基于多模态分解信息的新能源场站送出线路纵联保护新判据

李振兴; 杨桄; 王莉; 胡聪; 翁汉琍; 李培阳

doi:10.19783/j.cnki.pspc.250636

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基于多模态分解信息的新能源场站送出线路纵联保护新判据

更新时间：2026-02-03

- 基于多模态分解信息的新能源场站送出线路纵联保护新判据
- Power System Protection and Control Issue 3, (2026)
- 作者机构：
  
  1. (1.新能源微电网湖北省协同创新中心(三峡大学),湖北,宜昌,443002
  2. 三峡大学电气与新能源学院,湖北,宜昌,443002
  3. 国家电网有限公司技术学院分公司,山东,济南,250002
- 作者简介：
- 基金信息：
- DOI：10.19783/j.cnki.pspc.250636
  CLC：
- Published：2026
- 稿件说明：
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李振兴, 杨桄, 王莉, et al. 基于多模态分解信息的新能源场站送出线路纵联保护新判据[J]. Power System Protection and Control, 2026, (3).
DOI：

李振兴, 杨桄, 王莉, et al. 基于多模态分解信息的新能源场站送出线路纵联保护新判据[J]. Power System Protection and Control, 2026, (3). DOI： 10.19783/j.cnki.pspc.250636.

摘要

针对新能源场站送出线路故障时因短路电流受限及频率偏移导致的传统保护性能下降问题，提出一种新型纵联保护判据，该判据基于经验模态分解(empirical mode decomposition

EMD)提取本征模态函数分量(intrinsic mode functions

IMF)，并利用Kendall相关系数进行故障识别。首先分析了传统纵联保护与现有相似度算法的适用性。在此基础上，对线路两端故障电流进行经验模态分解，并利用Kendall相关系数分析其分解信息的相似度，以揭示其中蕴含的故障特征。其次，深入分析区内外故障时各阶IMF分量Kendall系数的差异，据此评估不同分量的故障表征能力。最终，通过赋予各分量差异化权重，构建一个融合电流幅值、相位及极性特征的综合相似度保护判据。仿真结果表明，该方法能够不受新能源故障电流特性的影响，正确判别新能源场站多种故障场景下区内外短路故障，具有动作时间短、准确性高、适应性强的优势。

Abstract

To address the issue of performance degradation in traditional protection during faults on outgoing transmission lines from renewable energy plants caused by limited short-circuit current and frequency deviation

a new pilot protection criterion is proposed. The criterion is based on empirical mode decomposition (EMD) to extract multimodal components

i.e.

intrinsic mode functions (IMFs)

and employs the Kendall’s correlation coefficient for fault identification. First

the limitations of traditional protection and existing similarity algorithms are analyzed. On this basis

fault currents from line terminals are decomposed via EMD

and the similarity of the components is analyzed by using the Kendall coefficients to reveal fault characteristics. The differences in Kendall coefficients among IMFs of different orders during internal and external faults are examined to assess their fault representation capability. Finally

a comprehensive similarity-based protection criterion integrating current amplitude

phase

and polarity features is developed by adaptively weighting IMFs. Simulation results show that the proposed method is immune to the specific fault current characteristics of renewable energy sources and can accurately discriminate between internal and external short-circuit faults under various fault scenarios in renewable energy plants

featuring fast operation

high accuracy

and strong adaptability.

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