Experimental verification of STATCOM based on quasi impedance source inverter for power quality enhancement in the hybrid distributed generation system

• Published in: Circuit world Vol. 49; no. 4; pp. 466 - 479
• Main Authors: R., Karthick, C., Ramakrishnan, S., Sridhar
• Format: Journal Article
• Language: English
• Published: Emerald Publishing Limited 08.11.2023
• Subjects: Photovoltaic systems; Solar cells; Total harmonic distortion; Adaptive filter technique; Energy; Quality factor; Self-excited induction generator; Quasi impedance source network; Circuit implementation; Fuzzy logic controller; DC-DC boost converter
• ISSN: 0305-6120; 0305-6120
• DOI: 10.1108/CW-05-2021-0133

Purpose This paper aims to introduce the quasi impedance source inverter (qZSI)-based static compensator (STATCOM), which is incorporated into the hybrid distributed power generation system for enhancement of power quality. The distributed power generation system includes the photovoltaic (PV), wind energy conversion system (WECS) and battery energy storage system. Design/methodology/approach The WECS is used by the self-excited induction generator (SEIG) and the flywheel energy storage system (FESS). To regulate its terminal voltage and frequency, the SEIG requires adjustable volt-ampere reactive (VAR). A combination of a STATCOM and a fixed condenser bank usually serves to satisfy the VAR demand. The maximum correntropy criterion-based adaptive filter technique (AFT) is proposed to control the qZSI-STATCOM and to guarantee that the voltage at the SEIG terminal is harmonic-free while providing non-linear three-phase and single-phase loads. Findings The coordinated operation of the suggested voltage control and flywheel control systems ensures that load voltage and frequency are retained in their respective values at very low harmonic distortions regardless of wind speed and load variation. The simulation and experimental studies are carried out under different load conditions to validate the efficiencies of the PV-assisted STATCOM. Originality/value To improve system stability and minimize total costs, extra load current sensors can also be avoided. This paper proposes to control the SEIG terminal voltage and harmonic elimination in the standalone WECS systems using maximum correntropy criterion-based AFT with a fuzzy logic controller.