Practical Issues of Processing Synchrophasor Measurement Data in the Analysis of Low-Frequency Oscillations in Power System

2019 2nd International Youth Scientific and Technical Conference on Relay Protection and Automation (RPA) Pub Date : 2019-10-01 DOI:10.1109/RPA47751.2019.8958016

A. Rodionov, A. Blinov, K. Butin, A. Mokeev, A. Popov

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引用次数: 1

Abstract

One of the important problems in ensuring the quality of power systems operation is the analysis of their oscillatory stability [1–3]. The poorly damped low-frequency oscillations (LFO) negatively affecting the reliability of the system are particularly interesting [1, 2, 4]. One of the main reasons for their occurrence is a significant power imbalance, and one of the factors of their continuation and development is the incorrect work of the regulators of the excitation system of electric generators [1, 2]. The poor damping of these oscillations leads to negative consequences, for example, the degradation of power quality, undue stress on equipment, system separation, blackouts, and others. The mentioned oscillations are observed in the low-frequency part of the spectrum (to 4 Hz) of the measured quantities (power, frequency) [5, 6]. The corresponding components of the measurement signals are called low-frequency modes. The example of measured signal and two low-frequency modes are shown in Fig. 1.

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电力系统低频振荡分析中同步量测量数据处理的实际问题

电力系统振荡稳定性分析是保证电力系统运行质量的重要问题之一[1-3]。低阻尼低频振荡(LFO)对系统可靠性的负面影响尤其令人关注[1,2,4]。其发生的主要原因之一是显著的功率不平衡，而其持续发展的因素之一是发电机励磁系统调节器工作不正确[1,2]。这些振荡的不良阻尼会导致负面后果，例如，电能质量的下降，设备的过度压力，系统分离，停电等。上述振荡是在被测量(功率、频率)频谱的低频部分(至4hz)观察到的[5,6]。测量信号的相应分量称为低频模态。测量信号和两种低频模式的示例如图1所示。

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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2019 2nd International Youth Scientific and Technical Conference on Relay Protection and Automation (RPA)

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