International Journal of Renewable Energy Research-IJRER

The research on Maximum Power Point Tracking (MPPT) techniques for wind turbine installation (WTI) is an ongoing effort to improve the output power of wind systems. AI-based controllers, particularly Neural network controllers, are becoming popular choices for capturing maximum power from wind generators. However, obtaining accurate data for training and fine-tuning the Artificial Neural Network (ANN) model remains a significant challenge in establishing effective MPPT methods. Our study proposes a novel approach using feed-forward function neural networks (FF-NN) for MPPT in WTI based on Autonomous Squirrel Cage Generators(ASCGs). Our study contributes to the advancement of MPPT techniques in the wind energy industry by presenting a comprehensive comparative analysis of various MPPT techniques, including VSS-P&O, VSS-INC, OTC, GA, and GWO. The FF-NN approach maximizes MPPT by regulating the duty cycle and accurately tracking the maximum power point (MPP) without requiring knowledge of wind turbine power characteristics. The results of our simulations in the MATLAB/Simulink environment show that the FF-NN method performs better under diverse loads and environmental disturbances, sustains the ASCG's voltage build-up under severe loads, and has high responsiveness to noisy wind speeds. Moreover, our study highlights the improved performance metrics of using FF-NN, such as its lower complexity, easy maintenance, and better MPP tracking accuracy compared to the other MPPT techniques. The proposed approach using FF-NN is a novel and comprehensive solution that adds to the existing body of knowledge in the field of wind energy by presenting a new perspective for MPPT techniques in ASCG-based WTI.

P. Sadorsky, "Wind energy for sustainable development: Driving factors and future outlook," Journal of Cleaner Production, vol. 289, p. 125779, 2021.

V.M. Krishna, V. Sandeep, S.S. Murthy, and K. Yadlapati, "Experimental investigation on performance comparison of self-excited induction generator and permanent magnet synchronous generator for small scale renewable energy applications," Renewable Energy, vol. 195, pp. 431-441, 2022.

W.A. Khan, M.N. Marsono, and M.A. Hannan, "Capacitance determination methods for self-excited induction generators: A review," Renewable and Sustainable Energy Reviews, vol. 137, 110622, 2021. Doi: 10.1016/j.rser.2020.110622.

F. Ouafia and A. Ahmed, "Elaboration of the Minimum Capacitor for an Isolated Self-Excited Induction Generator Driven by a Wind Turbine," in International Conference of Computer Science and Renewable Energies, pp. 264-270, 2018.

C.V. Govinda, S.V. Udhay, C. Rani, Y. Wang, and K. Busawon, "A Review on Various MPPT Techniques for Wind Energy Conversion System," in International Conference on Computation of Power, Energy, Information and Communication (ICCPEIC), Chennai, India, pp. 310-326, 2018. Doi: 10.1109/ICCPEIC.2018.8525219.

Z. Dekali, L. Baghli, and A. Boumediene, "Speed controller efficiency of the TSR based MPPT of a variable speed wind power system," in 2022 2nd International Conference on Advanced Electrical Engineering (ICAEE), IEEE, 2022, pp. 1-5.

J. Pande, P. Nasikkar, K. Kotecha, and V. Varadarajan, "A review of maximum power point tracking algorithms for wind energy conversion systems," Journal of Marine Science and Engineering, vol. 9, no. 11, p. 1187, 2021.

S. Gautam, D.B. Raut, P. Neupane, D.P. Ghale, and R. Dhakal, "Maximum power point tracker with solar prioritize in photovoltaic application," in 2016 IEEE International Conference on Renewable Energy Research and Applications (ICRERA), IEEE, pp. 1051-1054,2016.

S. Morimoto, H. Nakayama, M. Sanada, and Y. Takeda, "Sensorless output maximization control for variable-speed wind generation system using IPMSG," IEEE Transactions on Industry Applications, vol. 41, no. 1, pp. 60-67, 2005.

C. Maurizio and P. Marcello, "Growing neural gas (GNG)-based maximum power point tracking for high-performance wind generator with an induction machine," IEEE Transactions on Industry Applications, vol. 47, no. 2, pp. 861-872, 2011.

S.A. Mohamed and M. Abd El Sattar, "A comparative study of P&O and INC maximum power point tracking techniques for grid-connected PV systems," SN Applied Sciences, vol. 1, no. 2, p. 174, 2019.

A.I. Nusaif and A.L. Mahmood, "MPPT Algorithms (PSO, FA, and MFA) for PV System Under Partial Shading Condition, Case Study: BTS in Algazalia, Baghdad," International Journal of Smart Grid-ijSmartGrid, vol. 4, no. 3, pp. 100-110, 2020.

D. Haji and N. Genc, "Fuzzy and P&O based MPPT controllers under different conditions," in 2018 7th International Conference on Renewable Energy Research and Applications (ICRERA), IEEE, pp. 649-655, October 2018.

T. George, P. Jayapraksh, T. Francis, and C.E. Singh Sreedharan, "Wind energy conversion system based PMSG for maximum power tracking and grid synchronization using adaptive fuzzy logic control," Journal of Applied Research and Technology, vol. 20, no. 6, pp. 703-717, 2022.

O. Guenounou, A. Belkaid, I. Colak, B. Dahhou, and F. Chabour, "Optimization of fuzzy logic controller based maximum power point tracking using hierarchical genetic algorithms," in 2021 9th International Conference on Smart Grid (icSmartGrid), IEEE, pp. 207-211, June 2021.

T. Mitiku and M.S. Manshahia, "A Literature Review on the MPPT Techniques Applied in Wind Energy Harvesting System," in Intelligent Computing & Optimization: Proceedings of the 4th International Conference on Intelligent Computing and Optimization 2021 (ICO2021), vol. 3, Springer International Publishing, 2022.

N. Sivakumar, A. Routray, N. Sajeev, F. Raju, and G. Dhiman, "Neural Network Based Reinforcement Learning for Maximum Power Extraction of Wind Energy," in 2022 IEEE 4th International Conference on Cybernetics, Cognition and Machine Learning Applications (ICCCMLA), IEEE, pp. 210-215, October 2022.

F. Ouafia and A. Ahmed, "A direct power control of the PWM rectifier for SEIG feeding resistive load in wind energy systems," in 2020 5th International Conference on Renewable Energies for Developing Countries (REDEC), IEEE, 2020.

K. Palanimuthu, G. Mayilsamy, S.R. Lee, S.Y. Jung, and Y.H. Joo, "Comparative analysis of maximum power extraction and control methods between PMSG and PMVG-based wind turbine systems," International Journal of Electrical Power & Energy Systems, vol. 143, p. 108475, 2022.

M. Sharma and M.O. Badawy, "Application of model predictive control in modular multilevel converters for MTPA operation and reduced switching losses," in 2018 7th International Conference on Renewable Energy Research and Applications (ICRERA), IEEE, pp. 1233-1239, October 2018.

M. Allouche, S. Abderrahim, H.B. Zina, and M. Chaabane, "A novel fuzzy control strategy for maximum power point tracking of wind energy conversion system," International Journal of Smart Grid-ijSmartGrid, vol. 3, no. 3, pp. 120-127, 2019.

R. Tiwari, P. Pandiyan, S. Saravanan, T. Chinnadurai, N. Prabaharan, and K. Kumar, "Quadratic boost converter for wind energy conversion system using back propagation neural network maximum power point tracking," International Journal of Energy Technology and Policy, vol. 18, no. 1, pp. 71-89, 2022.

T. Dinku, T.M. Dinku, and M.S. Manshahia, "Artificial intelligence techniques for modeling of wind energy harvesting systems: a comparative analysis," in Advances of Artificial Intelligence in a Green Energy Environment, Academic Press, pp. 173-192, 2022.

M. Mansoor, Q. Ling, and M.H. Zafar, "Short Term Wind Power Prediction using Feedforward Neural Network (FNN) trained by a Novel Sine-Cosine fused Chimp Optimization Algorithm (SChoA)," in 2022 5th International Conference on Energy Conservation and Efficiency (ICECE), IEEE, 2022.

M. Alzayed, H. Chaoui, and Y. Farajpour, "Maximum power tracking for a wind energy conversion system using cascade-forward neural networks," IEEE Transactions on Sustainable Energy, vol. 12, no. 4, pp. 2367-2377, 2021.

Y.A. Ali and M. Ouassaid, "Sensorless MPPT Controller using Particle Swarm and Grey Wolf Optimization for Wind Turbines," in 2019 7th International Renewable and Sustainable Energy Conference (IRSEC), IEEE, 2019.

B.S. Goud, R. Reddy, R.R. Udumula, M. Bajaj, B. Abdul Samad, M. Shouran, and S. Kamel, "PV/WT integrated system using the Gray Wolf Optimization Technique for power quality improvement," Frontiers in Energy Research, vol. 10, 2022.

V. Karthikeyan, "MPPT with Single DC-DC Converter and Inverter for Grid Connected Hybrid Wind-Driven PMSG-PV System Using GA Algorithm," Renewable Energy with IoT and Biomedical Applications, vol. 1, 2021, pp. 41.