Journal of Power Electronics & Power Systems (JoPEPS)

In this paper, based on a low-cost, small-scale application, presents a Maximum Power Point Tracking (MPPT) controller for wind generation systems (WGS). The Hill Climb Search approach served as the foundation for the development of the MPPT algorithm. To account for the inertia of wind turbines, an enhanced hill-climb searching approach has been created as a fundamental component of the max-power extraction algorithm. Under varying wind conditions, the generator can monitor the wind turbine system's ideal operating points with the help of the suggested control algorithm. Over time, the tracking process becomes more rapid. MATLAB/SIMULINK was used to assess this proposed algorithm's efficacy. The wind speed affects how much power a wind energy system can produce. Maintaining thewind turbines maximum power production under all wind speed circumstances is a difficult challenge because of its nonlinear feature.

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Electr., vol. 1, no. 4, pp. 203–216, 2013.

Jidong Wang and Fan Yang, “Optimal capacity allocation of standalone wind/solar/ battery hybrid power system based on improved particle swarm optimization algorithm”, IET Renewable Power Generation,

Power Gener., 2013, Vol. 7, Iss. 5, pp.443–448.

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Azah Mohamed and Tamer Khatib, “Optimal Sizing of a PV/Wind/Diesel Hybrid Energy System for Malaysia”, 2013 IEEE International Conference on Industrial Technology (ICIT), 2013, pp.752 –757.

H. Zhang, G. Zhang, and J. Wang, “H∞ observer design for LPV systems with uncertain measurements on scheduling variables: Application to an electric ground vehicle,” IEEE/ASME Trans. Mechatronics, vol. 21, no. 3, pp. 1659–1670, Jun. 2016.

J.V. Gragger, A. Haumer, M. Einhorn, “Averaged Model of a Buck Converter for Efficiency Analysis”, Engineering Letter, Vol. 18, Issue 1, 2010.

Jitendra Kasera, Ankit Chaplot and Jai Kumar Maherchandani. Modeling and Simulation of Wind-PV Hybrid Power System using Matlab/Simulink. In: Proceedings of Students Conference on Electrical, Electronics and Computer Science, SCEECS’12,2012, p1-4.

D. Zhu, X. Zou, L. Deng, Q. Huang, S. Zhou, and Y. Kang, “Inductance-emulating control for DFIG-based wind turbine to ride-through grid faults,” IEEE Trans. Pow. Electr., vol. 32, no. 11, pp. 8514–8525, Nov. 2017.

K. T. Tan, P. L. So, Y. C. Chu, and K. H. Kwan.: Modeling, Control and Simulation of a Photovoltaic Power System for Grid-connected and Stand-alone Applications. In: Proceedings of IPEC, IPEC’10, 2010, p608-

S. Samosir, H Gusmedi, S. Purwiyanti and E. Komalasari, Modeling and simulation of fuzzy logic based maximum power point tracking (MPPT) for PV application, ; International Journal of Electrical and

Computer Engineering (IJECE), vol. 8, no. 3, pp. 1315-1323, 2018.

Xiangjun Li, Dong Hui and Xiaokang Lai, “Battery Energy Storage Station (BESS)-Based Smoothing Control of Photovoltaic (PV) and Wind Power Generation Fluctuations” IEEE transactions on sustainable energy, vol. 4, no. 2, April 2013, pp.464-473.

M.Z.C Wanik, A. A. Ibrahim, A.K.M. Hussin, M.R Rusli and J.H Tang, “Simplified dynamic model of photovoltaic generation system for grid integration studies”,2014 5 th International Conference on Intelligent

and Advanced Systems (ICIAS), Kuala Lumpur, Malaysia.

Badawi, A.S., et al., Novel technique for hill climbing search to reach maximum power point tracking. Int J Pow Elec & Dri Syst, 2020. 11(4): p. 2019-2029.

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Alsumiri, M. A., W. H. Tang, and Q. H. Wu. Maximum Power Point Tracking for Wind Generator System Using Sliding Mode Control. In Power and Energy Engineering Conference (APPEEC), 2013 IEEE PES Asia-Pacific, pp. 1-6. IEEE, 2013.