《电力自动化设备》

引用本文:	李浩志,李景一,杨建军,谢小荣.抑制风电-柔直外送系统次同步振荡的并联VSC型次同步阻尼控制器[J].电力自动化设备,2022,42(8):
	LI Haozhi,LI Jingyi,YANG Jianjun,XIE Xiaorong.Shunt-VSC subsynchronous damping controller to suppress SSO in wind power connected by flexible DC sending system[J].Electric Power Automation Equipment,2022,42(8):

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抑制风电-柔直外送系统次同步振荡的并联VSC型次同步阻尼控制器
李浩志¹, 李景一^1,2, 杨建军², 谢小荣¹
1.清华大学电机系电力系统及发电设备控制与仿真国家重点实验室，北京 100084;2.中国电建集团华东勘测设计研究院有限公司浙江省深远海风电技术研究重点实验室，浙江杭州 311112

摘要:

风电经柔性直流输电(简称“柔直”)系统接入交流电网已经成为陆上/海上风电并网的主要方式之一，但风电与柔直系统之间存在控制相互作用引发次同步振荡的风险。为抑制此类振荡，提出一种独立于柔直系统和风电机组变流器的并联电压源变流器(VSC)型次同步阻尼控制器。该控制器使用集电线电压作为输入信号，提取信号中的振荡模态后调制其幅值、相位，然后利用并联VSC向系统注入次同步频率的电流来抑制振荡。基于复阻抗法对控制器参数进行了优化设计。仿真结果表明，所提出的控制器能在不同工况下有效抑制振荡。

关键词: 风电场柔性直流输电模块化多电平变流器阻抗分析次同步振荡抑制

DOI：10.16081/j.epae.202201030

分类号:TM712;TM614

基金项目:国家自然科学基金资助项目(51737007, 51925701)；清华大学-新南威尔士大学自主科研国际合作专项(2020Z02NSW)；中国电建集团华东勘测设计研究院科技项目(KY-2020-XNY-02-02)

Shunt-VSC subsynchronous damping controller to suppress SSO in wind power connected by flexible DC sending system

LI Haozhi¹, LI Jingyi^1,2, YANG Jianjun², XIE Xiaorong¹

1.State Key Laboratory of Control and Simulation of Power System and Generation Equipment, Department of Electrical Engineering, Tsinghua University, Beijing 100084, China;2.Key Laboratory of Far-shore Wind Power Technology of Zhejiang Province, Power China Huadong Engineering Corporation, Hangzhou 311112, China

Abstract:

Wind power connected to AC grid by flexible DC transmission(here is called flexible DC) system has become one of the main ways for grid connected onshore/offshore wind power system. However, there is a risk of subsynchronous oscillation caused by control interaction between wind power and flexible DC system. In order to suppress the oscillation, a shunt-VSC(Voltage-Source Converter) subsynchronous damping controller independent of flexible DC system and wind turbine unit converter is proposed. The collection line voltage is used as the input signal by this controller and the oscillation modes of the signal are extracted to modulate the signal’s amplitude and phase, moreover the subsynchronous frequency current is injected by shunt-VSC into the system to suppress the oscillation. The parameters of controller are optimized based on the complex impedance method. The simulative results demonstrate that the proposed controller can suppress the oscillation effectively under different operation conditions.

Key words: wind farm flexible DC transmission modular multilevel converter impedance analysis suppression of subsynchronous oscillation

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