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Identification of Cross-Country Fault with High Impedance Syndrome in Transmission Line Using Tunable Q Wavelet Transform

Author

Listed:
  • Pampa Sinha

    (School of Electrical Engineering, KIIT University, Bhubaneswar 751024, India)

  • Kaushik Paul

    (Department of Electrical Engineering, BIT Sindri, Dhanbad 828123, India)

  • Chidurala Saiprakash

    (School of Electrical Engineering, KIIT University, Bhubaneswar 751024, India)

  • Almoataz Y. Abdelaziz

    (Faculty of Engineering & Technology, Future University in Egypt, Cairo 11835, Egypt)

  • Ahmed I. Omar

    (Electrical Power and Machines Engineering Department, The Higher Institute of Engineering at El-Shorouk City, El-Shorouk Academy, Cairo 11837, Egypt)

  • Chun-Lien Su

    (Department of Electrical Engineering, National Kaohsiung University of Science and Technology, Kaohsiung City 807618, Taiwan)

  • Mahmoud Elsisi

    (Department of Electrical Engineering, National Kaohsiung University of Science and Technology, Kaohsiung City 807618, Taiwan
    Electrical Engineering Department, Faculty of Engineering at Shoubra, Benha University, Cairo 11629, Egypt)

Abstract

The transmission lines of an electricity system are susceptible to a wide range of unusual fault conditions. The transmission line, the longest part of the electricity grid, sometimes passes through wooded areas. Storms, cyclones, and poor vegetation management (including tree cutting) increase the risk of cross-country faults (CCFs) and high-impedance fault (HIF) syndrome in these regions. Recognizing and classifying CCFs associated with HIF syndrome is the most challenging part of the project. This study extracted signal characteristics associated with CCF and HIF syndrome using the Tunable Q Wavelet Transform (TQWT). An adaptive tunable Q-factor wavelet transform (TQWT) based feature-extraction approach for CCHIF fault signals with high impact, short response period, and broad resonance frequency bandwidth was presented. In the first part, the time–frequency distribution of the vibration signal is used to determine the distinctive frequency range. Adaptive optimal matching of the impact characteristic components in the vibration signal was achieved by optimizing the number of decomposition layers, quality factor, and redundancy of TQWT based on the characteristic frequency band. In the last, the TQWT inverse transform was utilized to recreate the best sub-band to boost its weak impact characteristics. The effectiveness of the approach is confirmed by simulation and experimental findings in signal processing. The best decomposition level for signature features that can be extracted has been decided by Minimum Description length (MDL). The IEEE 39-bus system is used to test the suggested approach with reactor switching and the Ferranti effect.

Suggested Citation

  • Pampa Sinha & Kaushik Paul & Chidurala Saiprakash & Almoataz Y. Abdelaziz & Ahmed I. Omar & Chun-Lien Su & Mahmoud Elsisi, 2023. "Identification of Cross-Country Fault with High Impedance Syndrome in Transmission Line Using Tunable Q Wavelet Transform," Mathematics, MDPI, vol. 11(3), pages 1-30, January.
    • Handle: RePEc:gam:jmathe:v:11:y:2023:i:3:p:586-:d:1043944
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    References listed on IDEAS

    as
    1. S. Maximov & V. Torres & H. F. Ruiz & J. L. Guardado, 2014. "Analytical Model for High Impedance Fault Analysis in Transmission Lines," Mathematical Problems in Engineering, Hindawi, vol. 2014, pages 1-10, September.
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