A FLUX-BASED TRANSFORMER MODEL WITH INTER-TURN FAULT CONSIDERING SATURATION EFFECT

Milad N. Azari and Mehdi Samami

References

  1. [1] R.S. Bhide, M.S.S. Srinivas, A. Banerjee, and R. Somakumar, Analysis of winding inter-turn fault in transformer: A review and transformer models, IEEE ICSET, Kandy, Sri Lanka, 2010.
  2. [2] P. Rajamani, D. Dey, and S. Chakravorti, Cross-correlation aided wavelet network for classification of dynamic insulation failure in transformer winding during impulse test, IEEE Transactions on Dielectrics and Electrical Insulation, 18(2), 2011, 521–532.
  3. [3] P. Rajamani and S. Chakravorti, Identification of simulta- neously occurring dynamic disc-to-disc insulation failures in transformer winding under impulse excitation, IEEE Transactions on Dielectrics and Electrical Insulation, 19(2), 2012, 443–453.
  4. [4] J.M. Lunsford and T.J. Tobin, Detection of and protection for low current winding in overhead distribution transformers, IEEE Transactions on Power Delivery, 12(3), 1997, 1241–1249.
  5. [5] T.S. Sidhu and M.S. Sachdev, On-line identification of magnetizing inrush and internal faults in three-phase transformers, IEEE Transactions on Power Delivery, 7(4), 1992, 1885–1891.
  6. [6] M. Buchholz, The Buchholz protection system and its application in practice, E. T. Z., 49(34), 1928, 1257–1262.
  7. [7] S. Palmer, Detection of fault in new and old transformers by dissolved-gas analysis, IET Power Engineering Journal, 2(1), 1988, 52–54.
  8. [8] J.J. Kelly, Transformer fault diagnosis by dissolved-gas analysis, IEEE Transactions on Industry Applications, IA-16(6), 1980, 777–782.
  9. [9] R.R. Rogers, IEEE and IEC codes to interpret incipient faults in transformers, using gas in oil analysis, IEEE Transactions on Electrical Insulation, EI-13(5), 1978, 349–354.
  10. [10] ANCI/IEEE Standard C57. 104-1978, IEEE Guide for detection and determination of gases in oil-immersed transformers and their relationship to the serviceability of the equipment.
  11. [11] H. Atkar and A. Vahedi, Detecting and locating tum to tum fault on layer winding of distribution transformer, IEEE CTPP, Tehran, 2014.
  12. [12] T. Paulraj, P. Hari Kishan Surjith, P. Dhana Sekaran, Modeling and location of faults in power transformer using transfer function and frequency response analysis, IEEE ICACCCT, Ramanathapuram, 2014.
  13. [13] E.P. Dick and C.C. Erven, Transformer diagnostic testing by frequency response analysis, IEEE Transactions on Power Apparatus and Systems, PAS97(6), 1978, 2144–2153.
  14. [14] M. Florkowski and J. Fargul, A high-frequency method for determining winding faults in transformers and electrical machines, Review of Scientific Instruments, 76, 2005, 114701-1– 114701-6.
  15. [15] J. Pleite, C. Gonzalez, J. Vazquez, and A. Lazaro, Power transformer core fault diagnosis using frequency response analysis, IEEE MELECON, Benalmadena (Malaga), Spain, 2006.
  16. [16] R. Rajamani, M. Rajappa, and B. Madanmohan, Sweep frequency response analysis based diagnosis of shorts within transformer windings, IET Generation, Transmission & Distribution, 11(17), 2017, 4274–4281.
  17. [17] A. Shintemirov, W.H. Tang, and Q.H. Wu, Transformer winding condition assessment using frequency response analysis and evidential reasoning, IET Electric Power Applications, 4, (3), 2010, 198–212.
  18. [18] P.A. Venikar, M.S. Ballal, B.S. Umre, and H.M. Suryawanshi, Sensitive incipient inter-turn fault detection algorithm for power transformers, IET Electric Power Applications, 10(9), 2016, 858–868.
  19. [19] Ch.P. Babu, M. Surya Kalavathi, and B.P. Singh, Use of wavelet and neural network (BPFN) for transformer fault diagnosis, IEEE Ann. Rep. Conf. Elect. Ins. Diel. Pheno, Kansas City, MO, 2006.
  20. [20] E.A. Mohamed, A.Y. Abdelaziz, and A.S. Mostafa, A neural network-based scheme for fault diagnosis of power transformers, Electric Power Systems Research, 75, 2005, 29–39.
  21. [21] P. Arboleya, G. Diaz, C. Gonzailez-Morain, and J.G- Aleixandre, A wavelet approach applied to transformer fault protection: signal processing, IEEE Eurocon, Belgrade, 2005.
  22. [22] K. Ramesh and M. Sushama, Inter-Turn fault detection in power transformer using fuzzy logic, IEEE ICSEMR, Chennai, 2014.
  23. [23] N. Farzin, M. Vakilian, and E. Hajipour, Transformer turn to turn fault protection based on fault related incremental currents, IEEE Transactions on Power Delivery, 34(2), 2019, 700–709.
  24. [24] F. Haghjoo and M. Mostafaei, Flux based method to diagnose and identify the location of turn-to-turn faults in transformers, IET Generation, Transmission & Distribution, 10(4), 2016, 1083–1091.
  25. [25] P. Bastard, P. Bertrand, and M. Meunier, A transformer model for winding fault studies, IEEE Transactions on Power Delivery, 9(2), 1994, 690–699.

Important Links:

Go Back