分布式能源2025,Vol.10Issue(3):75-84,10.DOI:10.16513/j.2096-2185.DE.24090579
台风灾害下分布式柔性移动资源协同调控
Collaborative Regulation and Control of Distributed Flexible Mobile Resources Under Typhoon Disasters
摘要
Abstract
In recent years,typhoons have occurred frequently in coastal cities,and the vulnerability of distribution network lines and loads affected by typhoons has been increasing day by day.Therefore,an optimal scheduling model of mobile emergency power supply vehicle based on hierarchical sequence method was proposed.Firstly,the failure rate model under extreme disaster conditions was constructed,and the Monte Carlo method was used to determine the line vulnerability model.At the same time,the synergy of multiple flexible resources such as distributed power sources,energy storage systems and mobile emergency power vehicles under different spatial and temporal scales was considered to formulate a reliable distribution network resilience assessment model combining islanding and reconfiguration.Finally,the original nonlinear problem was convexized into a standard mixed integer second-order cone problem that was easy to solve by the second-order cone relaxation technique.In this study,the hierarchical sequential solution algorithm is used to take the supply rate of important loads as the main goal,while reducing the overall load loss of the distribution network as much as possible as a sub-goal.The effectiveness of the strategy is verified by the example results.Compared with other scheduling methods,the accuracy of the algorithm are further proved.关键词
台风灾害/分布式柔性移动资源/协同调控/线路脆弱性Key words
typhoon disaster/distributed flexible mobile resource/collaborative regulation/line vulnerability分类
能源科技引用本文复制引用
吴龙腾,郭乾,吴杰康,张彬..台风灾害下分布式柔性移动资源协同调控[J].分布式能源,2025,10(3):75-84,10.基金项目
广东省基础与应用基础研究基金区域联合基金项目——粤港澳研究团队项目(2020B1515130001) (2020B1515130001)
中国南方电网有限责任公司科技项目[036000KK52222036(GDKJXM20222392)]This work is supported by Guangdong Province Basic and Applied Basic Research Fund Regional Joint Fund Project-Guangdong Hong Kong Macao Research Team Project(2020B1515130001) (GDKJXM20222392)
Science and Technology Project of China Southern Power Grid Co.,Ltd.[036000KK52222036(GDKJXM20222392)] (GDKJXM20222392)
