Assessing impacts of energy storage on resilience of distribution systems against hurricanes

Hieu T Nguyen; John W. Muhs; Masood Parvania

doi:10.1007/s40565-019-0557-y

Assessing impacts of energy storage on resilience of distribution systems against hurricanes

Hieu T Nguyen
, John W. Muhs
, Masood Parvania

Electrical and Computer Engineering

University of Utah

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

This paper develops a comprehensive framework to analyze the impact of energy storage on improving the resilience of distribution systems against hurricanes. This paper first develops a spatio-temporal model of progressing hurricane when making landfall that can be used to anticipate outage scenarios caused by the gust-wind speed. An optimization model is then developed for optimizing the operation of distribution systems during hurricane that captures both pre-outage and post-outage network operation constraints. Numerical simulations are performed on the modified IEEE 33-bus distribution system with real hurricane data in Houston to demonstrate the effectiveness of the proposed model.

Original language	English
Pages (from-to)	731-740
Number of pages	10
Journal	Journal of Modern Power Systems and Clean Energy
Volume	7
Issue number	4
DOIs	https://doi.org/10.1007/s40565-019-0557-y
State	Published - Jul 13 2019

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Distribution system
Energy storage
Hurricane
Resilience

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10.1007/s40565-019-0557-y

Cite this

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abstract = "This paper develops a comprehensive framework to analyze the impact of energy storage on improving the resilience of distribution systems against hurricanes. This paper first develops a spatio-temporal model of progressing hurricane when making landfall that can be used to anticipate outage scenarios caused by the gust-wind speed. An optimization model is then developed for optimizing the operation of distribution systems during hurricane that captures both pre-outage and post-outage network operation constraints. Numerical simulations are performed on the modified IEEE 33-bus distribution system with real hurricane data in Houston to demonstrate the effectiveness of the proposed model.",

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AU - Parvania, Masood

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N2 - This paper develops a comprehensive framework to analyze the impact of energy storage on improving the resilience of distribution systems against hurricanes. This paper first develops a spatio-temporal model of progressing hurricane when making landfall that can be used to anticipate outage scenarios caused by the gust-wind speed. An optimization model is then developed for optimizing the operation of distribution systems during hurricane that captures both pre-outage and post-outage network operation constraints. Numerical simulations are performed on the modified IEEE 33-bus distribution system with real hurricane data in Houston to demonstrate the effectiveness of the proposed model.

AB - This paper develops a comprehensive framework to analyze the impact of energy storage on improving the resilience of distribution systems against hurricanes. This paper first develops a spatio-temporal model of progressing hurricane when making landfall that can be used to anticipate outage scenarios caused by the gust-wind speed. An optimization model is then developed for optimizing the operation of distribution systems during hurricane that captures both pre-outage and post-outage network operation constraints. Numerical simulations are performed on the modified IEEE 33-bus distribution system with real hurricane data in Houston to demonstrate the effectiveness of the proposed model.

KW - Distribution system

KW - Energy storage

KW - Hurricane

KW - Resilience

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Assessing impacts of energy storage on resilience of distribution systems against hurricanes

Abstract

UN SDGs

Keywords

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