Control of DFIG-based wind farms with hybrid HVDC connection

Honglin Zhou, Geng Yang
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引用次数: 10

Abstract

This paper presents the control methods for large Doubly Fed Induction Generator (DFIG)-based wind farms with hybrid HVDC (High-Voltage dc) connection. The sending end of the hybrid HVDC topology is a Line-Commutated Converter (LCC) with a STATCOM (Static Synchronous Compensator) while the receiving end is a Current Source Inverter (CSI) using forced-commutated devices. The STATCOM provides stator voltage support for DFIGs, as well as commutation voltage for the LCC. Taking into account the nonlinear and coupling characteristics of each subsystem, a series of control schemes are provided. Simulations under both normal and fault conditions are carried out, which verify that, incorporating the advantages of existing LCC-HVDC and VSC (Voltage Source Converter)-HVDC technologies, the proposed system has the black-start capability, and can provide flexible reactive power support to the grid. Moreover it is able to separate the wind farm from the ac fault on the inverter side, thus enhancing the reliability of the overall wind energy system.
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混合高压直流连接下基于dfig的风电场控制
本文介绍了大型双馈感应发电机(DFIG)型风电场与高压直流混合连接的控制方法。混合型HVDC拓扑的发送端是带STATCOM(静态同步补偿器)的线路换向转换器(LCC),而接收端是使用强制换向器件的电流源逆变器(CSI)。STATCOM为dfig提供定子电压支持,并为LCC提供换向电压。考虑到各子系统的非线性和耦合特性,提出了一系列控制方案。在正常和故障条件下进行了仿真,验证了该系统结合现有lc -HVDC技术和VSC (Voltage Source Converter,电压源变换器)-HVDC技术的优点,具有黑启动能力,能够为电网提供灵活的无功支持。并且可以将风电场与逆变器侧的交流故障隔离开来,从而提高了整个风能系统的可靠性。
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