Control strategy of system coordination in Nanao multi-terminal VSC-HVDC project for wind integration

2014 IEEE PES General Meeting | Conference & Exposition Pub Date : 2014-07-27 DOI:10.1109/PESGM.2014.6938929

Jiao Fu, Zhichang Yuan, Yizhen Wang, Shukai Xu, Wei Wei, Yu Luo

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引用次数: 21

Abstract

The ±160 kV three-terminal voltage source converter (VSC) based HVDC system under construction in Island of Nanao, China, is expected to be the first multi-terminal VSC-HVDC industrial project. The system has been designed to extract wind energy from the wind intensive areas on the island to the bulk power system at the mainland of China. At present, the system is being tested online, and planned to be committed by the end of 2013. Due to the outstanding controllability of VSC-HVDC system, the control strategy becomes critical for coordination between each converter station, as well as the interconnected DC and AC system. This paper presents the detailed control schemes for each individual active and reactive power parameter according to different operation modes, including paralleled operation of AC and DC circuits, DC operation only, and working as a reactive power compensator. In this system, the power flow management ensures efficient power transmission in normal operation, and fast response in emergency condition, which improves the ability of fault ride-through. Also, the converter station is capable to provide a stable AC system for connecting wind farms.

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南澳多终端vcs - hvdc风电一体化项目系统协调控制策略

中国南澳岛正在建设的±160千伏三端电压源变换器(VSC)高压直流系统，有望成为中国首个多端VSC-高压直流工业项目。该系统旨在将岛上风力密集地区的风能提取到中国大陆的大容量电力系统。目前，该系统正在进行在线测试，计划于2013年底投入使用。由于直流-高压直流系统优异的可控性，控制策略对各换流站之间的协调以及直流和交流系统的互联变得至关重要。本文针对不同的运行方式，包括交直流并联运行、仅直流运行、作为无功补偿器工作等，给出了各有功、无功参数的详细控制方案。在该系统中，潮流管理保证了正常运行时的高效输电和紧急情况下的快速响应，提高了故障穿越能力。此外，换流站能够为连接风电场提供稳定的交流系统。

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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2014 IEEE PES General Meeting | Conference & Exposition

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