Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Dokładna metoda lokalizacji awarii w sieciach przesyłowych bazująca na wykorzystaniu transformaty falkowej Clarka
Języki publikacji
Abstrakty
This paper presents accurate fault detection and location using wavelet based on Clarke’s transformation. This study was done using Clarke’s transformation method to convert current phase (three phase) signal into a two-phase current alpha and beta (current mode). The proposed method introduced the mode current to transform the signal using discrete wavelet transform (DWT) and was utilized to obtain the wavelet transform coefficients. Analysis was also conducted for other mother wavelets. The most accurate parent was wavelet Db8, with the fastest time of detection and the smallest error, whereas the largest error was found in Coil4 parent wavelet. The result for proposed method was compared with Db4, Sym4, Coil4 and Db8 and found to be very accurate.
W artykule opisano dokładną metodę wykrywania awarii w sieciach przesyłowych bazująca na falkowej transformacie Clarka. Sygnał trójfazowy jest przekształcany do postaci dwufazowej Za najbardziej się do tego celu nadająca uznano falkę Db8 z najszybszym czasem wykrywania i najlepszą dokładnością. Wyniki porównano z innymi typami falek.
Wydawca
Czasopismo
Rocznik
Tom
Strony
156--161
Opis fizyczny
Bibliogr. 29 poz., schem., tab., wykr.
Twórcy
autor
- Faculty of Electrical Engineering, Universiti Teknologi Malaysia, 81310 Johor Bharu, Johor, Malaysia
autor
- Faculty of Electrical Engineering, Universiti Teknologi Malaysia, 81310 Johor Bharu, Johor, Malaysia
autor
- Faculty of Electrical Engineering, Universiti Teknologi Malaysia, 81310 Johor Bharu, Johor, Malaysia
autor
- Faculty of Electrical Engineering, Universiti Teknologi Malaysia, 81310 Johor Bharu, Johor, Malaysia
Bibliografia
- [1] IEEE Guide for Determining Fault Location on AC Transmission and Distribution Lines, IEEE Std C37.114, (2004)
- [2] Magnago F.H., Abur A, ,Fault location using wavelets, IEEE Transactions on Power Delivery. 13(1998), nr 4, 1475-1480
- [3] Dommel H.W, Michels J.M. ,High speed relaying using traveling wave transient analysis. IEEE Publications NO. 78CH1295-5 PWR. paper no. A78 214-9, IEEE PES Winter Power Meeting, New York 1978, 1-7.
- [4] Evrenosoglu C.Y, Abur., Fault location in Distribution System with Distribution Generation. 15thPSCC 10,(2005), nr 5,1-5
- [5] Paweł.D., Jan I., Przemysław B,. Fault location on double-circuit transmission line not requiring line parameters, Przeglad Elektotechniczny, R. 89 NR.10(2013), 18-21
- [6] Jafarian P,.Pasand M.S. ,A Traveling-Wave-Based Protection Technique Using Wavelet /PCA Analysis. IEEE Transactions on Power Delivery 25( 2010), 588 – 599.
- [7] Zhang Y, Tai N, Tang Y, Xu B., Travelling wave-based pilot direction comparison protection for HVDC line. Int. Trans. Electr. Energ. Syst. 23(2013), 1304–1316
- [8] Polajzer B, Tumberger G.S, Seme S, Dolinar D., Detection of voltage sources based on instantaneous voltage and current vectors and orthogonal clarke’s transformation. IET. Gener. Transm. Distrib 2(2008), nr 2, 219–226.
- [9] Prado A.J, Filho J.P, Kurokawa, Bovolato L.F., Transmission line analyses with a single real transformation matrix - Non symmetrical and nontransposed cases, The 6th Conference on Power System Transients (IPST’05) CD-ROM Montreal. Canada, (2005).
- [10] Chaari, Meunier M, Brouave F. Wavelet a new tool for the resonant grounded power distribution systems relaying. IEEE Trans. on Power Delivery 11 (1997), nr 3,1301-1308.
- [11] Patthi S, Birendra P.S , Pulapa V.K.R., Neutral current wave shape analysis using wavelet for diagnosis of winding insulation of a transformer. Turk J Elec Eng & Comp Sci 20 (2012), 835 - 841..
- [12] Samantaray S.R, Dash P.K.., Transmission line distance relaying using a variable window short-time Fourier transform. Electric Power Systems Research 78(200, 595–604
- [13] Norman CFT, Long Z, Lai LL. Wavelet-based algorithm for power quality analysis. Euro. Trans. Electr. Power 20(2010), 952–964
- [14] Kim C, Aggarwal R., Wavelet transform in power systems. Power Eng. J 15 2001, nr 4, 193–202
- [15] PSCAD/EMTDC User’s Manual. Manitoba HVDC Research Center. Winnipeg MB. Canada (2001)
- [16] Noshad B, Razaz M, Seifossadat S.G. A new algorithm based on Clarke’s Transform and Discrete Wavelet Transform for the differential protection of three-phase power transformers considering the ultrasaturation phenomenon, Electric Power Systems Research 110 (2014). 9-24.
- [17] Brando F.J. Application of Clarke’s transformation to the modal analysis of asymmetrical single-circuit threephase line configurations, Eur Trans on Electr Power 10(2000), nr 4, 225–231
- [18] Prado A.J, Filho J.P, Kurokawa S, Bovolato L.F., Non-transposed three-phase line analyses with a single real transformation matrix. The 2005 IEEE/Power Engineering Society General Meeting, CD-ROM 12-16 June (2005), San Francisco, USA .
- [19] Alfredo O.F, Luis I.E, Carlos R.E., Three-phase adaptive frequency measurement based on Clarke’s Transformation. IEEE Trans. on Power Delivery 21(2006), nr 3, 1101-1105
- [20] Eldin E.S.T, Ibrahim D.K., Abdul Sahap EM, Saleh SM. High Impedance Fault Detection in EHV Transmission Line using Wavelet Transform, Power Engineering Society General Meeting IEEE (2007) , 1-7.
- [21] Zhao W, Song Y,H, Min Y. Wavelet analysis based scheme for fault detection and classification in underground power cable systems. Electr Power syst. Res 53 (2000), 23-30
- [22] Chanda D, Kishore N.K, Sinha A.K.. Application of wavelet multiresolution analysis for identification and classification of faults on transmission lines. Electr Power Syst. Res.73( 2005, 323–333.
- [23] Sadegh J, Navid G., A new method for arcing fault location using discrete wavelet transform and wavelet networks, Euro. Trans. Electr. Power 22(2012), 601–615
- [24] Krzysztof G., Désiré D. R., Ryszard K., Detection, classification and fault location in HV lines using travelling waves, Przeglad Elektotechniczny (Electrical Review) R.88 NR (1a) (2012) 269-275
- [25] Eristi H, Demir Y., Determinant-based feature extraction for fault detection and classification for power transmission lines, IET Gener. Transm.Distrib 6(2012) , nr 10, 968–976
- [26] Malla S.G. Theory for multiresolution signal decomposition the wavelet representation. IEEE trans Pattern Anal Mach Intell 11(1989) , nr 7, 94-798.
- [27] Chandra D, Kishore N.K., Sinha A. A Wavelet multiresolution analysis for location of fault on transmission line, Electrical Power and Energy System 25(2003), 59-69
- [28] Datta, Rajagopal A. Literature review on use bewley’s lattice diagram, Power and Energy in Nerist (ICPEN), India , (2012)
- [29] Alcan. Aluminum Conduct or Steel Reinforced (ACSR) cable. ASTM specification B230, B232 , B490 and B 500
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e1718e2d-9363-4773-92fb-fc3e21ff59d8