CONTINUOUS WAVELET TRANSFORM FOR FERRORESONANCE PHENOMENON IN ELECTRIC POWER SYSTEMS

Year 2013, Volume: 3 Issue: 3, 611 - 614, 01.12.2013

Sezen Yıldırım Duygu Bayram Tahir Cetin Akıncı Serhat Şeker

Abstract

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.

Keywords

Ferroresonance, Power System, Wavelet Analysis, Feature Extraction

References

• 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.