Monitoring and control of voltage stability in power systems

Proceedings 1995 International Conference on Energy Management and Power Delivery EMPD '95 Pub Date : 1995-11-21 DOI:10.1109/EMPD.1995.500750

A. Sallam, M. Aboul-Ela, E.E. Elaraby

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引用次数: 7

Abstract

This paper proposes a new technique in controlling voltage instability in power systems. This technique coordinates between the reactive power of excitation systems and that of static VAr compensators (SVCs). The method starts with the decomposition of system into several voltage control areas (VCAs). When a reactive power deficiency occurs in certain area, excitation systems respond first to supply the required reactive power by increasing reactive generation of synchronous generators to its upper limit. If more reactive power is needed within the specific area to recover voltage instability, an SVC will be inserted by a switching controller in order to achieve the reactive balance. This controller receives an actuating signal when the terminal voltage is still unsatisfactory. By this technique, it is possible to fully utilize the excitation systems reactive power, and to design economically sized SVCs to recover voltage instability. The application of the proposed technique on the New-England 39 bus system proves its efficiency in controlling voltage instability.

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电力系统电压稳定性的监测与控制

本文提出了一种控制电力系统电压不稳定的新技术。该技术在励磁系统的无功功率和静态无功补偿器的无功功率之间进行协调。该方法首先将系统分解为若干电压控制区(vca)。当某一区域出现无功功率不足时，励磁系统首先响应，通过将同步发电机的无功功率增加到上限来提供所需的无功功率。如果在特定区域内需要更多的无功功率来恢复电压不稳定，则通过开关控制器插入SVC以实现无功平衡。当终端电压仍然不理想时，控制器接收一个驱动信号。通过这种技术，可以充分利用励磁系统的无功功率，并设计经济规模的svc来恢复电压不稳定。该技术在新英39母线系统上的应用证明了其控制电压不稳定的有效性。

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

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