Transient Energy and its Impact on Transmission Line Faults
Transmission and distribution lines are vital links between the generating unit and consumers. They are exposed to atmosphere, hence chances of occurrence of fault in transmission line is very high which has to be immediately taken care of in order to minimize damage caused by it. In this paper Discrete wavelet transform of voltage signals at the two ends of transmission lines have been analyzed. The transient energy of the detail information of level five is calculated for different fault conditions. It is observed that the variation of transient energy of healthy and faulted line can give important information which can be very useful in classifying and locating the fault.
[1] M.M. Saha, Rosolowski Jan zykowski, Eugeniusz, Fault Location on
power networks. Springer. 2010.
[2] W. Chen, O.P. Malik, X. Yin, D. Chen, Z. Zhang, "Study of wavelet
based ultra high speed directional transmission line protection", IEEE
Trans Power Delivery ; 18(4):1134-9, 2003.
[3] D. Chanda, N.K. Kishore, A.K. Sinha, "A wavelet multiresolution
analysis for location of faults on transmission lines", Electrical Power
and Energy Systems, 25: 59-69, 2003.
[4] Jung Hosung, Park Young, Han Moonseob, lee Chanbmu, Park
Hyunjune, Shin Myongchul, "Novel technique for fault location
estimation on parallel transmission lines using wavelet", Electrical
Power and Energy Systems; 29: 76-82, 2007.
[5] Chunju Fan, K.K. Li, W.L. Chan, Yu. Weiyong, "Study of protection
scheme for transmission line based on wavelet transient energy",
Electrical Power and Energy Systems; 28(7): 459-470, 2006.
[6] P.S. Bhowmik, P. Purkait, K. Bhattacharya, "A novel wavelet
transform aided neural network based transmission line fault analysis
method", Electrical Power and Energy Systems; 31: 213-219, 2009.
[7] C. H. Kim, H. Kim, Y. H. Ko, S. H. Byun, R. K. Aggrawal, A. T. Johns,
"A novel fault detection techique of high impedance arcing faults in
transmission lines using the wavelet transform", IEEE Power
Engineering Review; 22(7): 61-65, 2002.
[8] Michel Misiti, Yves Misiti . Wavelet toolbox user-s guide. Mathworks
Ltd.
[9] V.S. Kale, S.R. Bhide, P.P. Bedekar, G.V.K. Mohan, "Detection and
classification of faults on parallel transmission lines using wavelet
transform and neural network", Intenational Journal of Electrical and
Electronics Engineering; 1(4):364-368, 2008.
[10] M. Solanki, Y.H. Song, "Transient protection of EHV transmission line
using discrete wavelet analysis", Power Engineering Society General
Meating, IEEE; 3: 13-17, 2003.
[11] S.A. Gafoor, P.V. Ramana Rao, "Wavelet based fault detection,
classification and location in transmission line", Power and Energy
Conference, PECon -06, IEEE International; (28): 114-118, 2006.
[12] Simi P. Valsan, K.S. Swarup, "Wavelet transform based digital
protection for transmission line", Electrical Power and Energy Systems;
31: 379-388, 2009.
[13] Z. Nan, M. Kezunovic, "Transmission line boundry protection using
wavelet transform and neural network", IEEE Transaction on Power
Delivery; 22(2): 859-869, 2007.
[14] D.J. Zhang, Q.H. Wu, Z.Q. Bo, B. Caunce, "Transient positional
protection of transmission lines using complex wavelet analysis", IEEE
Transaction on Power Delivery; 18(3): 705-710, 2003.
[15] Ghosh Smarajit, Signals and Systems. Pearson Education, 2008.
[16] A. Abur, F.H. Magnago, "Use of time delays between model
components in wavelet based fault location", Electrical Power and
Energy Systems; 22: 397-403, 2000.
[17] Chiradeja, Pathomthat, Pothisarn, Chaichan, "Discrete wavelet
transform and Fuzzy Logic algorithm for identification of faultntypes on
transmission line", Advances in Power System Control, Operation and
Management(APSCOM 2009); 8-11, 2009.
[18] A. Jain, A.S. Thoke, R.N. Patel, "Fault classification of double circuit
transmission line using artificial neural network", International Journal
of Electrical Systems Science and Engineering; l1(4): 230-35, 2008.
[19] F. Liang, B. Jeyasurya, "Transmission line distance protection using
wavelet transform algorithm", IEEE Trans power Delivery; 19(2): 545-
23, 2004.
[20] A.I. Megahed, A.M. Moussa, A.E. Bayoumy, "Usage of wavelet
transform in the protection of wavelet transform in the protection of
series compensated transmission lines", IEEE Transaction on Power
Delivery; 21(3): 1213-1221, 2009.
[21] A.H. Osman, O.P. Malik, "Transmission line distance protection based
on wavelet transform", IEEE Trans. power Delivery; 19(2): 515-23,
2004.
[22] A.G. Phadke, J.S. Thorp, Computer relaying for power systems. Wiley
and Sons, 1988.
[23] M. Jayabharata Reddy, D.K. Mohanta, "A wavelet- fuzzy combined
approach for classification and location of transmission line faults",
Electrical Power and Energy Systems; 9: 669-678, 2007.
[24] O.A.S. Youssef, "Combined fuzzy logic wavelet-based fault
classification technique for power system relaying", IEEE Transaction
on Power Delivery; 19(2): 582-589, 2004.
[1] M.M. Saha, Rosolowski Jan zykowski, Eugeniusz, Fault Location on
power networks. Springer. 2010.
[2] W. Chen, O.P. Malik, X. Yin, D. Chen, Z. Zhang, "Study of wavelet
based ultra high speed directional transmission line protection", IEEE
Trans Power Delivery ; 18(4):1134-9, 2003.
[3] D. Chanda, N.K. Kishore, A.K. Sinha, "A wavelet multiresolution
analysis for location of faults on transmission lines", Electrical Power
and Energy Systems, 25: 59-69, 2003.
[4] Jung Hosung, Park Young, Han Moonseob, lee Chanbmu, Park
Hyunjune, Shin Myongchul, "Novel technique for fault location
estimation on parallel transmission lines using wavelet", Electrical
Power and Energy Systems; 29: 76-82, 2007.
[5] Chunju Fan, K.K. Li, W.L. Chan, Yu. Weiyong, "Study of protection
scheme for transmission line based on wavelet transient energy",
Electrical Power and Energy Systems; 28(7): 459-470, 2006.
[6] P.S. Bhowmik, P. Purkait, K. Bhattacharya, "A novel wavelet
transform aided neural network based transmission line fault analysis
method", Electrical Power and Energy Systems; 31: 213-219, 2009.
[7] C. H. Kim, H. Kim, Y. H. Ko, S. H. Byun, R. K. Aggrawal, A. T. Johns,
"A novel fault detection techique of high impedance arcing faults in
transmission lines using the wavelet transform", IEEE Power
Engineering Review; 22(7): 61-65, 2002.
[8] Michel Misiti, Yves Misiti . Wavelet toolbox user-s guide. Mathworks
Ltd.
[9] V.S. Kale, S.R. Bhide, P.P. Bedekar, G.V.K. Mohan, "Detection and
classification of faults on parallel transmission lines using wavelet
transform and neural network", Intenational Journal of Electrical and
Electronics Engineering; 1(4):364-368, 2008.
[10] M. Solanki, Y.H. Song, "Transient protection of EHV transmission line
using discrete wavelet analysis", Power Engineering Society General
Meating, IEEE; 3: 13-17, 2003.
[11] S.A. Gafoor, P.V. Ramana Rao, "Wavelet based fault detection,
classification and location in transmission line", Power and Energy
Conference, PECon -06, IEEE International; (28): 114-118, 2006.
[12] Simi P. Valsan, K.S. Swarup, "Wavelet transform based digital
protection for transmission line", Electrical Power and Energy Systems;
31: 379-388, 2009.
[13] Z. Nan, M. Kezunovic, "Transmission line boundry protection using
wavelet transform and neural network", IEEE Transaction on Power
Delivery; 22(2): 859-869, 2007.
[14] D.J. Zhang, Q.H. Wu, Z.Q. Bo, B. Caunce, "Transient positional
protection of transmission lines using complex wavelet analysis", IEEE
Transaction on Power Delivery; 18(3): 705-710, 2003.
[15] Ghosh Smarajit, Signals and Systems. Pearson Education, 2008.
[16] A. Abur, F.H. Magnago, "Use of time delays between model
components in wavelet based fault location", Electrical Power and
Energy Systems; 22: 397-403, 2000.
[17] Chiradeja, Pathomthat, Pothisarn, Chaichan, "Discrete wavelet
transform and Fuzzy Logic algorithm for identification of faultntypes on
transmission line", Advances in Power System Control, Operation and
Management(APSCOM 2009); 8-11, 2009.
[18] A. Jain, A.S. Thoke, R.N. Patel, "Fault classification of double circuit
transmission line using artificial neural network", International Journal
of Electrical Systems Science and Engineering; l1(4): 230-35, 2008.
[19] F. Liang, B. Jeyasurya, "Transmission line distance protection using
wavelet transform algorithm", IEEE Trans power Delivery; 19(2): 545-
23, 2004.
[20] A.I. Megahed, A.M. Moussa, A.E. Bayoumy, "Usage of wavelet
transform in the protection of wavelet transform in the protection of
series compensated transmission lines", IEEE Transaction on Power
Delivery; 21(3): 1213-1221, 2009.
[21] A.H. Osman, O.P. Malik, "Transmission line distance protection based
on wavelet transform", IEEE Trans. power Delivery; 19(2): 515-23,
2004.
[22] A.G. Phadke, J.S. Thorp, Computer relaying for power systems. Wiley
and Sons, 1988.
[23] M. Jayabharata Reddy, D.K. Mohanta, "A wavelet- fuzzy combined
approach for classification and location of transmission line faults",
Electrical Power and Energy Systems; 9: 669-678, 2007.
[24] O.A.S. Youssef, "Combined fuzzy logic wavelet-based fault
classification technique for power system relaying", IEEE Transaction
on Power Delivery; 19(2): 582-589, 2004.
@article{"International Journal of Electrical, Electronic and Communication Sciences:53545", author = "Mamta Patel and R. N. Patel", title = "Transient Energy and its Impact on Transmission Line Faults", abstract = "Transmission and distribution lines are vital links between the generating unit and consumers. They are exposed to atmosphere, hence chances of occurrence of fault in transmission line is very high which has to be immediately taken care of in order to minimize damage caused by it. In this paper Discrete wavelet transform of voltage signals at the two ends of transmission lines have been analyzed. The transient energy of the detail information of level five is calculated for different fault conditions. It is observed that the variation of transient energy of healthy and faulted line can give important information which can be very useful in classifying and locating the fault.
", keywords = "Wavelet, Discrete wavelet transform, Multiresolution analysis, Transient energy", volume = "5", number = "8", pages = "966-7", }
