Adding shaft angle measurement to generator protection and monitoring

2013 66th Annual Conference for Protective Relay Engineers Pub Date : 2013-04-08 DOI:10.1109/CPRE.2013.6822062

G. Zweigle, D. Finney, R. Moxley

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引用次数: 16

Abstract

Traditional protective relays for generators have used electrical quantities (current and voltage) to measure the condition of the machine. It has long been recognized that information about the machine can also be used in protection. New technology makes it possible to combine mechanical and electrical inputs. This paper examines the use of rotor shaft angle measurement in a generator combined with the electrical angle of the output voltage. This provides for the direct measurement of system conditions that could only be estimated or approximated with earlier technologies. Some of the protection, control, and situational awareness applications now possible include the following: Subsynchronous resonance detection and mitigation : Out-of-step detection : Machine parameter estimation and validation : Transient stability control. One significant improvement over previous applications that provided these functions is that no physical connection or significant modification of the shaft is necessary. As power grids operate closer to critical stability limits, the ability to measure and control precise shaft angle will provide the high reliability necessary for electric power.

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在发电机保护和监测中增加轴角测量

发电机的传统保护继电器使用电量(电流和电压)来测量机器的状态。人们早就认识到，关于机器的信息也可以用于保护。新技术使机械和电气输入相结合成为可能。本文结合输出电压的电角，探讨了转子轴角测量在发电机中的应用。这提供了只能用早期技术估计或近似的系统条件的直接测量。现在可能的一些保护、控制和态势感知应用包括:次同步共振检测和缓解;失步检测;机器参数估计和验证;瞬态稳定性控制。与以前提供这些功能的应用相比，一个显著的改进是不需要物理连接或对轴进行重大修改。随着电网运行接近临界稳定性极限，测量和控制精确轴角的能力将为电力提供必要的高可靠性。

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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2013 66th Annual Conference for Protective Relay Engineers

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