Network model based coordinated automatic voltage control strategy for wind farm

IEEE PES Innovative Smart Grid Technologies Pub Date : 2012-05-21 DOI:10.1109/ISGT-ASIA.2012.6303110
Yifeng Liu, Qinglai Guo, Hongbin Sun, Rui Chen, Bin Wang, Boming Zhang
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引用次数: 9

Abstract

In China, wind power industry has undergone great development in the last few years, while several cascading faults happened in 2011, reveal that terminal voltage of wind turbine generator (WTG) should be monitored and controlled. Furthermore WTGs and static var compensators/generators (SVC/SVGs) need to be coordinated to provide voltage service for the whole network. In this paper, a network model based coordinated automatic voltage control (AVC) strategy for wind farm (WF) is proposed: three control modes out of eight control zones are defined and implemented to accomplish three control objectives. A test AVC system is built to prove the proposed characteristics, and on-site applications in WFs are ongoing now.
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基于网络模型的风电场协调电压自动控制策略
在中国,风电产业在过去的几年里有了很大的发展,而2011年发生的几起级联故障,揭示了对风力发电机组终端电压的监测和控制。此外,需要协调wtg和静态无功补偿器/发电机(SVC/ svg)为整个网络提供电压服务。本文提出了一种基于网络模型的风电场协调电压自动控制策略,定义并实现了8个控制区中的3种控制模式,以实现3个控制目标。建立了一个测试AVC系统来验证所提出的特性,目前正在WFs中进行现场应用。
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IEEE PES Innovative Smart Grid Technologies
IEEE PES Innovative Smart Grid Technologies
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