30. [30] R.C. Eberhart and J. Kennedy, A new optimizer using particleswarm theory, in Proc. of the Sixth Int. Symp. on Micro-Machine and Human Science, Nagoya, Japan, 1995, 39–43.
31. [31] C. JinXing, Support vector regression based on optimal trainingsubset and adaptive particle swarm optimization algorithm,Applied Soft Computing, 13, 2013, 3473–3481.
32. [32] J. M´erida, L.T. Aguilar, and J. Davila, Analysis and synthesisof sliding mode control for large scale variable speed windturbine for power optimization, Renewable Energy, 71, 2014,715–728.
33. [33] E. Boufounas and A. El Amrani, Optimal multivariable control for wind energy conversion systems using particle swarmoptimization technique, Control and Intelligent Systems, 45,2017, DOI: 10.2316/Journal.201.2017.4.201-2865.
34. [34] J.J. Slotine and W. Li, Applied nonlinear control (EnglewoodCliffs, NJ: Prentice-Hall, 1991).
35. [35] L.J. Fingersh and K. Johnson, Controls advanced researchturbine (CART) commissioning and baseline data collection,NREL Report TP-500-32879, National Renewable Energy Lab-oratory, Golden, Co, 2002.

Important Links:

• Abstract
• DOI: 10.2316/J.2019.201-3042
• From Journal (201) Mechatronic Systems and Control - 2019

Go Back