Ground-Fault Recognition in Low-Voltage Ships Based on Variation Analysis of Phase-to-Ground Voltage and Neutral-Point Voltage

Generally, ships use a three-phase power system with low-voltage and ungrounded systems to ensure continuous power supply. In these shipboard power systems, ground faults constitute approximately 95% of all faults. Most ground faults are caused by the single line-to-ground fault. Ground faults can c...

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Veröffentlicht in:	IEEE access 2024, Vol.12, p.123166-123176
Hauptverfasser:	Ryu, Ki-Tak, Lee, Yun-Hyung
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Sprache:	eng
Schlagworte:	Capacitance measurement Circuit faults Electric potential Engineers Fault detection Fault diagnosis Faults Ground fault Grounding line-to-ground capacitance Low voltage Marine vehicles neutral-point voltage Phase measurement phase-to-ground voltage Ships ungrounded system Voltage
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description	Generally, ships use a three-phase power system with low-voltage and ungrounded systems to ensure continuous power supply. In these shipboard power systems, ground faults constitute approximately 95% of all faults. Most ground faults are caused by the single line-to-ground fault. Ground faults can cause blackouts, which significantly impact the safe operation of ships. Therefore, ship engineers should identify the ground-fault region for effective management and resolution. This study analyzes the variations in the phase-to-ground voltage and neutral-point voltage during a ground fault in a distribution network of an ungrounded low-voltage ship. We proposed a practical method for ship engineers to determine the ground-fault phase by measuring only the phase-to-ground voltages. To verify the applicability of the practical method to real ships, the line-to-ground capacitance was directly measured for a 225 V power system of a training ship. Moreover, we performed simulations based on the measurement data and analyzed the variation characteristics of the phase-to-ground voltage and neutral-point voltage during a single line-to-ground fault. Thus, ship engineers can use the simulation results and proposed table to accurately determine ground faults by measuring only the phase-to-ground voltages.
doi_str_mv	10.1109/ACCESS.2024.3454173
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Moreover, we performed simulations based on the measurement data and analyzed the variation characteristics of the phase-to-ground voltage and neutral-point voltage during a single line-to-ground fault. 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In these shipboard power systems, ground faults constitute approximately 95% of all faults. Most ground faults are caused by the single line-to-ground fault. Ground faults can cause blackouts, which significantly impact the safe operation of ships. Therefore, ship engineers should identify the ground-fault region for effective management and resolution. This study analyzes the variations in the phase-to-ground voltage and neutral-point voltage during a ground fault in a distribution network of an ungrounded low-voltage ship. We proposed a practical method for ship engineers to determine the ground-fault phase by measuring only the phase-to-ground voltages. To verify the applicability of the practical method to real ships, the line-to-ground capacitance was directly measured for a 225 V power system of a training ship. 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subjects	Capacitance measurement Circuit faults Electric potential Engineers Fault detection Fault diagnosis Faults Ground fault Grounding line-to-ground capacitance Low voltage Marine vehicles neutral-point voltage Phase measurement phase-to-ground voltage Ships ungrounded system Voltage
title	Ground-Fault Recognition in Low-Voltage Ships Based on Variation Analysis of Phase-to-Ground Voltage and Neutral-Point Voltage
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