《电力自动化设备》

引用本文:	李少林,秦世耀,王瑞明,陈晨,杨靖.大容量双馈风电机组虚拟惯量调频技术[J].电力自动化设备,2018,(4):
	LI Shaolin,QIN Shiyao,WANG Ruiming,CHEN Chen,YANG Jing.Control strategy of virtual inertia frequency regulation for large capacity DFIG-based wind turbine[J].Electric Power Automation Equipment,2018,(4):

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大容量双馈风电机组虚拟惯量调频技术
李少林¹, 秦世耀¹, 王瑞明¹, 陈晨¹, 杨靖²
1.中国电力科学研究院有限公司新能源与储能运行控制国家重点实验室，北京100192;2.浙江运达风电股份有限公司风力发电系统国家重点实验室，浙江杭州310012

摘要:

针对风电机组不主动参与电网频率调节的问题，量化评估了大容量双馈风电机组利用风轮旋转动能进行调频的能力，提出了基于附加转矩的风电机组虚拟惯量调频控制方法，并研究了其实现原理与控制策略，建立了大容量双馈风电机组Bladed+MATLAB联合仿真模型，实现了虚拟惯量调频全过程动态仿真。首次在 MW级风电机组上进行了虚拟惯量调频现场试验，揭示了大容量风电机组虚拟惯量调频的动态特性与技术特点。试验结果表明了理论与仿真分析的准确性及控制策略的有效性。

关键词: 风电双馈风电机组虚拟惯量调频联合仿真现场试验

DOI：10.16081/j.issn.1006-6047.2018.04.021

分类号:TM315;TM46

基金项目:国家电网公司科技项目(NYB17201700151)

Control strategy of virtual inertia frequency regulation for large capacity DFIG-based wind turbine

LI Shaolin¹, QIN Shiyao¹, WANG Ruiming¹, CHEN Chen¹, YANG Jing²

1.State Key Laboratory of Operation and Control of Renewable Energy & Storage Systems, China Electric Power Research Institute, Beijing 100192, China;2.State Key Laboratory of Wind Power System, Zhejiang Windey Co.,Ltd.,Hangzhou 310012, China

Abstract:

In order to solve the problem that the wind turbines do not initiatively participate in the frequency regulation of power grid, the capability of large-capacity DFIG-WT(DFIG-based Wind Turbine) using stored inertia energy of the rotor to participate in the frequency regulation of the power grid is evaluated. A control strategy of virtual inertia frequency regulation of wind turbine based on accessory torque is proposed, and its implementation principles and control strategies are studied respectively. A Bladed and MATLAB co-simulation system of large-capacity DFIG-WT is established, realizing the whole process dynamic simulation of virtual inertia frequency regulation. The field test is carried out on a MW class DFIG-WT by large capacity grid emulator for the first time, and the dynamic and technical characteristics of the virtual inertia frequency regulation are revealed. The simulative and experimental results support the theoretical analysis and verify the proposed control strategy.

Key words: wind power DFIG-based wind turbine virtual inertia frequency regulation co-simulation field test

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