基于SVC控制的高压直流输电系统暂态稳定裕度快速预测

Proceedings 1995 International Conference on Energy Management and Power Delivery EMPD '95 Pub Date : 1995-11-21 DOI:10.1109/EMPD.1995.500771

S. Tso, S. P. Cheung

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引用次数: 7

摘要

利用基于能量的直接方法预测暂态稳定余量(TSM)的最新进展包括励磁控制器、电力系统稳定器(pss)和/或静态无功补偿器(SVCs)。这些器件可以在其详细的动态模型中表示到所需的复杂程度，而提出的“扩展”等面积准则仍然可以有效地应用。本文描述了该技术的进一步发展，以将高压直流输电纳入TSM预测的测试网络。以华南/香港17台实际电网为例，对该方法进行了验证。为了提高试验网的暂态稳定性，还在试验网的弱母线上安装了SVC控制方案。结果表明，将SVC和HVDC切实纳入研究后，TSM方法的准确性、速度和可靠性均没有降低。

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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Fast prediction of transient stability margin in systems with SVC control and HVDC link

Recent developments in transient stability margin (TSM) prediction using the energy-based direct method have included excitation controllers, power system stabilizers (PSSs) and/or static VAr compensators (SVCs). These devices can be represented in their detailed dynamic models to desired degrees of complexity while the proposed "extended" equal-area criterion can still be effectively applied. This paper describes further development of this technique to incorporate an HVDC transmission into the test network for TSM prediction. The method is examined with a practical 17-machine power network representing the South China/Hong Kong system. An SVC control scheme is also installed in a weak bus of the test network for transient stability improvement. The results obtained show that there is no sacrifice in accuracy, speed or reliability of the TSM method with SVC and HVDC realistically incorporated into the study.

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Proceedings 1995 International Conference on Energy Management and Power Delivery EMPD '95

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