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Review of Voltage Sag Source Identification Methods for Power Quality Diagnosis

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
PL
Przegląd metod identyfikacji źródła zapadów napięcia
Języki publikacji
EN
Abstrakty
EN
Voltage sag is considered as one of the most common power quality problems causing sensitive equipment to malfunction and many industrial process interruptions. Complains about the economic loss and equipment damage from industrial customers has stimulated the investigation on the voltage sag source location. As a result, many efforts have been made to know the location of voltage sags by utilizing various concepts. Generally, there are two broad categories of methods to locate voltage sags source, namely, single and multi-monitor based methods. Therefore, the purpose of this paper is to present a comprehensive review of articles that involves various methods to identify the location of voltage sag source. Accordingly, the concepts, advantages and disadvantages of these methods are discussed and tabulated for review. Although this paper does not exhibit a numerical performance comparison, most of the research publications under the subject of voltage sag source location methods have been sorted and appended for a rapid reference.
PL
Zapady napięcia są jednym z ważniejszych parametrów opisjących jakość energii. Mogą one powodować uszkodzenia urządeń i zakłócenia procesów przemysłowych. Artykuł omawia metody lokalizacji źródeł zapadów napięcia. Zaprezentowano przegląd publikacji opisujących ten problem uwypuklając zalety i wady każdej z metod.
Rocznik
Strony
143--146
Opis fizyczny
Bibliogr 46 poz., schem., wykr.
Twórcy
autor
  • Department of Electrical, Electronic and Systems Engineering, Universiti Kebangsaan Malaysia (UKM), Bangi, 43600, Selangor, Malaysia
autor
  • Department of Electrical, Electronic and Systems Engineering, Universiti Kebangsaan Malaysia (UKM), Bangi, 43600, Selangor, Malaysia
autor
  • Department of Electrical, Electronic and Systems Engineering, Universiti Kebangsaan Malaysia (UKM), Bangi, 43600, Selangor, Malaysia
  • Department of Electrical, Electronic and Systems Engineering, Universiti Kebangsaan Malaysia (UKM), Bangi, 43600, Selangor, Malaysia
Bibliografia
  • [1] IEEE Std.1159, IEEE Recommended Practice for Monitoring Electric Power Quality. 1995, IEEE Press: New York.
  • [2] Oliveire, T.C.d., et al. Voltage Sags:Validating Short- Term Monitoring by Using Long- Term Stochastic Simulation IEEE Transactions on Power Delivery, 24 (2009), No.3, 1344-1351.
  • [3] Bollen, M.H.J. Voltage Sag in Three Phase System IEEE Power Engineering Review, 17 (2001), No.8-11.
  • [4] Barrera Nunez, V., et al. Two Methods for Voltage Sag Source Location. in 13th International conference on Harmonics & Quality of Power (ICHQP). Australia, 2008. 1-6.
  • [5] Gomez, J., et al. A Novel Methodology to Locate Originating Points of Voltage Sags in Electric Power Systems. in 18th International Conference on Electricity Distribution (CIRED). Turin- Italy, 2005.
  • [6] Hamzah, N., A. Mohamed, and H. Aini. Development of New Algorithm for Voltage Sag Source Location. in International Multi Conference of Engineers and Computer Scientists (IMECS). Hong Kong, 2009. 1-6.
  • [7] Hamzah, N., A. Mohamed, and A. Hussain. A New Approach to Locate the Voltage Sag Source Using Real Current Component. Elsevier Electric Power systems Research, 72 (2004), No.2, 113-123.
  • [8] Jie, G., L. Qun-Zhan, and W. Jia. Method for Voltage Sag Disturbance Source Location by the Real Current Component. in IEEE Asia- Pacific Power and Energy Engineering Conference (APPEEC). Asia- Pacific, 2011. 1-4.
  • [9] Khosravi, A., J. Melendez, and J. Colomer. Classification of Voltage Sags Based on MPCA Models. Springer- Verlag Berlin Heidelberg, (2007), No.362-369.
  • [10] Khosravi, A., et al. Multiway Principal Component Analysis (MPCA) for Upstream/Downstream Classification of Voltage Sags Gathered in Distribution Substations. Springer- Verlag Berlin Heidelberg, (2008), No.297-312.
  • [11] Kong, W., X. Dong, and Z. Chen. Voltage Sag Source Location Based on Instantaneous Energy Detection. in The 8th International Power Engineering Conference (IPEC), 2007. 90-94.
  • [12] Leborgne, R.C., D. Karlsson, and J. Daalder. Voltage Sag Source Location Methods Performance Under Symmetrical and Asymmetrical Fault Conditions. in IEEE PES Transmission and Distribution Conference. Venezuela- Latin America, 2006. 1-6.
  • [13] Li, C., et al. Method for Voltage Sag Source Detection by Investigating Slope of the System Trajectory. IEEE Proc. Generator Transmission Didtribution, 150 (2003), No.3, 367-372.
  • [14] Liao, Y. Fault Location for Single- Circuit Line Based on Bus-Impedance Matrix Utilizing Voltage Measurements. IEEE Transactions on Power Delivery, 21 (2008), No.2, 609- 617.
  • [15] Makaliki, R. and R.C. Leborgne. Voltage Sag Source Location: Case Study in Zambian Ggrid. in IEEE Power Engineering Society Conference and Exposition in Africa. Johannesburg, South Africa, 2007. 1-5.
  • [16] Parsons, A.C., et al. A Direction Finder for Power Quality Disturbances Based Upon Disturbance Power and Energy. IEEE Transactions on Power Delivery, 5 (2000), No.3, 1081-1086.
  • [17] Pradhan, A.K. and A. Routray. Applying Distance Realy for Voltage Sag Source Detection. IEEE Transactions on Power Delivery, 20 (2005), No.1, 529- 531.
  • [18] Qian-qian, G., et al. Comparison of Methods for Voltage Sag Source Location in Distribution System. in 6th IEEE International Conference Industrial Electronics and Application (ICIEA), 2011. 499-503.
  • [19] Tayjasanant, T., C. Li, and W. Xu. A Resistance Sign Based Method for Voltage Sag Source Detection. IEEE Transactions on Power Delivery, 20 (2005), No.4, 2544 2551.
  • [20] Yang, J., et al. Analysis of Voltage Sag Source Location based on Wavelet Multiresolution Method. in Asia Pocific Power and Energy Engineeing Conference Chengdu, 2010. 1-4.
  • [21] Chang, G.W., et al. A New Procedure for Tracking the source Location of voltage Sags. in IEEE Power Engineering Society Genral Meeting 2007. 529-532.
  • [22] Chang, G.W., et al. On Tracking the Source Location of Voltage Sags and Utility Shunt Capacitor Swiching Transients. IEEE Transactions on Power Delivery, 23 (2008), No.4, 2124-2131.
  • [23] Won, D.-J. and Moon;Seung-II. Topological Locating of Power Quality Event Source. Journal of Electrical Engineering & Technology, 1 (2006), No.2, 170 - 176.
  • [24] Won, D.-J. and S.-I. Moon. Optimal Number and Location of Power Quality Monitors Considering System Topology. IEEE Transactions on Power Delivery, 23 (2008), No.1, 288-295.
  • [25] seon JU. Ahn, et al. Determination of the Relative Location of Voltage Sag Source According to Event cause. in IEEE Power Engineering Socirty General Meeting, 2004. 620-625.
  • [26] seon JU. Ahn, et al. A New Approach to Determine the Direction and Cause of Voltage Sag. Journal of Electrical Engineering & Technology, 3 (2008), No.3, 300-307.
  • [27] Kanokbannakorn, W., T. Saengsuwan, and S. Sirisukprasert. Unbalanced Voltage Sag Source Location Identification Based on Superimposed Quantities and negative Sequence. in The 8th Electrical Engineering Electronics, Computer, Telecommunications and Information Tecnology (ECTI). Thailand, 2011. 617-620.
  • [28] Kazemi, A. and A. Mohamed. An New Approach for Location Voltage Sag Source in a Power System by Using Regression Coefficients. in Regional Engineering Postgraduate Conference (EPC). Malaysia - UKM, 2010. 374-381.
  • [29] Kazemi, A., A. Mohamed, and H. Shareef. A New Method for Determining Voltage Sag Source Locations by Using Multivariable Regression Coefficients. Journal of Applied Sciences, 11 (2011), No.15, 2734- 2743.
  • [30] Kazemi, A., A. Mohamed, and H. Shareef. Tracking the Voltage Sag Source Location Using Multivariable Regression Model. International Review of electrical Engineering (IREE), 6 (2011), No.4, 1853-1861.
  • [31] Kazemi, A., A. Mohamed, and H. Shareef. A New Power Quqlity Monitor Placement Method Using the Multivariable Regression Model and Statistical Indices. International Review of electrical Engineering (IREE), 6 (2011), No.5, 2530- 2536.
  • [32] KIM, K.-N., et al. A Method to Determine the Relative Location of Voltage Sag Source for PQ Diagnosis. in 8th IEEE International Conference Electrical Machines and Systems, 2005. 2192-2197.
  • [33] Latheef, A., M. Negnevitsky, and V. Faybisovich. Voltage Sag Source Location Identification in 20th International Conference on Electricity Distribution. Prague, 2009.
  • [34] Leborgne, R.C. and D. Karlsson. Voltage Sag Source Location Based on Voltage Measurements Only. Journal of Electrical power quality and utilisation XIV (2008), No.1, 25-30.
  • [35] Yongduanl, X., X. Bing Yin, and F. Zuren. Average and Instantaneous reactive power of non- sinusoidal circuit based on Hilbert transformation. Automation of Electric power system, 28 (2004), No.35-39.
  • [36] Polajzer, B., G.r. Stumberger, and D. Dolinar. Impedance-Based Methods for Detection of Voltage Sag Sources in International Conference on Renewable and Power Quality (ICREPQ). Santiago de Compostela - Spain, 2012.
  • [37] Pinnegar, C.R. and L. Mansinha. Time- Local Fourier Analysis with a scalable, Phase- modulated analyzing function: The STransform with a Complex Window Signal Processing, 84 (2004), No.7, 1167- 1176.
  • [38] Stock Well, R.G., L. Mansinha , and R.P. Lowe. Localization of the Complex Spectrum: The S- Transform. IEEE Transaction on signal processing, 44 (1996), No.4, 998-1001.
  • [39] Mohamed, A., H. Shareef, and M.F. Faisal. A Novel Voltage Sag Source Detection Method Using TFR Technique. International Review of Electrical Engineering (IREE), 5 (2010), No.5, 2301-2309.
  • [40] Zhexue, G. and S. Wei, Theory of wavelet analysis and implementation of Matlab R2007. 2007: House of Electronics Industry
  • [41] Ji- Dong, W. and W. Cheng- Shan. Capacitor Switching Disturbance Source Locating Based on Wavelet. Electric Power Automation Equipment, 24 (2004), No.5, 20-23.
  • [42] Wenhvi, Z., L. Qing, and Z. Zhaojing. Power Quality Detection Using Wavelet- Multi resolution Signal Decomposition. Transactions of China Electrotechnical society, 16 (2001), No.6, 81-84.
  • [43] Ni, Y., S. Chen, and B. Zhang, Theory and Analysis of Dynamic Power System. 2002, Tsinghua University Press. p. 14.
  • [44] Shao, Z., J. Peng, and J. Kang. Locating Voltage Sag Source with Impedance Measurement. in International conference on power system technology. China 2010. 1-6.
  • [45] Benmouyal, G. and J. Roberts. superimposed Quantities : Their True Nature and Application in Relays. printed in USA 991011, (1999), No.
  • [46] Wang, B., W. Xu, and Z. Pan. Voltage Sag State Estimation for Power Distribution Systems. IEEE Transaction on Power System, 20 (2005), No.2, 806-812.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-07523b80-da3d-49cc-9378-522d5143039b
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