摘要
针对无配套电源的特高压直流高比例外送电网面临的运行风险,设计了抵御直流闭锁故障下电网过频风险的系统保护方案。提出了涵盖送端电网风、水、火等电源的系统保护双层结构;研究了面向多对象的实时信息通信复接技术,以满足主站和多个执行站实时通信的需求;根据不同类型电源的特点及对电网安全运行的影响,提出了直流调制和风、水、火等电源全局优化控制策略。基于实际电网仿真验证了所提系统保护方案的有效性和实用性。
A system protection scheme against operation risk faced by the ultra-high voltage direct current (HVDC) without corresponding direct power supply is designed, which can resist the over-frequency risk under the HVDC blocking fault. Double layer structure of system protection covering wind, hydro and thermal power of sending end power grid is put forward. The multi-object oriented real-time information communication multiplexing technology is studied to meet the communication requirements between master station and multiple exec power and its influence on the safe operation of power wind, hydro and thermal power is presented. The simul of the proposed system protection strategy. ution stations. According to the characteristics of different types of grid, the DC modulation and global optimization control strategy of ation on a real power system shows the effectiveness and practicability
作者
邵广惠
侯凯元
王克非
夏德明
刘明松
刘永奇
SHAO Guanghui;HOU Kaiyuan;WANG KefeiI;XIA Deming;LIU Mingsong;LIU Yongqi(Northeast Branch of State Grid Corporation of China,Shenyang 110180,China;State Grid Corporation of China,Beijing 100031,China)
出处
《电力系统自动化》
EI
CSCD
北大核心
2018年第22期26-31,共6页
Automation of Electric Power Systems
关键词
系统保护
特高压直流
频率稳定
信息通信
system protection
ultra-high voltage direct current (HVDC)
frequency stability
information communication