Effects of wind turbine generator's drive train model on subsynchronous oscillation

Lin Yang, Xiangning Xiao, C. Pang, Chun Li
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引用次数: 3

Abstract

If the structure of wind turbine generator's drive train model is too simplified, it may not reflect the subsynchronous oscillation (SSO) mode. The types and sizes of wind turbine generator (WTG) are various. Therefore, the parameters of drive train model vary widely. There is an urgent need to study the effects of drive train model's structures and parameters on SSO. In this paper, mass-spring-damping shaft models of WTG are presented. Eigenvalue analysis is used to study the effects of drive train model on SSO. The results show that, if two-mass model is adopted, only the low-frequency oscillation (LFO) exists. If three-mass model is adopted, there will be the LFO and SSO. In inertial constants, the inertia of hub (Hh) has the greatest effect on SSO. With the increasing of Hh, the frequency and damping of SSO decrease. In spring constants, the spring constant between hub and generator (Khg) has the greatest effect on SSO. With the increasing of Khg, the frequency of SSO increases, yet the damping decreases. In damping constants, the damping constant of hub (Dh) has the greatest effect on SSO. With the increasing of Dh, the damping of SSO increases. Damping constants almost have no effect on the frequency of SSO.
风力发电机组传动系模型对次同步振荡的影响
如果风力发电机组传动系模型结构过于简化,可能无法反映次同步振荡(SSO)模式。风力发电机组(WTG)的类型和尺寸是多种多样的。因此,传动系模型的参数变化很大。迫切需要研究传动系模型的结构和参数对单轴振动特性的影响。本文建立了WTG的质量-弹簧-阻尼轴模型。采用特征值分析的方法研究了传动系模型对单点振动的影响。结果表明,如果采用双质量模型,则只存在低频振荡。如果采用三质量模型,则存在LFO和SSO。在惯性常数中,轮毂的惯性(Hh)对SSO的影响最大。随着Hh的增大,单轴振动频率和阻尼减小。在弹簧常数中,轮毂与发电机之间的弹簧常数Khg对单点振动的影响最大。随着Khg的增大,单轴振动频率增大,阻尼减小。在阻尼常数中,轮毂的阻尼常数Dh对单轴振动的影响最大。随着Dh的增大,单轴振动阻尼增大。阻尼常数对单轴振动频率几乎没有影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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