Resiliency Improvement of Electric Shipboard Power System

被引:0
作者
Jothibasu, Suma [1 ]
Santoso, Surya [1 ]
机构
[1] Univ Texas Austin, Dept Elect & Comp Engn, Austin, TX 78712 USA
来源
2018 IEEE POWER & ENERGY SOCIETY GENERAL MEETING (PESGM) | 2018年
关键词
Circuit topology; Electric shipboard power system; Power system planning; Resiliency; Optimization methods; INTERDICTION ANALYSIS; SERVICE RESTORATION;
D O I
暂无
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
Resiliency of an all-electric ship that is commissioned for military use is of utmost importance. In this paper, it is evaluated on the basis of total load served following an attack that causes maximum disruption in a network. The worst-case attack is identified using a bi-level and a mixed integer linear programming (MILP) framework. A nominal SPS topology based on Breaker-and-a-half (BAAH) configuration is used in the analysis. The base case BAAH topology is evaluated to survive only up to 3 simultaneous worst case attacks. This paper demonstrates that its resiliency can be increased to survive up to 8 worst case attacks. The improvement is achieved by specific topology modifications such as strategic generator placement, selected bus hardening, increased load in-feeds and bus tiebreakers.
引用
收藏
页数:5
相关论文
共 50 条
[21]   Resiliency improvement in power distribution infrastructure employing distributed generation and switches-a review summary [J].
Partha Kayal .
Energy, Ecology and Environment, 2023, 8 :195-210
[22]   A Multi-Agent Based Method for Service Restoration in Shipboard Power System [J].
Li, Hengxuan ;
Sun, Haishun ;
Wen, Jinyu ;
Yao, Wei ;
Wu, Qian .
PRZEGLAD ELEKTROTECHNICZNY, 2012, 88 (06) :354-359
[23]   Graph Theory Based Shipboard Power System Expansion Strategy for Enhanced Resilience [J].
Lai, Kexing ;
Illindala, Mahesh S. .
IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS, 2018, 54 (06) :5691-5699
[24]   Multi-agent system for automated service restoration of shipboard power systems [J].
Srivastava, SK ;
Xiao, H ;
Butler-Purry, KL .
COMPUTER APPLICATIONS IN INDUSTRY AND ENGINEERING, 2002, :119-123
[25]   A Distributed Control System for Enhancing Smart-grid Resiliency using Electric Vehicles [J].
Hamidi, R. Jalilzadeh ;
Kiany, R. H. ;
Ashuri, T. .
2019 IEEE POWER AND ENERGY CONFERENCE AT ILLINOIS (PECI), 2019,
[26]   Resiliency Metrics for Monitoring and Analysis of Cyber-Power Distribution System With IoTs [J].
Sarker, Partha S. ;
Sadanandan, Sajan K. ;
Srivastava, Anurag K. .
IEEE INTERNET OF THINGS JOURNAL, 2023, 10 (09) :7469-7479
[27]   Implementing Resiliency Upgrades on Power Distribution System using Graph Theoretic Methods [J].
Kandaperumal, Gowtham ;
Chun, Chiew Seng ;
Mahar, Thomas .
2024 IEEE TEXAS POWER AND ENERGY CONFERENCE, TPEC, 2024, :355-360
[28]   An Improved Algorithm for Power Distribution System Restoration Using Microgrids for Enhancing Grid Resiliency [J].
Mathew, Rohit K. ;
Sankar, Ashok ;
Sundaramoorthy, Kumaravel ;
Jayadeebhai, Anuranj N. .
ELECTRIC POWER COMPONENTS AND SYSTEMS, 2018, 46 (16-17) :1731-1743
[29]   The Future of Distribution System Resiliency [J].
Davis, Gary ;
Snyder, Aaron F. ;
Mader, James .
2014 CLEMSON UNIVERSITY POWER SYSTEMS CONFERENCE (PSC), 2014,
[30]   Utilization of Battery Electric Buses for the Resiliency of Islanded Microgrids [J].
Lee, Jennifer ;
Razeghi, Ghazal ;
Samuelsen, Scott .
APPLIED ENERGY, 2023, 347
12345