Modelling and Analysis of Electromechanical Stress in Transformers Caused by Short-Circuits

Authors

  • Rosentino Jr. A. J. P Author
  • Saraiva E Author
  • Delaiba A. C Author
  • Guimarães R Author
  • Lynce M Author
  • De Oliveira J. C Author
  • Fernandes Jr. D Author
  • Neves W Author

DOI:

https://doi.org/10.24084/repqj09.432

Abstract

A common reason for internal faults in transformers windings is the weakness insulation caused by vibration / deformation related to electromechanical forces produced by high short circuit currents. This phenomenon significantly reduces the transformer life expectancy and may even lead to its instantaneous or timing destruction. Focusing this subject this paper is aimed at presenting the performance of a time domain model inserted in a finite element program i.e. the 3D software package and the investigation of the relationship between high current levels occurring at transformer windings and the internal mechanical stresses. To highlight the overall model and the software performance, a laboratory 15 kVA transformer is utilized to show the programme facilities and potentially. The transformer has been built with concentric double-layer windings and ferromagnetic core with three columns and this equipment has been submitted to a balanced three-phase short- circuit. In addition, the computational simulations were carried out using distinct geometries to the windings i.e. with and without deformation.

Author Biographies

  • Rosentino Jr. A. J. P

    Faculty of Electrical Engineering

    Federal University of Uberlândia

    2121, Av. João Naves de Ávila, Department 3N, Santa Mônica, Uberlândia/MG - Brazil

    Phone/Fax number:+55 34 32394763, e-mail: arnaldoufu@gmail.com

     

  • Saraiva E

    Faculty of Electrical Engineering Federal University of Uberlândia 2121, Av. João Naves de Ávila, Department 3N, Santa Mônica, Uberlândia/MG - Brazil Phone/Fax number:+55 34 32394763, e-mail: elise.saraiva@yahoo.com.br

  • Delaiba A. C

    1 Faculty of Electrical Engineering

    Federal University of Uberlândia

    2121, Av. João Naves de Ávila, Department 3N, Santa Mônica, Uberlândia/MG - Brazil

    Phone/Fax number:+55 34 32394763, e-mail: delaiba@ufu.br

  • Guimarães R

    Faculty of Electrical Engineering

    Federal University of Uberlândia

    2121, Av. João Naves de Ávila, Department 3N, Santa Mônica, Uberlândia/MG - Brazil

    Phone/Fax number:+55 34 32394763,

  • Lynce M

    Faculty of Electrical Engineering Federal University of Uberlândia 2121, Av. João Naves de Ávila, Department 3N, Santa Mônica, Uberlândia/MG - Brazil Phone/Fax number:+55 34 32394763, e-mail: lynce@ufu.br

  • De Oliveira J. C

    Faculty of Electrical Engineering

    Federal University of Uberlândia

    2121, Av. João Naves de Ávila, Department 3N, Santa Mônica, Uberlândia/MG - Brazil

    Phone/Fax number:+55 34 32394763, e-mail:  jcoliveira@ufu.br

  • Fernandes Jr. D

    Center of Electrical Engineering and Computer Science, Electrical Engineering Department

    Federal University of Campina Grande

    882, Av. Aprígio Veloso, DEE/CEEI/UFCG, Electrical Systems Group, 58429-140 – Campina Grande/PB - Brazil

    Phone/Fax number:+55 83 33101267, e-mail: damasio@dee.ufcg.edu.br

  • Neves W

    Center of Electrical Engineering and Computer Science, Electrical Engineering Department

    Federal University of Campina Grande

    882, Av. Aprígio Veloso, DEE/CEEI/UFCG, Electrical Systems Group, 58429-140 – Campina Grande/PB - Brazil

    Phone/Fax number:+55 83 33101267, e-mail: waneves@dee.ufcg.edu.br

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Published

2024-01-17

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Articles