谷炜,朱炳铨,沈绍斐,张辰
GU Wei,ZHU Bingquan,SHEN Shaofei,ZHANG Chen

• 1:国网浙江省电力有限公司

摘要(Abstract)：

2019年第9号台风"利奇马"对浙江电网造成了巨大影响。首先,回顾了台风登陆前后,3个电网极端薄弱运行方式的形成过程和关键调度处置步骤。其次,对比"云娜"台风,得出超强台风对电网的主要影响特征。随后,总结了调度抗台经验,指出处置难点在于准确辨识薄弱环节、潜在孤岛系统发用电平衡和快速补强网架。最后,从智慧调度故障应急处置的作用、需求及关键技术等角度,探讨了对省级电网抗台应急处置的启示。
Zhejiang power grid was severely affected by the 9 th super typhoon Lichma last year. Firstly, the formation process and key dispatching steps of three extremely weak operating scenarios before and after the typhoon are reviewed. Secondly, in contrast to the impact of typhoon Yunna on the power grid, main characteristics of the super typhoon′s impact on the power grid are obtained, and the emergency dispatching experience for mitigation against typhoon is summarized, and precise recognition of weak links, power generation and consumption balancing of potential islanding system and fast reinforced grid architecture are the difficulties to be handled. Finally, the paper discusses the enlightenment of emergency dispatching experience in mitigation against typhoon in the provincial-level power grid when it comes to the role and demand of emergency handling in intelligent dispatching and key technologies.

关键词(KeyWords)： 超强台风;薄弱运行方式;应急处置;智慧调度
super typhoon;weak operation mode;emergency dispatching;intelligent dispatching

Abstract:

Keywords:

基金项目(Foundation):

作者(Author): 谷炜,朱炳铨,沈绍斐,张辰
GU Wei,ZHU Bingquan,SHEN Shaofei,ZHANG Chen

DOI: 10.19585/j.zjdl.202008006

参考文献(References)：

• [1]姚建国，王珂，许丹，等.大电网调度稳态自适应巡航场景架构[J].电力系统自动化，2019,43(22):179-188.
• [2]闪鑫，戴则梅，张哲，等.智能电网调度控制系统综合智能告警研究及应用[J].电力系统自动化，2015,39(1):65-72.
• [3]BIE Z H,LIN Y L,LI G F,et al.Battling the Extreme:A Study on the Power System Resilience[J].Proceedings of the IEEE,2017,105(7):1253-1266.
• [4]ZHANG H J,CHENG L,YAO S H,et al.Spatial-temporal reliability and damage assessment of transmission networks under hurricanes[J].IEEE Transactions on Smart Grid,2020,11(2):1044-1054.
• [5]吴勇军，薛禹胜，谢云云，等.台风及暴雨对电网故障率的时空影响[J].电力系统自动化，2016,40(2):20-29.
• [6]韩畅，林振智，杨莉，等.台风条件下区域电力系统的重要线路多维度辨识[J].电力系统自动化，2018,42(15):118-125.
• [7]侯慧，耿浩，黄勇，等.基于多因素修正的台风灾害下输电线路失效预测方法[J].电力系统自动化，2019,43(23):193-201.
• [8]张行，王逸飞，何迪，等.电网防灾减灾现状分析及建议[J].电网技术，2016,40(9):2838-2844.
• [9]黄伟，黄廷城，王立勇，等.基于态势感知的电网台风预警防御框架研究综述[J].电力系统保护与控制，2018,46(11):162-169.
• [10]张晓华，冯长有，王永明，等.电网调控机器人设计思路[J].电力系统自动化，2019,43(13):1-8.
• [11]孙宏斌，黄天恩，郭庆来，等.面向调度决策的智能机器调度员研制与应用[J].电网技术，2020,44(1):1-8.
• [12]范士雄，李立新，王松岩，等.人工智能技术在电网调控中的应用研究[J].电网技术，2020,44(2):401-411.
• [13]李明节，陶洪铸，许洪强，等.电网调控领域人工智能技术框架与应用展望[J].电网技术，2020,44(2):393-400.
• [14]陶洪铸，翟明玉，许洪强，等.适应调控领域应用场景的人工智能平台体系架构及关键技术[J].电网技术，2020,44(2):412-419.
• [15]闪鑫，陆晓，翟明玉，等.人工智能应用于电网调控的关键技术分析[J].电力系统自动化，2019,43(1):49-57.
• [16]许洪强，孙世明，葛朝强，等.电网调控实时数据平台体系架构及关键技术研究与应用[J].电力系统自动化，2019,43(22):157-164.
• [17]张锋，吴秋晗，李继红.台风“云娜”对浙江电网造成的危害与防范措施[J].中国电力，2005,38(5):39-42.
• [18]朱元振，刘玉田.基于深度学习直流闭锁判断的高风险连锁故障快速搜索[J].电力系统自动化，2019,43(22):59-67.