Compensation of Systematic Measurement Errors in PMU-based Monitoring Systems for Transmission Grids

C. Muscas, P. Pegoraro, C. Sitzia, Antonio Vincenzo Solinas, S. Sulis
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Abstract

In the context of modern power systems, the availability of accurate knowledge of line parameters is a requirement to improve any monitoring and control applications. This knowledge is not easy to obtain even in the presence of a monitoring infrastructure of last generation based on Phasor Measurement Units (PMUs). To address this challenge, the paper proposes a method for improving line parameters estimation through the simultaneous estimation of the systematic measurement errors from the instrument transformers. The problem is faced starting from an appropriate modelling of the system, which includes the uncertainties associated with instrument transformers and PMUs. Moreover, the designed algorithm exploits the available constraint equations derived from the network model. The validity of the proposed approach is tested on a portion of the IEEE 14 bus system and confirmed by the presented results.
基于pmu的输电网监测系统测量误差补偿
在现代电力系统的背景下,获得准确的线路参数知识是改善任何监测和控制应用的必要条件。即使在上一代基于相量测量单元(pmu)的监测基础设施存在的情况下,这种知识也不容易获得。为了解决这一挑战,本文提出了一种通过同时估计仪器变压器的系统测量误差来改进线路参数估计的方法。该问题从系统的适当建模开始,其中包括与仪表变压器和pmu相关的不确定性。此外,所设计的算法利用了由网络模型导出的可用约束方程。在ieee14总线系统的一部分上进行了测试,结果证实了所提方法的有效性。
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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