RESILIENCE ENHANCEMENT FOR COASTAL POWER SYSTEMS VIA TYPHOON RESPONSE PLANS

Bangyan Wang; Xiuli Wang; Shixiong Qi; Wenduo Sun; Qihang Huang; Shengyuan Liu; Xiang Ma; Xiao Ping Zhang; Yaohong Xie

doi:10.1049/icp.2024.4511

RESILIENCE ENHANCEMENT FOR COASTAL POWER SYSTEMS VIA TYPHOON RESPONSE PLANS

Bangyan Wang
, Xiuli Wang
, Shixiong Qi
, Wenduo Sun
, Qihang Huang
, Shengyuan Liu
, Xiang Ma
, Xiao Ping Zhang
, Yaohong Xie

School of Electrical Engineering

Research output: Contribution to journal › Conference article › peer-review

Abstract

Formulating typhoon response plans and effectively implementing them can improve the resilience of coastal power systems. This type of plan mainly includes line hardening and unit dispatching. Initially, main typhoon scenarios are determined based on historical data, and the line failure conditions are simulated. Furthermore, a unit commitment and power flow optimization model is established to determine the optimal line hardening and unit dispatch instructions. During real-time typhoon events, the intensity and path may deviate from the main scenarios, necessitating flexible execution. Therefore, a similarity mechanism and a multi-stage execution method are established to ensure that the plan's execution maximizes its benefits. A case study validates the effectiveness of the proposed response plan construction and execution method.

Original language	English
Pages (from-to)	113-116
Number of pages	4
Journal	IET Conference Proceedings
Volume	2024
Issue number	32
DOIs	https://doi.org/10.1049/icp.2024.4511
State	Published - 2024
Event	IET Powering Net Zero 2024, PNZ 2024 - Birmingham, United Kingdom Duration: 3 Dec 2024 → 6 Dec 2024

Keywords

MULTI-STAGE DISPATCH
POWER SYSTEM RESILIENCE
RESPONSE PLAN
TYPHOON

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10.1049/icp.2024.4511

Cite this

@article{d56e0cdc0d0a421b90077f38244727ad,

title = "RESILIENCE ENHANCEMENT FOR COASTAL POWER SYSTEMS VIA TYPHOON RESPONSE PLANS",

abstract = "Formulating typhoon response plans and effectively implementing them can improve the resilience of coastal power systems. This type of plan mainly includes line hardening and unit dispatching. Initially, main typhoon scenarios are determined based on historical data, and the line failure conditions are simulated. Furthermore, a unit commitment and power flow optimization model is established to determine the optimal line hardening and unit dispatch instructions. During real-time typhoon events, the intensity and path may deviate from the main scenarios, necessitating flexible execution. Therefore, a similarity mechanism and a multi-stage execution method are established to ensure that the plan's execution maximizes its benefits. A case study validates the effectiveness of the proposed response plan construction and execution method.",

keywords = "MULTI-STAGE DISPATCH, POWER SYSTEM RESILIENCE, RESPONSE PLAN, TYPHOON",

author = "Bangyan Wang and Xiuli Wang and Shixiong Qi and Wenduo Sun and Qihang Huang and Shengyuan Liu and Xiang Ma and Zhang, \{Xiao Ping\} and Yaohong Xie",

note = "Publisher Copyright: {\textcopyright} The Institution of Engineering \& Technology 2024.; IET Powering Net Zero 2024, PNZ 2024 ; Conference date: 03-12-2024 Through 06-12-2024",

year = "2024",

doi = "10.1049/icp.2024.4511",

language = "英语",

volume = "2024",

pages = "113--116",

journal = "IET Conference Proceedings",

issn = "2732-4494",

publisher = "Institution of Engineering and Technology",

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}

TY - JOUR

T1 - RESILIENCE ENHANCEMENT FOR COASTAL POWER SYSTEMS VIA TYPHOON RESPONSE PLANS

AU - Wang, Bangyan

AU - Wang, Xiuli

AU - Qi, Shixiong

AU - Sun, Wenduo

AU - Huang, Qihang

AU - Liu, Shengyuan

AU - Ma, Xiang

AU - Zhang, Xiao Ping

AU - Xie, Yaohong

N1 - Publisher Copyright: © The Institution of Engineering & Technology 2024.

PY - 2024

Y1 - 2024

N2 - Formulating typhoon response plans and effectively implementing them can improve the resilience of coastal power systems. This type of plan mainly includes line hardening and unit dispatching. Initially, main typhoon scenarios are determined based on historical data, and the line failure conditions are simulated. Furthermore, a unit commitment and power flow optimization model is established to determine the optimal line hardening and unit dispatch instructions. During real-time typhoon events, the intensity and path may deviate from the main scenarios, necessitating flexible execution. Therefore, a similarity mechanism and a multi-stage execution method are established to ensure that the plan's execution maximizes its benefits. A case study validates the effectiveness of the proposed response plan construction and execution method.

AB - Formulating typhoon response plans and effectively implementing them can improve the resilience of coastal power systems. This type of plan mainly includes line hardening and unit dispatching. Initially, main typhoon scenarios are determined based on historical data, and the line failure conditions are simulated. Furthermore, a unit commitment and power flow optimization model is established to determine the optimal line hardening and unit dispatch instructions. During real-time typhoon events, the intensity and path may deviate from the main scenarios, necessitating flexible execution. Therefore, a similarity mechanism and a multi-stage execution method are established to ensure that the plan's execution maximizes its benefits. A case study validates the effectiveness of the proposed response plan construction and execution method.

KW - MULTI-STAGE DISPATCH

KW - POWER SYSTEM RESILIENCE

KW - RESPONSE PLAN

KW - TYPHOON

UR - https://www.scopus.com/pages/publications/105004340810

U2 - 10.1049/icp.2024.4511

DO - 10.1049/icp.2024.4511

M3 - 会议文章

AN - SCOPUS:105004340810

SN - 2732-4494

VL - 2024

SP - 113

EP - 116

JO - IET Conference Proceedings

JF - IET Conference Proceedings

IS - 32

T2 - IET Powering Net Zero 2024, PNZ 2024

Y2 - 3 December 2024 through 6 December 2024

ER -

RESILIENCE ENHANCEMENT FOR COASTAL POWER SYSTEMS VIA TYPHOON RESPONSE PLANS

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Keywords

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