Optimally Allocating Energy Storage for Active Distribution Networks to Reduce the Risk under N-1 Contingencies

Tao Ding; Chunzhu Li; Xiyuan Liu; Haipeng Xie; Yufei Tang; Can Huang

doi:10.1109/JSYST.2021.3058349

Optimally Allocating Energy Storage for Active Distribution Networks to Reduce the Risk under N-1 Contingencies

Tao Ding
, Chunzhu Li
, Xiyuan Liu
, Haipeng Xie
, Yufei Tang
, Can Huang

School of Electrical Engineering

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

15 Scopus citations

Abstract

In distribution networks, N-1 contingencies are the main threats to load loss. To reduce the risk from power system threats, the energy storage (ES) can be applied to mitigate the load loss after the N-1 contingencies. However, for a given number of ESs, different location of ESs may have different mitigation results. This article first proposes a bi-level optimization model to find an optimal allocation of ESs for distribution networks, where the upper-level model is to minimize the total risk of all N-1 contingencies and the lower-level model is to compute the load loss for each contingency. Then, the proposed bilevel model is equivalently transformed into a single-level model using Karush-Kuhn-Tucker conditions. The simulation results on two test systems show the effectiveness of the proposed model.

Original language	English
Article number	9370007
Pages (from-to)	1518-1527
Number of pages	10
Journal	IEEE Systems Journal
Volume	15
Issue number	2
DOIs	https://doi.org/10.1109/JSYST.2021.3058349
State	Published - Jun 2021

Keywords

Active distribution network
bilevel optimization
energy storage (ES)
N-1 contingency
risk assessment

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10.1109/JSYST.2021.3058349

Cite this

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title = "Optimally Allocating Energy Storage for Active Distribution Networks to Reduce the Risk under N-1 Contingencies",

abstract = "In distribution networks, N-1 contingencies are the main threats to load loss. To reduce the risk from power system threats, the energy storage (ES) can be applied to mitigate the load loss after the N-1 contingencies. However, for a given number of ESs, different location of ESs may have different mitigation results. This article first proposes a bi-level optimization model to find an optimal allocation of ESs for distribution networks, where the upper-level model is to minimize the total risk of all N-1 contingencies and the lower-level model is to compute the load loss for each contingency. Then, the proposed bilevel model is equivalently transformed into a single-level model using Karush-Kuhn-Tucker conditions. The simulation results on two test systems show the effectiveness of the proposed model.",

keywords = "Active distribution network, bilevel optimization, energy storage (ES), N-1 contingency, risk assessment",

author = "Tao Ding and Chunzhu Li and Xiyuan Liu and Haipeng Xie and Yufei Tang and Can Huang",

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AU - Ding, Tao

AU - Li, Chunzhu

AU - Liu, Xiyuan

AU - Xie, Haipeng

AU - Tang, Yufei

AU - Huang, Can

PY - 2021/6

Y1 - 2021/6

N2 - In distribution networks, N-1 contingencies are the main threats to load loss. To reduce the risk from power system threats, the energy storage (ES) can be applied to mitigate the load loss after the N-1 contingencies. However, for a given number of ESs, different location of ESs may have different mitigation results. This article first proposes a bi-level optimization model to find an optimal allocation of ESs for distribution networks, where the upper-level model is to minimize the total risk of all N-1 contingencies and the lower-level model is to compute the load loss for each contingency. Then, the proposed bilevel model is equivalently transformed into a single-level model using Karush-Kuhn-Tucker conditions. The simulation results on two test systems show the effectiveness of the proposed model.

AB - In distribution networks, N-1 contingencies are the main threats to load loss. To reduce the risk from power system threats, the energy storage (ES) can be applied to mitigate the load loss after the N-1 contingencies. However, for a given number of ESs, different location of ESs may have different mitigation results. This article first proposes a bi-level optimization model to find an optimal allocation of ESs for distribution networks, where the upper-level model is to minimize the total risk of all N-1 contingencies and the lower-level model is to compute the load loss for each contingency. Then, the proposed bilevel model is equivalently transformed into a single-level model using Karush-Kuhn-Tucker conditions. The simulation results on two test systems show the effectiveness of the proposed model.

KW - Active distribution network

KW - bilevel optimization

KW - energy storage (ES)

KW - N-1 contingency

KW - risk assessment

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Optimally Allocating Energy Storage for Active Distribution Networks to Reduce the Risk under N-1 Contingencies

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Keywords

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