DC Arc Flash: Testing and Modeling Incidents in a 125-V Substation Battery Backup System

Austin C. Gaunce; Xuan Wu; John D. Mandeville; Dennis J. Hoffman; Amrit S. Khalsa; Joseph Sottile; Ronald J. Wellman

doi:10.1109/TIA.2020.2971478

DC Arc Flash: Testing and Modeling Incidents in a 125-V Substation Battery Backup System

Austin C. Gaunce
, Xuan Wu
, John D. Mandeville
, Dennis J. Hoffman
, Amrit S. Khalsa
, Joseph Sottile
, Ronald J. Wellman

Producción científica: Article › revisión exhaustiva

17 Citas (Scopus)

Resumen

Station batteries used as a backup source to supply station direct-current (dc) power to relays, etc., present a source of personnel exposure to dc arc flash. However, dc arc flash is less understood compared with the arc-flash phenomena that occur in alternating-current (ac) systems. Some models exist to quantify the potential hazards posed by dc electrical systems; however, there is little empirical data available. Additionally, the lower voltage and/or lower capacity station batteries are even less researched. As a result, a series of arc-flash tests were performed at the Dolan Technology Center of American Electric Power (AEP) utilizing two 125 V_dc batteries with rated capacities of 100 and 150 Ah. For these tests, working distance and gap width were used as independent variables. Upon the conclusion of testing, various relationships were analyzed to generate a predictive model for incident energy. This model serves as a compilation of the empirical data collected during testing and will contribute to future research efforts to better understand dc arc-flash incidents from station batteries.

Idioma original	English
Número de artículo	8981921
Páginas (desde-hasta)	2138-2147
Número de páginas	10
Publicación	IEEE Transactions on Industry Applications
Volumen	56
N.º	3
DOI	https://doi.org/10.1109/TIA.2020.2971478
Estado	Published - may 1 2020

Nota bibliográfica

Publisher Copyright:
© 1972-2012 IEEE.

Financiación

The authors would like to thank everyone at AEP’s Dolan Technology Center who provided assistance and dedicated time and effort into the testing required for this research. In addition, the authors would like to thank M. Lang and Dr. W.-J. Lee for providing the necessary information to develop the test setup. Finally, the authors would like to appreciate all the support from AEP Transmission Leadership.

Financiadores
AEP Transmission Leadership

ASJC Scopus subject areas

Control and Systems Engineering
Industrial and Manufacturing Engineering
Electrical and Electronic Engineering

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title = "DC Arc Flash: Testing and Modeling Incidents in a 125-V Substation Battery Backup System",

abstract = "Station batteries used as a backup source to supply station direct-current (dc) power to relays, etc., present a source of personnel exposure to dc arc flash. However, dc arc flash is less understood compared with the arc-flash phenomena that occur in alternating-current (ac) systems. Some models exist to quantify the potential hazards posed by dc electrical systems; however, there is little empirical data available. Additionally, the lower voltage and/or lower capacity station batteries are even less researched. As a result, a series of arc-flash tests were performed at the Dolan Technology Center of American Electric Power (AEP) utilizing two 125 Vdc batteries with rated capacities of 100 and 150 Ah. For these tests, working distance and gap width were used as independent variables. Upon the conclusion of testing, various relationships were analyzed to generate a predictive model for incident energy. This model serves as a compilation of the empirical data collected during testing and will contribute to future research efforts to better understand dc arc-flash incidents from station batteries.",

keywords = "Direct-current (DC) arc flash, empirical data, predictive model, station battery",

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AU - Gaunce, Austin C.

AU - Wu, Xuan

AU - Mandeville, John D.

AU - Hoffman, Dennis J.

AU - Khalsa, Amrit S.

AU - Sottile, Joseph

AU - Wellman, Ronald J.

PY - 2020/5/1

Y1 - 2020/5/1

N2 - Station batteries used as a backup source to supply station direct-current (dc) power to relays, etc., present a source of personnel exposure to dc arc flash. However, dc arc flash is less understood compared with the arc-flash phenomena that occur in alternating-current (ac) systems. Some models exist to quantify the potential hazards posed by dc electrical systems; however, there is little empirical data available. Additionally, the lower voltage and/or lower capacity station batteries are even less researched. As a result, a series of arc-flash tests were performed at the Dolan Technology Center of American Electric Power (AEP) utilizing two 125 Vdc batteries with rated capacities of 100 and 150 Ah. For these tests, working distance and gap width were used as independent variables. Upon the conclusion of testing, various relationships were analyzed to generate a predictive model for incident energy. This model serves as a compilation of the empirical data collected during testing and will contribute to future research efforts to better understand dc arc-flash incidents from station batteries.

AB - Station batteries used as a backup source to supply station direct-current (dc) power to relays, etc., present a source of personnel exposure to dc arc flash. However, dc arc flash is less understood compared with the arc-flash phenomena that occur in alternating-current (ac) systems. Some models exist to quantify the potential hazards posed by dc electrical systems; however, there is little empirical data available. Additionally, the lower voltage and/or lower capacity station batteries are even less researched. As a result, a series of arc-flash tests were performed at the Dolan Technology Center of American Electric Power (AEP) utilizing two 125 Vdc batteries with rated capacities of 100 and 150 Ah. For these tests, working distance and gap width were used as independent variables. Upon the conclusion of testing, various relationships were analyzed to generate a predictive model for incident energy. This model serves as a compilation of the empirical data collected during testing and will contribute to future research efforts to better understand dc arc-flash incidents from station batteries.

KW - Direct-current (DC) arc flash

KW - empirical data

KW - predictive model

KW - station battery

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DC Arc Flash: Testing and Modeling Incidents in a 125-V Substation Battery Backup System

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Financiación

ASJC Scopus subject areas

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