Optimization of Power Extracting from Photovoltaic Systems Based on a Novel Adaptable Step INC MPPT Approach

The Maximum Power Point (MPP) Tracking (MPPT) mechanism is a crucial component in photovoltaic (PV) systems to harvest the utmost power from the PV panel/array. Otherwise, conventional methods, such as the INC algorithm based on fixed iteration step size, complain of serious problems. The famous of...

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Bibliographic Details
Published in:IFAC-PapersOnLine 2022, Vol.55 (12), p.508-513
Main Authors: Chellakhi, A, Beid, S. El, Abouelmahjoub, Y., Mchaouar, Y.
Format: Article
Language:English
Subjects:
adaptable step size
Incremental conductance (INC)
maximum power point (MPP)
MPP tracking (MPPT)
standalone photovoltaic (PV) system
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Summary:The Maximum Power Point (MPP) Tracking (MPPT) mechanism is a crucial component in photovoltaic (PV) systems to harvest the utmost power from the PV panel/array. Otherwise, conventional methods, such as the INC algorithm based on fixed iteration step size, complain of serious problems. The famous of these latter lies in its failure to find a compromise between dynamic responses and steady-state fluctuation around the MPP, which results in power loss and thus in poor tracking efficiency. To cope with these problems, this paper presents a novel adaptable step INC (NAS-INC) approach, in which the size of the suggested iteration step is automatically adjusted in relation to the change in PV power, current, and voltage. The performance of the NSA-INC approach is examined under critical scenarios of irradiance and temperature using the MATLAB/Simulink tool. In light of the simulation results, the proposed NAS-INC approach proves its accuracy and robustness in extracting the optimal power with the best tracking efficiency over the conventional INC method and a modified variable step size INC algorithm (MVS-INC) recently published. In this respect, the ranges of the average tracking efficiency in all scenarios of the INC, MVS-INC, and NAS-INC approaches are, respectively, 96.83-98.65%, 97.02-99.12%, and 98.77-99.98 %.
ISSN:2405-8963
2405-8963
DOI:10.1016/j.ifacol.2022.07.362