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GWO-NR Hybrid Method for Selective Harmonic Elimination in Multilevel Inverter for Distributed Energy Systems

Peeyush Kala, Vibhu Jately, Abhinav Sharma, Jyoti Joshi, Hossam Kotb, Kareem M. AboRas, Ali Elrashidi

2024IEEE Access13 citationsDOIOpen Access PDF

Abstract

This article presents a hybrid method to solve the selective harmonic elimination (SHE) problem for an adaptive DC bus multilevel inverter (MLI) topology. The proposed hybrid method combines the Grey wolf optimization (GWO) technique and Newton-Raphson (NR) numerical method which drastically minimizes the computational time and further improves the accuracy of the SHE solution. The technique is essentially divided into two stages. In the exploration stage, GWO explores the entire search space of SHE problem and provides initial values of switching angles for a given modulation index with a fast rate of exploration. In the exploitation stage, the NR method uses these initial switching angles as input to iteratively determine the optimum value of the firing angles. This GWO-inspired iterative methodology is implemented on a hybrid MLI topology for photovoltaic (PV) system applications. The performance of proposed SHE method is compared with recently developed metaheuristic SHE techniques based on some key performance indices. From an application point of view, the 11-Level MLI is tested on a PV battery-based stand-alone system to determine the effectiveness of the proposed method in MATLAB/Simulink environment. Finally, a small-scale experimental prototype is developed to validate the proposed method.

Topics & Concepts

Photovoltaic systemMATLABComputer scienceModulation indexTotal harmonic distortionInverterParticle swarm optimizationTopology (electrical circuits)Iterative methodMathematical optimizationControl theory (sociology)AlgorithmVoltageMathematicsEngineeringControl (management)Artificial intelligenceOperating systemElectrical engineeringCombinatoricsMultilevel Inverters and ConvertersMicrogrid Control and OptimizationSilicon Carbide Semiconductor Technologies