首页|期刊导航|电力工程技术|多馈入直流系统换相失败抵御能力评价与提升方法综述

多馈入直流系统换相失败抵御能力评价与提升方法综述OA

A review on evaluation and improvement methods for commutation failure resistance ability in multi-infeed direct current system

中文摘要英文摘要

多馈入直流(multi-infeed direct current,MIDC)系统换相失败抵御能力的评价与提升方法,对实际电网系统换相失败特性的测试、评估难题的解决以及换相失败防御技术在电网规划与运行中的应用具有重要意义,因此文中对其进行系统科学的归纳和总结.首先,阐述MIDC系统以及换相失败的基本定义,分析不同类型故障对换相失败的影响,梳理其关键影响因素,并总结现有换相失败判据;其次,综述目前已有的换相失败抵御能力评价方法;然后,从无功补偿优化、控制保护优化以及换流器拓扑改进等 3个方面对现阶段MIDC系统换相失败抵御能力提升方法进行综述;最后,明确了未来需要重点关注以下方向:采用归一化的效果评价方式,在具备标准意义的仿真平台上开展可重复的校检,形成系统性、综合性的换相失败抵御能力评价方法,并提出包括换流站级、换流器级和系统级的多层次协同提升策略.

The evaluation and improvement methods for commutation failure resistance ability in multi-infeed direct current(MIDC)system are of great significance for testing commutation failure characteristics,addressing assessment challenges,and applying commutation failure defense technology in power system planning and operation.Therefore,a systematic and scientific summary and generalization are conducted in this paper.Firstly,the fundamental definitions of MIDC system and commutation failure are presented,analyzes the impacts of various fault types on commutation failure,identifies key influencing factors,and summarizes existing commutation failure criteria.Secondly,the existing evaluation methods of commutation failure resistance ability are also reviewed.Then,the current improvement methods of commutation failure resistance ability in MIDC system are summarized from three aspects:reactive power compensation optimization,control and protection optimization,and converter topology improvement.Finally,the key issues that need to be focused on in the future mainly include:adopting a normalized effect evaluation method,conducting repeatable calibration on a simulation platform with standard significance,forming a systematic and comprehensive improvement method for the commutation failure resistance ability in MIDC system,and establishing a multi-level coordinated enhancement strategy encompassing converter station level,converter level and system level.

辛业春;黄韬宇;王拓;赫羽朋;甘效罗;李国庆

东北电力大学(现代电力系统仿真控制与绿色电能新技术教育部重点实验室),吉林 吉林 132012东北电力大学(现代电力系统仿真控制与绿色电能新技术教育部重点实验室),吉林 吉林 132012东北电力大学(现代电力系统仿真控制与绿色电能新技术教育部重点实验室),吉林 吉林 132012东北电力大学(现代电力系统仿真控制与绿色电能新技术教育部重点实验室),吉林 吉林 132012东北电力大学(现代电力系统仿真控制与绿色电能新技术教育部重点实验室),吉林 吉林 132012东北电力大学(现代电力系统仿真控制与绿色电能新技术教育部重点实验室),吉林 吉林 132012

信息技术与安全科学

高压直流输电多馈入直流(MIDC)系统换相失败抵御能力评价方法防御技术

high voltage direct current transmissionmulti-infeed direct current(MIDC)systemcommutation failureresistance abilityevaluation methoddefense technology

《电力工程技术》 2026 (1)

13-25,105,14

国家重点研发计划资助项目(2021YFB2400900)

10.12158/j.2096-3203.2026.01.002

评论