Research Article
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Year 2020, , 19 - 29, 30.06.2020
https://doi.org/10.29002/asujse.653362

Abstract

References

  • [1] A. Abu-Siada, S. Islam, A novel on line technique to detect power transformer winding faults, IEEE Trans. Power Delivery, 27(2) (2012) 849-857.
  • [2] M.S. Ballal, D. M. Ballal, H. M. Suryawanshi, M. K. Mishra, Wing technique: A novel approach for the detection of stator winding inter-turn short circuit and open circuit faults in three phase induction motors, Journal of Power Electronics, 12(1) (2012) 208-214.
  • [3] V. Behjat, A. Vahedi, Numerical modelling of transformers interturn faults and characterising the faulty transformer behaviour under various faults and operating conditions, IET Electric Power Applications, 5(5) (2011) 415-431.
  • [4] V. Behjat, A. Vahedi, An experimental approach for investigating low-level interturn winding faults in power transformers, Electrical Engineering, 95(2) (2013) 135-145.
  • [5] V. Behjat, A. Vahedi, A. Setayeshmehr, H. Borsi, E. Gockenbach, Sweep frequency response analysis for diagnosis of low level short circuit faults on the windings of power transformers: An experimental study, Journal of Electrical Power and Energy Systems, 42(1) (2012) 78-90.
  • [6] O. E. Gouda1, A. Z. E. Dein, I. Moukhtar, Turn-to-earth fault modelling of power transformer based on symmetrical components, IET Generation Transmission Distribution, 7(7) (2013) 709-716.
  • [7] Y. C. Kang, B. E. Lee, T. Y. Zheng, Y. H. Kim, P. A. Crossley, Protection, faulted phase and winding identification for the three-winding transformer using the increments of flux linkages, IET Generation Transmission Distribution, 4(9) (2010) 1060-1068.
  • [8] X. Lei, J. Li, Y. Wang, S. Mi, C. Xiang, Simulative and experimental investigation of transfer function of inter-turn faults in transformer windings, Electric Power Systems Research, 107 (2014) 1-8.
  • [9] M. S. Naderi, G. B. Gharehpetian, M. Abedi, T. R. Blackburn, Modelling and detection of transformer internal incipient fault during impulse test, IEEE Trans. Dielectr. Electr. Insul., 15(1) (2008) 284-291.
  • [10] L. M. R. Oliveira, A. J. M. Cardoso, A permeance based transformer model and its application to winding interturn arcing fault studies, IEEE Trans. Power Del., 25(3) (2010) 1589-1598.
  • [11] L. M. R. Oliveira, A. J. M. Cardoso, S. M. A. Cruz, Power transformers winding fault diagnosis by the on-load exciting current extended Park's vector approach, Electric Power Systems Research, 81(6) (2011) 1206-1214.

Analysis of the Failures in Power Transformers

Year 2020, , 19 - 29, 30.06.2020
https://doi.org/10.29002/asujse.653362

Abstract

In this study, the failures in Transformer Centers in Mersin Province Erdemli District have been investigated. The causes of the failures have been discussed. It is aimed to create a method for the reasons of possible failures of power transformer. The data have been collected by investigating the faults occurring at the Erdemli Substations. The failure statistics of the 200 power transformer failures that occurred between 2003 and 2019 in the Erdemli district of Mersin province have been examined. Examples of different power transformer failures have been given in fault analysis. The reasons of power transformer failures and the precautions to be taken have been explained.

References

  • [1] A. Abu-Siada, S. Islam, A novel on line technique to detect power transformer winding faults, IEEE Trans. Power Delivery, 27(2) (2012) 849-857.
  • [2] M.S. Ballal, D. M. Ballal, H. M. Suryawanshi, M. K. Mishra, Wing technique: A novel approach for the detection of stator winding inter-turn short circuit and open circuit faults in three phase induction motors, Journal of Power Electronics, 12(1) (2012) 208-214.
  • [3] V. Behjat, A. Vahedi, Numerical modelling of transformers interturn faults and characterising the faulty transformer behaviour under various faults and operating conditions, IET Electric Power Applications, 5(5) (2011) 415-431.
  • [4] V. Behjat, A. Vahedi, An experimental approach for investigating low-level interturn winding faults in power transformers, Electrical Engineering, 95(2) (2013) 135-145.
  • [5] V. Behjat, A. Vahedi, A. Setayeshmehr, H. Borsi, E. Gockenbach, Sweep frequency response analysis for diagnosis of low level short circuit faults on the windings of power transformers: An experimental study, Journal of Electrical Power and Energy Systems, 42(1) (2012) 78-90.
  • [6] O. E. Gouda1, A. Z. E. Dein, I. Moukhtar, Turn-to-earth fault modelling of power transformer based on symmetrical components, IET Generation Transmission Distribution, 7(7) (2013) 709-716.
  • [7] Y. C. Kang, B. E. Lee, T. Y. Zheng, Y. H. Kim, P. A. Crossley, Protection, faulted phase and winding identification for the three-winding transformer using the increments of flux linkages, IET Generation Transmission Distribution, 4(9) (2010) 1060-1068.
  • [8] X. Lei, J. Li, Y. Wang, S. Mi, C. Xiang, Simulative and experimental investigation of transfer function of inter-turn faults in transformer windings, Electric Power Systems Research, 107 (2014) 1-8.
  • [9] M. S. Naderi, G. B. Gharehpetian, M. Abedi, T. R. Blackburn, Modelling and detection of transformer internal incipient fault during impulse test, IEEE Trans. Dielectr. Electr. Insul., 15(1) (2008) 284-291.
  • [10] L. M. R. Oliveira, A. J. M. Cardoso, A permeance based transformer model and its application to winding interturn arcing fault studies, IEEE Trans. Power Del., 25(3) (2010) 1589-1598.
  • [11] L. M. R. Oliveira, A. J. M. Cardoso, S. M. A. Cruz, Power transformers winding fault diagnosis by the on-load exciting current extended Park's vector approach, Electric Power Systems Research, 81(6) (2011) 1206-1214.
There are 11 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Article
Authors

Mehmet Zile 0000-0002-0457-2124

Publication Date June 30, 2020
Submission Date November 30, 2019
Acceptance Date May 5, 2020
Published in Issue Year 2020

Cite

APA Zile, M. (2020). Analysis of the Failures in Power Transformers. Aksaray University Journal of Science and Engineering, 4(1), 19-29. https://doi.org/10.29002/asujse.653362

Aksaray J. Sci. Eng. | e-ISSN: 2587-1277 | Period: Biannually | Founded: 2017 | Publisher: Aksaray University | https://asujse.aksaray.edu.tr




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