Performance Analysis of Pilot Zero Sequence Directional Protection for Double Circuit Transmission Lines under Complex Fault Condition

2021 3rd Asia Energy and Electrical Engineering Symposium (AEEES) Pub Date : 2021-03-26 DOI:10.1109/AEEES51875.2021.9403000

Hong Cao, Shuyang Wang, Qiu Xia, Kai Xu, Xingguo Wang, Dingxiang Du

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Abstract

Double-circuit transmission lines are widely used in UHV transmission, which can improve the reliability of the lines. The pilot zero-sequence directional protection has a high sensitivity to asymmetric ground faults of the entire power grid. During the period when complex faults occur on one circuit of double-circuit transmission lines on the same tower, due to the existence of multiple fault sources, the pilot zero-sequence directional protection may refuse to operate. Based on the principle of pilot zero-sequence directional protection, taking the single-phase grounding-disconnection complex fault of typical double-circuit lines as the research object, this paper qualitatively puts forward the influencing factors on the misoperation of pilot zero-sequence directional protection. Finally, through RTDS modeling and simulation, the influence of sending & receiving power flow and transition resistance on pilot zero-sequence directional protection when complex faults occur at different fault points is verified.

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复杂故障条件下双回线路导频零序定向保护性能分析

双回路输电线路广泛应用于特高压输电，可以提高线路的可靠性。导频零序定向保护对整个电网的非对称接地故障具有很高的灵敏度。在同一塔上双回输电线路的一条线路发生复杂故障时，由于多个故障源的存在，导频零序定向保护可能会拒绝运行。基于导频零序定向保护原理，以典型双回线路单相接地断开复杂故障为研究对象，定性地提出了导频零序定向保护误动作的影响因素。最后，通过RTDS建模与仿真，验证了不同故障点发生复杂故障时，收发潮流和过渡电阻对导频零序定向保护的影响。

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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2021 3rd Asia Energy and Electrical Engineering Symposium (AEEES)

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