《电力自动化设备》

引用本文:	苏小林,周双喜,阎晓霞.电力系统超低频振荡和倍频振荡的正规形分析[J].电力自动化设备,2011,31(1):
	SU Xiaolin,ZHOU Shuangxi,YAN Xiaoxia.Normal form analysis of extra-low frequency oscillation and multiple frequency oscillation[J].Electric Power Automation Equipment,2011,31(1):

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电力系统超低频振荡和倍频振荡的正规形分析
苏小林^1,2, 周双喜¹, 阎晓霞²
1.清华大学电机系电力系统国家重点实验室，北京 100084;2.山西大学工程学院，山西太原 030013

摘要:

正规形法揭示了电力系统中动态模式之间的非线性相互作用，可用于分析因模式间非线性相互作用而产生的复杂动态现象和动态行为。分析表明，动态模式间相互作用所产生的组合模式使得振荡频率减小或增大，可能导致超低频振荡或倍频振荡现象，而且其明显程度取决于系统的非线性作用程度。正规形变换系数和正规形变量初值乘积可反映超低频振荡模式或倍频振荡模式在状态量响应中的作用程度，其值大，则组合模式作用模值大；组合模式的实部绝对值可反映组合模式持续时间的长短，其值小，则组合模式作用时间长。该分析揭示了电力系统产生超低频振荡和倍频振荡的可能性和条件。对一2区域4机系统进行仿真，应用所提方法分析出了该系统在重载运行条件下出现的超低频振荡现象。

关键词: 低频振荡正规形法超低频振荡倍频振荡

DOI：

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基金项目:山东省科技攻关项目（210GGX10706）

Normal form analysis of extra-low frequency oscillation and multiple frequency oscillation

SU Xiaolin^1,2, ZHOU Shuangxi¹, YAN Xiaoxia²

1.State Key Lab of Power Systems，Department of Electrical Engineering，Tsinghua University，Beijing 100084，China;2.Engineering College，Shanxi University，Taiyuan 030013，China

Abstract:

Normal form method reveals the nonlinear interactions among dynamic modes in electric power systems，which can be applied to analyze complicated dynamic phenomena and dynamic behavior of nonlinear interactions among dynamic modes. Study shows that the combined mode produced by the interactions among dynamic modes causes the decrease or increase of oscillation frequencies and may produce extra-low or double frequency oscillation phenomena，which depends on the degree of nonlinear interaction. The product of normal form transform coefficient and normal form variable initial value may reflect the active degree of extra-low or double frequency oscillation modes in state variable response：the bigger its absolute value is，the greater the modulus of combined mode will be. The real part of combined mode shows its effective time：the smaller its absolute value is，the longer the effective time will be. It reveals the probability and conditions of extra-low frequency oscillation and double frequency oscillation in power systems. The presented method is applied to the simulation of a two-area four-generator power system，showing that the extra-low frequency oscillation occurs under the operation condition of heavy load.

Key words: low frequency oscillation normal form method extra-low frequency oscillation double frequency oscillation

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