Seismic resilience assessment and adaptation of the Northern Chilean power system

Espinoza Lara, Sebastián Andres

Pontificia Universidad Católica de Chile

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Espinoza Lara, Sebastián Andres Poulos Campbell, Alan John Rudnick Van de Wyngard, Hugh Llera Martin, Juan Carlos de la Panteli, Mathaios Mancarella, Pierluigi Sacaan, Rafael Navarro, Alejandro Moreno, Rodrigo

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Even though the concept of resilience is becoming widely used in electric power systems, there is no consensus on how to systematically model or quantify it. This article begins by proposing a classification for different types of system risk analyses, associating them to the concept of power systems resilience. Thereafter, it describes and applies a resilience assessment and adaptation framework to the Northern Chilean electric power system in the context of its exposure to seismic events. This time-dependent analysis is evaluated throughout the disaster's impact and the network's operation and restoration timeframes with two indices: Energy not Supplied and Energy Index of Unreliability. Finally, the article compares a base case with three resilience adaptation strategies, namely, robust, redundant and responsive cases, in terms of their expected energy annual loss and the return period of different levels of network performance.

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Autor	Espinoza Lara, Sebastián Andres Poulos Campbell, Alan John Rudnick Van de Wyngard, Hugh Llera Martin, Juan Carlos de la Panteli, Mathaios Mancarella, Pierluigi Sacaan, Rafael Navarro, Alejandro Moreno, Rodrigo
Título	Seismic resilience assessment and adaptation of the Northern Chilean power system
ISSN	1944-9933
ISBN	9781538622131
ISBN electrónico	978-1-5386-2212-4
Fecha de publicación	2017
Resumen	Even though the concept of resilience is becoming widely used in electric power systems, there is no consensus on how to systematically model or quantify it. This article begins by proposing a classification for different types of system risk analyses, associating them to the concept of power systems resilience. Thereafter, it describes and applies a resilience assessment and adaptation framework to the Northern Chilean electric power system in the context of its exposure to seismic events. This time-dependent analysis is evaluated throughout the disaster's impact and the network's operation and restoration timeframes with two indices: Energy not Supplied and Energy Index of Unreliability. Finally, the article compares a base case with three resilience adaptation strategies, namely, robust, redundant and responsive cases, in terms of their expected energy annual loss and the return period of different levels of network performance.
Derechos	acceso restringido
DOI	10.1109/PESGM.2017.8274288
Editorial	IEEE
Enlace	https://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=8274288 https://doi.org/10.1109/PESGM.2017.8274288 https://repositorio.uc.cl/handle/11534/63811
Palabra clave	Resilience Earthquakes Substations Power generation Systems operation Adaptation models
Publicado en / Colección	2017 IEEE Power & Energy Society General Meeting (2017 : Chicago, Estados Unidos)
Tipo de documento	comunicación de congreso