IMPLEMENTATION OF LION-GH OPTIMIZATION BASED CPD TO IMPROVE POWER QUALITY IN GRID-PV SYSTEM

The three main synchronisation concerns in grid-connected solar systems that affect electricity quality are voltage distortions, flicker, and unbalances. Power quality problems are also brought on by abrupt changes in load, the application of non-linear loads, and switching circumstances. The sugges...

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Bibliographic Details
Published inNeuroQuantology Vol. 20; no. 20; p. 294
Main Authors Guntreddi, VenkataRamana, Mundu, Mustafa Muhamad, Kanakaraju, K, Rao, B Srinivasa
Format Journal Article
LanguageEnglish
Published Bornova Izmir NeuroQuantology 01.01.2022
Subjects
Algorithms
Alternative energy sources
Computer engineering
Efficiency
Energy resources
Optimization
Optimization techniques
Photovoltaic cells
Reference signals
Synchronism
Voltage converters (DC to DC)
Voltage distortion
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Summary:The three main synchronisation concerns in grid-connected solar systems that affect electricity quality are voltage distortions, flicker, and unbalances. Power quality problems are also brought on by abrupt changes in load, the application of non-linear loads, and switching circumstances. The suggested grid-connected PV system is built with a customised power device to address these issues (Distributed STATCOM). An mppt-based dc-dc converter is used to extract the most power possible from the solar system when designing and implementing the photovoltaic system.The reference signal required for series and shunt converter of UPQC is controlled with optimization techniques. This paper focuses on implementation of Lion Optimization Algorithm (LOA), Grasshopper Algorithm (GH) and hybrid LOA-GH Algorithms.
ISSN:1303-5150
DOI:10.48047/NQ.2022.20.20.NQ109034