电力公司控制中心对发电机阻尼能力的态势感知

Paranietharan Arunagirinathan, G. Venayagamoorthy
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引用次数: 4

摘要

在过去,电力系统中阻尼不良的低频振荡导致了系统停电。电力系统稳定器(pss)的安装是为了提高同步发电机的振荡阻尼能力。研究了各种传统和新型优化方法对PSS参数的整定,以保证具有不确定性的互联电力系统的稳定安全运行。为了保证电力系统在运行过程中的持续安全,有必要采用不同的方法对调整后的pss进行评估。电力控制中心缺乏这种态势感知能力,无法帮助系统操作员了解同步发电机的振荡阻尼能力。由于人脑对图像和颜色的反应比文本和数字要快,因此开发先进的可视化并将其用于系统操作员是可取的。这些可视化可以利用相量测量单元的实时数据。本文介绍了一种用于控制中心模态分析可视化(MAV)的新工具的开发。对电力系统中发电机的振动进行了模态分析。MAV通过提供近乎实时的发电机振荡阻尼能力,增强了控制中心的态势感知能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Situational awareness in an electric utility's control center of its generators' damping capabilities
Poorly damped low frequency oscillations in power systems have led to system blackouts in the past. Power system stabilizers (PSSs) are installed to improve synchronous generator's oscillation damping capabilities. PSS parameter tuning by various traditional and new optimization methods are studied to ensure stable and secure operation of interconnected power systems with uncertainties. It is imperative to evaluate the tuned PSSs with the different methods to ensure continued security of a power system during operation. There is a lack of such situational awareness at electric utility control centers to assist system operators with the knowledge of synchronous generator's oscillation damping capabilities. Since the human brain responses to images and colors faster compared to text and numbers, it is desirable to develop advanced visualizations and avail them to system operators. These visualizations could utilize real-time data from phasor measurement units. This paper presents the development of a new tool for use in control centers for modal analysis visualization (MAV). Modal analysis is performed on oscillations exhibited by generators in a power system. The MAV enhances situational awareness at control centers by providing near real-time insight into generators' oscillation damping capabilities.
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