电压源高压直流同步区间解耦和局部阻尼

2001 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.01CH37194) Pub Date : 2001-01-28 DOI:10.1109/PESW.2001.917219

W. Lu, B. Ooi

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引用次数: 20

摘要

电压源变换器(VSC)对P和Q(或P和V)具有2个独立的控制自由度，因此基于VSC (VSC HVDC)的高压直流(HVDC)传输链路具有4个稳态控制自由度。其中2个致力于通过直流链路确定和协调实际功率P。这使得每个换流站都有一个控制自由度来控制无功功率Q。动态地，基于扰动变量/spl Delta/P和/spl Delta/Q(或/spl Delta/P和/spl Delta/V)， vdc - hvdc链路又有4个控制自由度。通过数字仿真，本文表明两个/spl δ / p可以解耦区域间的模态，每个/spl δ /V(或/spl δ /Q)可以同时抑制换流站所在区域内的局部模态。在附录中给出了这些能力的数学证明。

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Simultaneous inter-area decoupling and local area damping by voltage source HVDC

The voltage-source converter (VSC) has 2 independent control degrees of freedom over P and Q (or P and V). Thus a high voltage DC (HVDC) transmission link based on VSCs (VSC HVDC) has 4 steady-state control freedoms. Of these, 2 are devoted to specifying and to coordinating the real power P through the DC link. This leaves one control freedom at each converter station to control the reactive power Q. Dynamically, the VSC-HVDC link has again 4 control freedoms based on the perturbation variables /spl Delta/P and /spl Delta/Q (or /spl Delta/P and /spl Delta/V). Through digital simulations, this paper shows that the two /spl Delta/Ps can de-couple the inter-area modes and each /spl Delta/V (or /spl Delta/Q) can simultaneously damp local modes within the area in which the converter station is situated. A mathematical proof for these capabilities is given in an appendix.

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来源期刊

2001 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.01CH37194)

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