Simplified Arc-Fault Model: The Reduction Factor of the Arc Current

This paper presents a simplified model of arc fault that allows analyzing the dynamic behavior and evaluating the rms value of arcing fault current and the incident energy released by the electric arc. This study confirms previous results carried out in low-voltage and medium-voltage systems in diff...

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Veröffentlicht in:	IEEE transactions on industry applications 2013-07, Vol.49 (4), p.1703-1710
Hauptverfasser:	Parise, Giuseppe, Martirano, Luigi, Laurini, Marco
Format:	Artikel
Sprache:	eng
Schlagworte:	Analytical models Arc fault arc flash Circuit faults Fault currents IEEE standards Ignition Mathematical model protection Resistance safety short circuit Studies
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creator	Parise, Giuseppe Martirano, Luigi Laurini, Marco
description	This paper presents a simplified model of arc fault that allows analyzing the dynamic behavior and evaluating the rms value of arcing fault current and the incident energy released by the electric arc. This study confirms previous results carried out in low-voltage and medium-voltage systems in different configurations, where the values of arcing fault current estimated by the simplified model are in accordance with the corresponding values determined by the equations described by IEEE Standard 1584. The dynamic behavior of the electric arc depends on a lot of factors. As improvement, the simplified model allows analyzing and determining basic parameters such as conduction angle, peak value, reduction factor of arc current, and power and energy supporting the understanding of the phenomenon of the arc flash. The behavior of the arc current conduction is predicted by knowledge of the phase angle of fault circuit impedance and the phase angle of the ignition voltage; the reduction factor of arc current is variable depending on whether the conduction is continuous or pulsating.
doi_str_mv	10.1109/TIA.2013.2256452
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This study confirms previous results carried out in low-voltage and medium-voltage systems in different configurations, where the values of arcing fault current estimated by the simplified model are in accordance with the corresponding values determined by the equations described by IEEE Standard 1584. The dynamic behavior of the electric arc depends on a lot of factors. As improvement, the simplified model allows analyzing and determining basic parameters such as conduction angle, peak value, reduction factor of arc current, and power and energy supporting the understanding of the phenomenon of the arc flash. 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This study confirms previous results carried out in low-voltage and medium-voltage systems in different configurations, where the values of arcing fault current estimated by the simplified model are in accordance with the corresponding values determined by the equations described by IEEE Standard 1584. The dynamic behavior of the electric arc depends on a lot of factors. As improvement, the simplified model allows analyzing and determining basic parameters such as conduction angle, peak value, reduction factor of arc current, and power and energy supporting the understanding of the phenomenon of the arc flash. 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subjects	Analytical models Arc fault arc flash Circuit faults Fault currents IEEE standards Ignition Mathematical model protection Resistance safety short circuit Studies
title	Simplified Arc-Fault Model: The Reduction Factor of the Arc Current
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