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Mitigation of power quality issues due to high penetration of renewable energy sources in electric grid systems using three-phase APF/STATCOM technologies: A review

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Version 1 2018-07-25, 12:19
journal contribution
posted on 2024-05-30, 11:16 authored by WUK Tareen, M Aamir, S Mekhilef, M Nakaoka, M Seyedmahmoudian, Ben HoranBen Horan, MA Memon, NA Baig
This study summarizes an analytical review on the comparison of three-phase static compensator (STATCOM) and active power filter (APF) inverter topologies and their control schemes using industrial standards and advanced high-power configurations. Transformerless and reduced switch count topologies are the leading technologies in power electronics that aim to reduce system cost and offer the additional benefits of small volumetric size, lightweight and compact structure, and high reliability. A detailed comparison of the topologies, control strategies and implementation structures of grid-connected high-power converters is presented. However, reducing the number of power semiconductor devices, sensors, and control circuits requires complex control strategies. This study focuses on different topological devices, namely, passive filters, shunt and hybrid filters, and STATCOMs, which are typically used for power quality improvement. Additionally, appropriate control schemes, such as sinusoidal pulse width modulation (SPWM) and space vector PWM techniques, are selected. According to recent developments in shunt APF/STATCOM inverters, simulation and experimental results prove the effectiveness of APF/STATCOM systems for harmonic mitigation based on the defined limit in IEEE-519.

History

Journal

Energies

Volume

11

Season

Special Issue: Power Electronics in Renewable Energy Systems

Article number

ARTN 1491

Pagination

1 - 41

Location

Basel, Switzerland

Open access

  • Yes

ISSN

1996-1073

eISSN

1996-1073

Language

English

Publication classification

C Journal article, C1 Refereed article in a scholarly journal

Copyright notice

2018, by the authors

Issue

6

Publisher

MDPI