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Article title

Properties of Acoustic Emission Signals Coming from Partial Discharges Caused by Modeled Sources Immersed in Transformer Oil

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EN
Abstracts
EN
Investigation results concerning acoustic emission signals coming from partial discharges generated by modeled sources are presented in the paper. These sources have been made using different bushing ends (without any extra elements and with a thread or a pike) situated directly in the oil, but without screens typical for partial discharge investigations in a bushing. Measurements have been carried out using own measuring acoustic emission system DEMA-COMP and - in a parallel way - computer-aided partial discharges measuring system TE 571 (produced by the firm Haefely Trench). Fundamental and advanced analysis of acoustic emission signals has been made. These signals were recorded in 20 measuring situations which need to multiple installation of acoustic emission sensors. Conclusions resultant from own originate advanced analysis of signals content description of properties revealed by defined acoustic emission descriptors.
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author
  • Department of Optoelectronics, Silesian University of Technology, Krzywoustego 2, 44-100 Gliwice, Poland
author
  • Institute of Power Systems and Control, Silesian University of Technology, Krzywoustego 2, 44-100 Gliwice, Poland
References
  • 1. F. Witos, Z. Gacek, in: CIGRE 39th Int. Session, Paris 2002, p. 11
  • 2. F. Witos, Z. Gacek, A. Opilski, Arch. Acoust. 27, 65 (2002)
  • 3. F. Witos, Z. Gacek, in: Proc. XIIIth Int. Symp. on High Voltage Engineering, Netherlands 2003, Ed. Smit, Milpress, Rotterdam 2003
  • 4. F. Witos, Z. Gacek, P. Paduch, Mol. Quant. Acoust. 28, 271 (2007)
  • 5. F. Witos, Investigation of partial discharges by means of acoustic emission method and electric method, Wyd. Politechniki Śląskiej, Gliwice 2008 (in Polish)
  • 6. F. Witos, Z. Gacek, Europ. Phys. J.-Spec. Top. 154, 239 (2008)
  • 7. F. Witos, Z. Gacek, Z. Opilski, Acta Phys. Pol. A 114, A-249 (2008)
  • 8. T. Boczar, IEEE Trans. Dielectric Electrical Insulation, 8, 598 (2001)
  • 9. T. Boczar, M. Szmechta, D. Zmarzły, Mol. Quant. Acoust. 28, 39 (2007)
  • 10. T. Boczar, S. Borucki, A. Cichon, Mol. Quant. Acoust. 28, 13 (2007)
  • 11. T. Boczar, S. Borucki, A. Cichon, M. Lorenc, Acta Phys. Pol. A 114, A-21 (2008)
  • 12. Z. Deheng, T. Kexiong, J. Xianche, in: II Conf. Properties and Application of Dielectric Materials, vol. 2, Pekin 1988, p. 614
  • 13. J. Deng,H.Xiao, W.Huo, M.Luo, R.May, A.Wang, Y.Liu, Opt. Laser Technol. 33, 305 (2001)
  • 14. A.S. Faraq, M.H. Shewdi, X.Jin, C.Wang, T.C.Cheng, X.Dong, S.Gao, W.Jing, Z.Wang, Electric Power System Research 50, 47 (1999)
  • 15. L.E. Lundgaard, IEEE EI Magazine 8, 34 (1992)
  • 16. M. MacAlpine, Z. Zhiquiang, M.S. Demokan, Electric Power System Research 63, 27 (2002)
  • 17. J. Skubis, Acoustic emission within investigation of dielectric insulation of electroenergetic installations, IPPT PAN, Warszawa 1993 (in Polish)
  • 18. A. Sliwinski, Ultrasounds and their applications, WNT, Warszawa 2001 (in Polish)
  • 19. A. Szpakowski, C. Tyszkiewicz, T. Pustelny, Acta Phys. Pol. A 114, A-237 (2008)
Document Type
Publication order reference
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YADDA identifier
bwmeta1.element.bwnjournal-article-appv116n342kz
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