A mathematical method for local defects and faults identification of 10 kV three-core cable based on input impedance spectrum

IF 1.4 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Iet Science Measurement & Technology Pub Date : 2022-07-21 DOI:10.1049/smt2.12119

Yan Wang, Jialin Zhang, Chongcheng Yao, Hongshan Zhao

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引用次数: 1

Abstract

Due to the strong coupling among the conductors of 10 kV three-core armored cables and the difficulty in identifying its defects and fault types, a method is proposed based on the input impedance spectrum. Firstly, the phase mode transformation matrix of a three-core cable is obtained by combining the multi-conductor transmission line theory with the loop analysis method to realize decoupling between conductors. Secondly, the input impedance matrices of a cable under different situations are derived. Based on this, a method is proposed to identify the local defects and fault types. The capacitive defects and inductive defects are identified according to the left or right offset of the amplitude spectrum; the short circuit and break faults of the cable can be identified according to the number of resonant points in the amplitude spectrum and the initial phase angle of the phase spectrum. Finally, to verify the correctness of the proposed method, a 10 kV three-core cable is taken as an example to carry out PSCAD circuit simulation and practical test. The results show that the proposed method can effectively identify the local defects and fault types of the three-core cable.

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基于输入阻抗谱的10kv三芯电缆局部缺陷与故障识别的数学方法

针对10kv三芯铠装电缆导体间耦合强、缺陷和故障类型难以识别的问题，提出了一种基于输入阻抗谱的方法。首先，将多导体传输线理论与环路分析方法相结合，得到三芯电缆的相模变换矩阵，实现导线间的解耦;其次，推导了不同情况下电缆的输入阻抗矩阵。在此基础上，提出了一种局部缺陷和故障类型识别方法。根据振幅谱的左偏或右偏来识别电容性缺陷和电感性缺陷;根据振幅谱中谐振点的个数和相位谱的初始相位角，可以识别电缆的短路和断路故障。最后，为了验证所提方法的正确性，以10kv三芯电缆为例，进行了PSCAD电路仿真和实际测试。结果表明，该方法能有效识别三芯电缆的局部缺陷和故障类型。

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来源期刊

Iet Science Measurement & Technology 工程技术-工程：电子与电气

CiteScore

4.30

自引率

7.10%

发文量

审稿时长

7.5 months

期刊介绍： IET Science, Measurement & Technology publishes papers in science, engineering and technology underpinning electronic and electrical engineering, nanotechnology and medical instrumentation.The emphasis of the journal is on theory, simulation methodologies and measurement techniques. The major themes of the journal are: - electromagnetism including electromagnetic theory, computational electromagnetics and EMC - properties and applications of dielectric, magnetic, magneto-optic, piezoelectric materials down to the nanometre scale - measurement and instrumentation including sensors, actuators, medical instrumentation, fundamentals of measurement including measurement standards, uncertainty, dissemination and calibration Applications are welcome for illustrative purposes but the novelty and originality should focus on the proposed new methods.