Biweight Midcorrelation Based Transmission Line Pilot Protection Algorithm

IF 3.3 Q3 ENERGY & FUELS IEEE Open Access Journal of Power and Energy Pub Date : 2024-02-13 DOI:10.1109/OAJPE.2024.3365747
Rodrigo Rozenblit Tiferes;Giovanni Manassero;Eduardo Lorenzetti Pellini;Silvio Giuseppe di Santo
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Abstract

This paper presents a novel pilot protection algorithm for alternating current (ac) transmission lines that relies on biweight midcorrelation (BWMC) coefficients between the terminals’ currents. The proposed solution was compared with recent and similar literature alternatives, and the results indicate that it is both effective in detecting faults of any type and that, as it is median-based, unlike the techniques used so far, the BWMC-based algorithm may be advantageous over existing methods as it presents higher robustness to not incorrectly trip on external faults, mainly under the critical conditions of CT saturation, noisy measurements, and sample misalignment, typically associated with outliers. The algorithm also proved effective against simultaneous multi-faults, weak infeed, power swing, multiple cases on different lines, and faults with time-varying transition resistance. The BWMC-based solution was finally experimentally tested in real-time with a hardware-in-the-loop system containing a CMC-256 set, an IEC 61850-based IED that embeds the algorithm’s logic, and current measurements recorded during actual faults on existing 500 kV lines from the Brazilian interconnected power system. All analyses indicate that this new algorithm can be a rapid, reliable, and robust solution.
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基于双重中相关性的输电线路先导保护算法
本文提出了一种新型交流输电线路先导保护算法,该算法依赖于终端电流之间的双权中相关系数(BWMC)。结果表明,该算法不仅能有效检测任何类型的故障,而且由于它是基于中值的,与迄今为止使用的技术不同,基于 BWMC 的算法可能比现有方法更有优势,因为它具有更高的鲁棒性,不会在外部故障时错误跳闸,主要是在 CT 饱和、噪声测量和样本错位(通常与异常值相关)等关键条件下。事实证明,该算法还能有效地应对同时发生的多故障、弱进线、功率摆动、不同线路上的多种情况以及具有时变过渡电阻的故障。基于 BWMC 的解决方案最终通过一个硬件在环系统进行了实时实验测试,该系统包含一套 CMC-256、一个基于 IEC 61850(嵌入了算法逻辑)的 IED,以及巴西互联电力系统现有 500 千伏线路实际故障期间记录的电流测量值。所有分析表明,这种新算法是一种快速、可靠和稳健的解决方案。
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来源期刊
CiteScore
7.80
自引率
5.30%
发文量
45
审稿时长
10 weeks
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