Energies, Vol. 16, Pages 3202: Estimation of Electric Arc Incident Energy in Electric Power Distribution Grids

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Energies, Vol. 16, Pages 3202: Estimation of Electric Arc Incident Energy in Electric Power Distribution Grids

Energies doi: 10.3390/en16073202

Authors: Marina Camponogara Daniel Pinheiro Bernardon Tiago Bandeira Marchesan Vitor Cristiano Bender Fernando Cesar Pepe Gilnei José Gama dos Santos Lucas Melo de Chiara Martin Wolter

The occurrence of an electric arc is an inherent possibility when working in a live line. Thermal risk is considered one of the most relevant risks associated with this type of event, so every worker who performs daily activities in the electricity distribution sector is subject to this risk to a lesser or greater degree. The quantification of the thermal risk is based on estimating the energy generated by the electric arc, and focuses on a surface called incident energy. Therefore, the incident energy estimate is used to define thermal protection strategies applicable to workers who carry out activities in the distribution sector. In light of this, the present work proposes a review of incident energy estimation methods for electric arcs in electric power distribution grids, highlighting the applicability of each of these methods in terms of voltage, short circuit type, and environment. Finally, five case studies are presented in which adequate methods are used to estimate the incident energy. Their results concerning incident energy and selected protective equipment (PPE) are compared. From the review of existing incident energy estimation methods in the literature and the case studies presented, the importance of selecting a suitable method for the type of system analyzed, considering electric, spatial, and intervention aspects, is observed. Finally, considering that the primary objective of incident energy estimation is to determine the need and selection of arc-rated PPE, the selected estimation method must be aligned and integrated with the clothing selection procedures and applicable PPE.

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