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CONTINUOUS WAVELET TRANSFORM FOR FERRORESONANCE PHENOMENON IN ELECTRIC POWER SYSTEMS

Yıl 2013, Cilt: 3 Sayı: 3, 611 - 614, 01.12.2013

Öz

This study is related to determination of the ferroresonance phenomenon for Seyitomer-Isiklar part of the Electric Power
System of 380 kV in Turkey. In this manner, Simulation data, which is produced from the Matlab-Simulink model, is
considered for voltage variation of the R-Phase of the power system and then the continuous wavelet transform (CWT) is
applied to this voltage variation. Results are examined on the time-scale plane and most dominant scale can be determined
as a feature of the ferroresonance phenomenon. Hence, it can be shown that this extracted feature provides all pre-definitions
of the ferroresonance event. Consequently, the ferroresonance phenomenon can be determined by overvoltage variations
from the sub-scales of the original voltage variation.

Kaynakça

  • Akıncı, T.Ç.; Şeker, S.; Ekren, N.: “Spectral Analysis for Signal Based on Ferroresonance Phenomena in Electric Power System”, International Conference Engineering, Technologies and Systems TechSys'2009, Fundamental Sciences and Applications”, Vol.14, May 29-30, Plovdiv, Bulgaria, (2009).
  • Akıncı, T.Ç.; Şeker, S.; Ekren, N.: “Feature Extraction for Ferroresonance Phenomena International Conference on Modeling and Simulation (IASTED) MS’09, Alberta, Canada, July (2009).
  • Yıldırım, S.; Akıncı, T.Ç.; Şeker, S.; Ekren, N.: “Determination of The Characteristics for Ferroresonance Phenomenon in Electric Power Systems”, World Academy of Science, Engineering and Technology, Vol.55, ISSN:2070-3724, Oslo, Norway, 29-31 July (2009) 108-112.
  • Akıncı, T.Ç.; “Determination of Ferroresonance Phenomenon with Spectral and Wavelet Analysis in Power Systems”, Ph.D Thesis , University of Marmara, Institute of Natural Science , Istanbul, Turkey, (2009). (in Turkish)
  • Kumar, G., Rajan, S., Rangarajan, R., Analysis of Ferroresonance in a Power Transformer with Multiple Nonlinearities, International Journal of Emerging Electric Power Systems, Volume:7, Issue:2, Article:2, (2006).
  • Tanggawelu, B., Mukerjee, R.N., Ariffin, A.E., Ferroresonance Studies in Malaysian Utility’s Distribution Network, Proc. IEEE Power Engineering Society General Meeting, 2, 1216- 1219 (2003).
  • Stojkovsa, B., Stefanovska, A., Glob, R., Grgic, D., Time – Delay Feedback Control of Ferroresonant Chaotic Oscillations, IEEE Porto Power Tech Conference 10th-13th September, Porto Portugal, (2001).
  • M.R. Iravani, Chair, Modeling and analysis guide- lines for slow transients- part III: the study of ferroresonance, IEEE Working Group on Modeling and Analysis of Systems Transients, IEEE Transactions on Power Delivery, 15, 255- 265 (2000).
  • Saied M.M., Abdallah H.M. and Abdallah A.S., Damping Effect of Load on the Ferroresonance Phenomenon in Power Networks, Electric Power System Research, 7, 271-277 (1984). [10] A.S. Abdallah and Power Ferroresonance Experimental Phenomenon Assessment, JKAU: Eng. Sci., vol. 16 no. 1, pp. 71-82 (2005 A.D./1426 A.H.) Transformers
  • Buigues, B., Zamora, I., Valverde, V., Mazon, A.J., San Martin, J.I., Ferroresonance In Three –Phase Power Distribution Transformers: Sources, Consequences and Prevention, 19thInternational Conference on Electricity Distribution, paper:0197,CIRED, Vienna 21-24 May. (2007).
  • IEEE Std. 519-2000 Draft 0 - Recommend Practices and Requirements for Harmonic Control in Electric Power Systems. [13] Zbigniew Hanzelka & Andrzej Bien, Harmonics- Interharmonics, Power Quality Application Guide 3.1.1, Copper Development Association- IEE Endorsed Provider, July, 2004.
  • Charalambous, C., Wang, Z.D., Li, J., Osborne, M., Jarman, P., Validation of a Power Transformer Model for Ferroresonance with System Tests on a 400 kV Circuit, International Conference on Power Systems Transients (IPST’07), Lyon, France, 4-7 June, (2007).
  • Jacobson D.A.N., Marti, L., Menzies, R.W., Modeling Ferroresonance in a 230 kV Transformer - Terminated Double - Circuit Transmission Line, Proc. of the 1999 International Conference on Power Systems Transients, Budapest, 451-456 (1999).
  • Jacobson D.A.N., Menzies R. W., Investigation of Station Service Transformer Ferroresonance in Manitoba Hydro's 230- kV Dorsey Converter Station, Proc. IPST'2001, International Conference on Power Systems Transients, Rio de Janeiro (2001).
  • Sakarung, P., “Application of PSCAD/EMTDC and Chaos Theory International Conference on Power Systems Transients (IPST’05) in Montreal, Canada on June 19-23, 2005, Paper No. IPST05 – 227, (2005).
  • Ferroresonance Analysis”,
  • Sutherland, P.E., Manning, R., “Ferroresonance in a 13.8kV Distribution Line”, IEEE page:2238-2241, (2006).
  • Amir Tokic, A., Vlado Madzarevic, V., and Ivo Uglesic, I., “Numerical Transients”, IEEE Transactions On Power Delivery, Vol.20, No:4, October, (2005). of Three-Phase Transformer
  • Daubechies, I. “Ten Lectures on Wavelets”, Philadelphia, SIAM, 1992
  • Mallat, S. “A Wavelet Tour of Signal Processing”, New York Academic Press, 1997.
Yıl 2013, Cilt: 3 Sayı: 3, 611 - 614, 01.12.2013

Öz

Kaynakça

  • Akıncı, T.Ç.; Şeker, S.; Ekren, N.: “Spectral Analysis for Signal Based on Ferroresonance Phenomena in Electric Power System”, International Conference Engineering, Technologies and Systems TechSys'2009, Fundamental Sciences and Applications”, Vol.14, May 29-30, Plovdiv, Bulgaria, (2009).
  • Akıncı, T.Ç.; Şeker, S.; Ekren, N.: “Feature Extraction for Ferroresonance Phenomena International Conference on Modeling and Simulation (IASTED) MS’09, Alberta, Canada, July (2009).
  • Yıldırım, S.; Akıncı, T.Ç.; Şeker, S.; Ekren, N.: “Determination of The Characteristics for Ferroresonance Phenomenon in Electric Power Systems”, World Academy of Science, Engineering and Technology, Vol.55, ISSN:2070-3724, Oslo, Norway, 29-31 July (2009) 108-112.
  • Akıncı, T.Ç.; “Determination of Ferroresonance Phenomenon with Spectral and Wavelet Analysis in Power Systems”, Ph.D Thesis , University of Marmara, Institute of Natural Science , Istanbul, Turkey, (2009). (in Turkish)
  • Kumar, G., Rajan, S., Rangarajan, R., Analysis of Ferroresonance in a Power Transformer with Multiple Nonlinearities, International Journal of Emerging Electric Power Systems, Volume:7, Issue:2, Article:2, (2006).
  • Tanggawelu, B., Mukerjee, R.N., Ariffin, A.E., Ferroresonance Studies in Malaysian Utility’s Distribution Network, Proc. IEEE Power Engineering Society General Meeting, 2, 1216- 1219 (2003).
  • Stojkovsa, B., Stefanovska, A., Glob, R., Grgic, D., Time – Delay Feedback Control of Ferroresonant Chaotic Oscillations, IEEE Porto Power Tech Conference 10th-13th September, Porto Portugal, (2001).
  • M.R. Iravani, Chair, Modeling and analysis guide- lines for slow transients- part III: the study of ferroresonance, IEEE Working Group on Modeling and Analysis of Systems Transients, IEEE Transactions on Power Delivery, 15, 255- 265 (2000).
  • Saied M.M., Abdallah H.M. and Abdallah A.S., Damping Effect of Load on the Ferroresonance Phenomenon in Power Networks, Electric Power System Research, 7, 271-277 (1984). [10] A.S. Abdallah and Power Ferroresonance Experimental Phenomenon Assessment, JKAU: Eng. Sci., vol. 16 no. 1, pp. 71-82 (2005 A.D./1426 A.H.) Transformers
  • Buigues, B., Zamora, I., Valverde, V., Mazon, A.J., San Martin, J.I., Ferroresonance In Three –Phase Power Distribution Transformers: Sources, Consequences and Prevention, 19thInternational Conference on Electricity Distribution, paper:0197,CIRED, Vienna 21-24 May. (2007).
  • IEEE Std. 519-2000 Draft 0 - Recommend Practices and Requirements for Harmonic Control in Electric Power Systems. [13] Zbigniew Hanzelka & Andrzej Bien, Harmonics- Interharmonics, Power Quality Application Guide 3.1.1, Copper Development Association- IEE Endorsed Provider, July, 2004.
  • Charalambous, C., Wang, Z.D., Li, J., Osborne, M., Jarman, P., Validation of a Power Transformer Model for Ferroresonance with System Tests on a 400 kV Circuit, International Conference on Power Systems Transients (IPST’07), Lyon, France, 4-7 June, (2007).
  • Jacobson D.A.N., Marti, L., Menzies, R.W., Modeling Ferroresonance in a 230 kV Transformer - Terminated Double - Circuit Transmission Line, Proc. of the 1999 International Conference on Power Systems Transients, Budapest, 451-456 (1999).
  • Jacobson D.A.N., Menzies R. W., Investigation of Station Service Transformer Ferroresonance in Manitoba Hydro's 230- kV Dorsey Converter Station, Proc. IPST'2001, International Conference on Power Systems Transients, Rio de Janeiro (2001).
  • Sakarung, P., “Application of PSCAD/EMTDC and Chaos Theory International Conference on Power Systems Transients (IPST’05) in Montreal, Canada on June 19-23, 2005, Paper No. IPST05 – 227, (2005).
  • Ferroresonance Analysis”,
  • Sutherland, P.E., Manning, R., “Ferroresonance in a 13.8kV Distribution Line”, IEEE page:2238-2241, (2006).
  • Amir Tokic, A., Vlado Madzarevic, V., and Ivo Uglesic, I., “Numerical Transients”, IEEE Transactions On Power Delivery, Vol.20, No:4, October, (2005). of Three-Phase Transformer
  • Daubechies, I. “Ten Lectures on Wavelets”, Philadelphia, SIAM, 1992
  • Mallat, S. “A Wavelet Tour of Signal Processing”, New York Academic Press, 1997.
Toplam 20 adet kaynakça vardır.

Ayrıntılar

Diğer ID JA27SH48ND
Bölüm Makaleler
Yazarlar

Sezen Yıldırım Bu kişi benim

Duygu Bayram Bu kişi benim

Tahir Cetin Akıncı Bu kişi benim

Serhat Şeker Bu kişi benim

Yayımlanma Tarihi 1 Aralık 2013
Yayımlandığı Sayı Yıl 2013 Cilt: 3 Sayı: 3

Kaynak Göster

APA Yıldırım, S., Bayram, D., Akıncı, T. C., Şeker, S. (2013). CONTINUOUS WAVELET TRANSFORM FOR FERRORESONANCE PHENOMENON IN ELECTRIC POWER SYSTEMS. International Journal of Electronics Mechanical and Mechatronics Engineering, 3(3), 611-614.