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SVC控制引起的电压振荡失稳研究 被引量:10

An oscillatory voltage instability induced by SVC control
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摘要 在发生电压崩溃的单机-动态负荷系统中,采用传统SVC控制器(静止无功补偿器)提高其电压稳定性。研究表明SVC控制可以延迟系统鞍结分岔点,大大提高系统电压稳定性。但新状态变量的引入改变了系统特性,使得系统在发生鞍结分岔之前,先经历一个Hopf分岔。时域仿真表明,此Hopf分岔诱导系统发生振荡型电压失稳,系统的负荷极限由Hopf分岔参数决定。因此,在使用FACTS控制器提高系统电压稳定性时,要详细考虑其对系统中各种分岔的影响,综合优化控制器的设计和安装。 This paper adopted the SVC controller to enhance voltage stability in a single-machine dynamic-load system. which had a voltage collapse phenomenon. The analysis indicated that SVC control could delay saddle-node bifurcation point and enhance voltage stability greatly. However, a new state variable was introduced to this system and induced a new bifureation-Hopf bifurcation before saddle-node bifurcation. Time domaiu simulations indicate that system will suffer the oscillation voltage instability when Hopf bifurcation happens and the loading margin of this system is determined by Hopf bifurcation parameter. Therefore, it is essential to optimize synthetically the designs and instalments of the FACTS controllers by taking account of all the effects introduced by them on system bifurcations.
作者 顾伟 蒋平 唐国庆
机构地区 东南大学电气工程系
出处 《中国电力》 CSCD 北大核心 2005年第8期19-23,共5页 Electric Power
关键词 电压崩溃 振荡型电压失稳 鞍结分岔 HOPF分岔 分岔控制 SVC 负荷极限 voltage collapse oscillatory voltage instability saddle-node bifurcation Hopf bifureation: bifurcation control SVC loading margin
分类号 TM712 [电气工程—电力系统及自动化]
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参考文献12

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中国电力
2005年 第8期

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