计及并联补偿高抗的电力系统对次同步振荡的影响研究

张航; 滕予非; 王晓茹; 钟锐

引用本文:	张航,滕予非,王晓茹,钟锐.计及并联补偿高抗的电力系统对次同步振荡的影响研究[J].电力系统保护与控制,2019,47(4):25-34.[点击复制]
	ZHANG Hang,TENG Yufei,WANG Xiaoru,ZHONG Rui.Analysis of sub-synchronous oscillation of power system with shunt reactors[J].Power System Protection and Control,2019,47(4):25-34[点击复制]

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计及并联补偿高抗的电力系统对次同步振荡的影响研究
张航,滕予非,王晓茹,钟锐
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(西南交通大学电气工程学院，四川成都 610031;国网四川省电力公司电力科学研究院，四川成都 610072)

摘要:

近年来，随着电力系统中无功补偿设备的广泛应用，由无功补偿设备引起的电力系统问题不断涌出，由此引发的次同步振荡问题也日益凸显。首先针对IEEE次同步谐振第一标准系统，推导并且建立了考虑并联补偿高抗的单机无穷大系统的数学模型，进而得到全系统的小信号模型。接着通过特征根分析方法论证了引入并联补偿高抗对于电力系统次同步振荡的影响。最后探讨了不同并联高抗值对于轴系扭振模式的影响，结合PSCAD仿真软件，在10机39节点系统进行仿真验证。结果表明:并联补偿高抗的参与在一定程度上使得系统发生次同步振荡的可能性变大，与此同时补偿高抗值的减小也会增强系统的阻尼。

关键词: 次同步振荡并联补偿高抗模态分析轴系扭振电力系统仿真

DOI：10.7667/PSPC180325

投稿时间：2018-03-24修订日期：2018-07-10

基金项目:四川省重点研发项目资助(2017GZ0054)

Analysis of sub-synchronous oscillation of power system with shunt reactors

ZHANG Hang,TENG Yufei,WANG Xiaoru,ZHONG Rui

(School of Electrical Engineering, Southwest Jiaotong University, Chengdu 610031, China;State Grid Sichuan Electrical Power Research Institute, Chengdu 610072, China)

Abstract:

In recent years, with the widespread application of reactive power compensation equipment in power system, the issue of sub-synchronous oscillation brought by the reactive compensation equipment has been increasingly emerging. Based on the first IEEE standard system model for sub-synchronous resonance, this paper provides the power system’s model with shunt reactors, and the small signal model of the whole system is obtained. In addition, the eigenvalue analysis method is used to demonstrate the influence of shunt reactors on sub-synchronous oscillation in power system. It also discusses the effect of different shunt reactors values on the torsional vibration mode of the shaft system. As a result, the 10-generator 39-bus system of PSCAD simulation software is used to verify that the existence of shunt reactors makes the power system more likely generate sub-synchronous oscillations. Meanwhile, the reduction of shunt reactors value will increase the damping of the system. This work is supported by Sichuan Major Research & Development Project (No. 2017GZ0054).

Key words: sub-synchronous oscillation shunt reactors modal analysis shaft torsional vibration power system simulation

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