电力系统自动化2026,Vol.50Issue(6):1-15,15.DOI:10.7500/AEPS20241219008
极端自然灾害下新型配电系统韧性提升技术综述与展望
Review and Prospect on Resilience Enhancement Technologies for New Distribution Systems Under Extreme Natural Disasters
摘要
Abstract
Extreme natural disasters,characterized by low probability and high loss,pose a severe threat to the secure and reliable operation of new distribution systems.Therefore,enhancing the resilience of new distribution systems against such events is urgently needed.With the evolution of new distribution systems,resilience enhancement technologies have expanded from temporal dimension coordination to physical dimension and resource dimension coordination.This paper first elaborates on the resilience enhancement framework for new distribution systems,encompassing four stages of resilience perception,resilience modeling,resilience assessment,and resilience enhancement.Subsequently,resilience enhancement technologies are discussed in detail from the temporal dimension,including pre-disaster prevention,disaster response,and post-disaster self-healing.This paper summarizes resilience enhancement technologies from the physical dimension,including main grid-distribution network-microgrid coordination,electricity-gas-heat multi-energy coordination,and cyber-physical system coordination.From the resource dimension,resilience enhancement technologies are analyzed involving source-grid-load coordination,flexible interconnection,and mobile energy storage support.Finally,key issues that urgently need to be studied on resilience enhancement technologies for new distribution systems are prospected.关键词
配电系统/极端自然灾害/可靠性/韧性/信息物理系统/柔性互联Key words
distribution system/extreme natural disaster/reliability/resilience/cyber-physical system/flexible interconnection引用本文复制引用
潘凯岩,刘宏达,赵瑞锋..极端自然灾害下新型配电系统韧性提升技术综述与展望[J].电力系统自动化,2026,50(6):1-15,15.基金项目
广东电网有限责任公司科技项目(GDKJXM20222439) (GDKJXM20222439)
山东省重点研发计划资助项目(2024CXGC010704). This work is supported by Guangdong Power Grid Co.,Ltd.(No.GDKJXM20222439)and Key R&D Program of Shandong Province(No.2024CXGC010704). (2024CXGC010704)
