Non-unit protection method for boundary-component-free MTDC systems using normalized backward traveling waves

IF 5 2区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC International Journal of Electrical Power & Energy Systems Pub Date : 2024-11-22 DOI:10.1016/j.ijepes.2024.110370

Fan Xie , Le Liu , Zhiguo Hao , Ting Wang , Songhao Yang , Aleksandra Lekić , Marjan Popov

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Abstract

The performance of existing protection methods for multi-terminal direct current systems depends on the availability and sizes of boundary components. To overcome the limitation, this paper proposes a non-unit DC line protection method based on the normalized backward traveling waves (BTWs) of the 1-mode voltage. Firstly, traveling wave propagation characteristics are analyzed, and a rationalization approach based on vector fitting is proposed. Next, the analytical expressions of normalized BTWs are derived, with the negative correlation between them and fault distance proved. Then, the derivative-free conjugate gradient algorithm is utilized for amplitude fitting and normalization calculation. Finally, a non-unit protection method using the normalized BTWs is developed. The performance is validated for both electromagnetic transient PSCAD/EMTDC and real-time digital RSCAD/RTDS simulation. The results demonstrate that the proposed method can accurately identify faults with various fault resistances and locations without requiring boundary components and high sampling frequencies, and it is robust against noise disturbances.

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使用归一化后向行波的无边界分量 MTDC 系统的非单元保护方法

现有的多端直流系统保护方法的性能取决于边界元件的可用性和尺寸。为了克服这一限制，本文提出了一种基于单模电压归一化后向行波（BTWs）的非单元直流线路保护方法。首先，分析了行波的传播特性，并提出了基于矢量拟合的合理化方法。接着，推导了归一化 BTWs 的解析表达式，并证明了它们与故障距离之间的负相关性。然后，利用无导数共轭梯度算法进行振幅拟合和归一化计算。最后，利用归一化 BTWs 开发了一种非单元保护方法。在电磁暂态 PSCAD/EMTDC 和实时数字 RSCAD/RTDS 仿真中对其性能进行了验证。结果表明，所提出的方法无需边界组件和高采样频率，就能准确识别各种故障电阻和位置的故障，并且对噪声干扰具有良好的鲁棒性。

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来源期刊

International Journal of Electrical Power & Energy Systems 工程技术-工程：电子与电气

CiteScore

12.10

自引率

17.30%

发文量

1022

审稿时长

51 days

期刊介绍： The journal covers theoretical developments in electrical power and energy systems and their applications. The coverage embraces: generation and network planning; reliability; long and short term operation; expert systems; neural networks; object oriented systems; system control centres; database and information systems; stock and parameter estimation; system security and adequacy; network theory, modelling and computation; small and large system dynamics; dynamic model identification; on-line control including load and switching control; protection; distribution systems; energy economics; impact of non-conventional systems; and man-machine interfaces. As well as original research papers, the journal publishes short contributions, book reviews and conference reports. All papers are peer-reviewed by at least two referees.