Online analysis of MFC-fuzzy PI based LF-HVAC system

The study introduces a unique control strategy combining multi-frequency control (MFC) and fuzzy PI control for LF-HVAC transmission systems. MFC is typically associated with microgrid applications, but here it's adapted for use in a different context - LF-HVAC transmission (low frequency high...

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Veröffentlicht in:	Cogent engineering 2024-12, Vol.11 (1)
Hauptverfasser:	Anand, Mukul, Goswami, Swapan Kumar, Chatterjee, Debashis
Format:	Artikel
Sprache:	eng
Schlagworte:	Ai Qingsong, Senior Editor, Wuhan University of Technology, China back-to-back converters Control systems Controllers Distributed generation Electrical and Electronic Engineering Engineering and Technology frequency Frequency control Fuzzy Fuzzy control Fuzzy Systems Hardware-in-the-loop simulation Harmonic distortion High voltages HVAC HVAC equipment HVDC LFAC Line voltage MFC OPAL-RT Power Electronics Power Engineering Real time Simulation System reliability Systems and Control Engineering Technology Transient response
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creator	Anand, Mukul Goswami, Swapan Kumar Chatterjee, Debashis
description	The study introduces a unique control strategy combining multi-frequency control (MFC) and fuzzy PI control for LF-HVAC transmission systems. MFC is typically associated with microgrid applications, but here it's adapted for use in a different context - LF-HVAC transmission (low frequency high voltage alternating current). The proposed controller is shown to enhance system performance by reducing settling time and peak time of frequency fluctuations by small but significant percentages (0.12% and 0.15% respectively). These improvements contribute to better transient response and stability in LF-HVAC transmission systems. By minimizing power quality problems associated with frequency changes, such as total harmonic distortion (THD) of line voltage, the proposed controller enhances the overall quality and reliability of power transmission. This is particularly crucial in high-voltage transmission systems where maintaining stable voltage levels is essential. The study goes beyond theoretical simulations by validating the proposed model using both MATLAB simulations and real-time hardware-in-the-loop (HIL) simulations with Opal RT. This comprehensive validation process ensures the reliability and applicability of the proposed control strategy in practical LF-HVAC transmission systems.
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The study goes beyond theoretical simulations by validating the proposed model using both MATLAB simulations and real-time hardware-in-the-loop (HIL) simulations with Opal RT. 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subjects	Ai Qingsong, Senior Editor, Wuhan University of Technology, China back-to-back converters Control systems Controllers Distributed generation Electrical and Electronic Engineering Engineering and Technology frequency Frequency control Fuzzy Fuzzy control Fuzzy Systems Hardware-in-the-loop simulation Harmonic distortion High voltages HVAC HVAC equipment HVDC LFAC Line voltage MFC OPAL-RT Power Electronics Power Engineering Real time Simulation System reliability Systems and Control Engineering Technology Transient response
title	Online analysis of MFC-fuzzy PI based LF-HVAC system
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