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Warianty tytułu
Przegląd sposobów lokalizacji punktów monitorowania jakości energii w systemach przesyłu i wytwarzania energii elektrycznej
Języki publikacji
Abstrakty
In today’s modern world, customers require a high level of power quality than ever before because of the increasing availability of semiconductor devices and microprocessors that are more sensitive against power system disturbances. One of the most frequently occurring types of power quality disturbances are voltage sags, which are considered to likely have a severe impact on sensitive load. Thus, power quality monitors (PQM) are required to be installed in many buses in a power system to assess disturbances such as voltage sags. However, the installation of PQMs at all buses considered in the system is uneconomical. Generally, PQM placement comprises four main methods, namely, monitor reach area, covering and packing, graph theory, and multivariable regression. This paper presents a comprehensive review of articles that deal with various methods of PQM placement. The concepts as well as the advantages and disadvantages of these methods are discussed and tabulated for an all-exclusive review. Although this paper does not show a comparison of numerical performance, most of the research publications on the subject of PQM placement methods are sorted and appended for easy reference. This work may be considered as an important guide for researchers who are interested in knowing and developing better PQM placement methods.
W artykule przedstawiono przegląd dotychczasowych prac dotyczących określenia lokalizacji montażu urządzeń do monitoringu jakości energii w sieci. Omówiono idee działania, wady i zalety każdej z metod. Nie dokonano porównania złożoności obliczeniowej. Niniejsza praca stanowi przewodnik dla badaczy pracujących z tego typu urządzeniami.
Wydawca
Czasopismo
Rocznik
Tom
Strony
185--188
Opis fizyczny
Bibliogr. 40 poz., tab., 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
autor
- Department of Electrical, Electronic and Systems Engineering, Universiti Kebangsaan Malaysia (UKM), Bangi, 43600, Selangor, Malaysia
Bibliografia
- [1] Mcgranaghan, M. Trends in Power Quality Monitoring. IEEE Power Engineering Review 21 (2001), No.10, 3-9.
- [2] Ibrahim, A.A., A. Mohamed, H. Shareef. Optimal Placement of Voltage Sag Monitors Based on Monitor Reach Area and Sag Severity Index. in IEEE Student Conference on Research and Development (SCOReD). Putrajaya- Malaysia, 2010. 467-470.
- [3] Martinez, J.A., J.M. Arnedo. Voltage Sag Studies in Distribution Networks- Part 1: System Modeling. IEEE Transactions on Power Delivery, 21 (2006), No.3, 1670- 1978.
- [4] Bollen, M.H.J., I.Y.H. Gu, Signal Processing of power Quality Disturbancees 2006, New York: IEEE press.
- [5] Bollen, M.H.J., M. Hager, R. Christian., Effect of Induction Motors and Other Loads on Voltage Dips: Theory and Measurement, in IEEE Bologna Power Tech Conf. 2003:.
- [6] Martinez , J.A., M. Arnedo, J.V. Milanovie. Load Modeling for Voltage Sag Studies. in IEEE Power Engineering Society General Meeting. Barcelona - Spain, 2003. 2508-2513.
- [7] Eldery, M.A., et al. A Novel Power Quality Monitoring Allocation Algorithm. IEEE Trans. Power Del., 21 (2006), No.2, 768-777.
- [8] Bucci, G., E. Fiorucci, C. Landi. Digital Measurement Station for Power Quality Analysis in Distributed Environments. IEEE Trans. on Instr. and Measurement, 52 (2003), No.1, 75-84.
- [9] Bucci, G., C. Landi. A Distributed Measurement Architecture for Industrial Applications. IEEE Transaction on Instrumentation and Measurement, 52 (2003), No.1, 165-174.
- [10] Byman, B., et al. Using Distributed Power Quality Monitoring for Better Electrical System Management. IEEE Transaction on Industry Allications, 36 (2000), No.5, 1481-1485.
- [11] Dong- Jun Won, et al. Dvelelopment of Power Quality Monitoring System with Central Processing Scheme. in Power Engineering Society Summer Meeting. Chicago- 2002.915-919.
- [12] Shareef, H. A Method for Real Power Transfer Allocation using Multivariable Regression Analysis, Journal Cent. South Univ. Springer, 19 (2012), No.8.
- [13] Duncan, B.K., B.G. Bailey. Protection, Metering, Monotering and Control of Medium Voltage Power Systems. IEEE Transaction on Industry Applications, 40 (2004), No.1, 33-40.
- [14] Cristaldi, L., A. Ferrero, S. Salicone. A Distributed System for Electric Power Quality Measurement. IEEE Transaction on Instrumentation and Measurement, 51 (2002 ), No.4, 776-781.
- [15] Almeida, C.F.M., N. Kagan. Allocation of Power Quality Monitors by Genetic Algorithms and Fuzzy Sets Theory. in Int. Intelligent System Appl. to Power Syst. Sao Paulo, 2009. 1-6.
- [16] Olguin, G., M.H.J. Bollen. Optimal Dips Monitoring Program for Characterization of Transmission system. in IEEE Power Eng. Society General Meeting. Toronto 2003.2484-2490.
- [17] Haghbin, M., E. Farjah. Optimal Placement of Monitors in Transmission Systems using Fuzzy Boundaries for Voltage Sag Assessment in IEEE Power Tech Bucharest, 2009. 1-6.
- [18] Espinosa-Juarez, E., A. Hernandez. Neural Networks Applied to Solve the Voltage Sag State Estimation Problem: An Approach Based on the Fault Positions Concept. in Electron, 2009. 88- 93.
- [19] Won, D. J., 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.
- [20] Kazemi, A., A. Mohamed, 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.
- [21] Kazemi, A., A. Mohamed, 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.
- [22] Olguin, G. An Optimal Trade-off Between Monitoring and Simulation for Voltage Dip Characterization of Transmission Systems. in IEEE/PES Transmis.& Distrib. Dalian- China, 2005.
- [23] Reis, D.C.S., et al. Transmission Systems Power Quality Monitors Allocation. in Power and Energy Society General Metting. Pittsburgh, 2008. 1-7.
- [24] Olguin, G., M.H.J. Bollen. Stochastic Assessment of Unbalanced Voltage Dips in Large Transmission Systems in IEEE Power Tech. Bologna - Italy, 2003. 8.
- [25] Olguin, G., F. Vuinovich, M.H.J. Bollen. An Optimal Monitoring Program for Obtaining Voltage Sag System Indexes. IEEE Transaction on Power Delivery, 21 (2006), No.1, 378-384.
- [26] Mazlumi, K., et al. A New Optimal Meter Placement Method for Obtaining a Transmission System Indices. in IEEE Power Tech. Lausanne, 2007. 1165-1169.
- [27] Ibrahim, A.A., A. Mohamed, H. Shareef. Optimal Power Quality Monitor Placement in Power Systems Based on Particle Swarm Optimization and Artificial Immune System. in IEEE Data Mining & Optimization. Selangor/Malaysia, 2011. 141-145.
- [28] Avendano-Mora, M., N.C. Woolley, J.V. Milanovic. On Improvement of Accuracy of Optimal Voltage Sag Monitoring Programmes. in IEEE International Conference Harmonics and Quality of Power. Bergamo, 2010. 1-6.
- [29] Cai, W., H. Huimin. A Study on Optimal Placement of Voltage Sag Monitors. in International Conference on Electricity Distribution (ICED). China, 2010. 1-6.
- [30] Kuzjurin, N.N. Combinatorial Problems of Packing and Covering and Related Problems of Integer Linear Programming. J. of Mathematical Sci., 108 (2002), No.1, 1-6.
- [31] Arazm.S., J. Rouhi, R. Ahmadi. New Algorithm for Optimal Placement of Power Quality Monitors in Multi Voltage Level Power Systems. in International Power System Conference (PSC). Tehran- Iran, 2007.
- [32] Stagg, G.W., A.H. EL-Abiad, Computer Methods in Power Systems Analysis. 1968, New York: McGraw-Hill.
- [33] Weiss, M.A., Data Structures & Problem Solving Using JAVA, n.e. Reading, Editor. 2002, Addison-Wesley. p. p. 570.
- [34] Won, D. J., Moon;Seung-II. Topological Locating of Power Quality Event Source. Journal of Electrical Engineering & Technology, 1 (2006), No.2, 170 - 176.
- [35] KIM, K.-N., et al. A Method to Determine the Relative Location of Voltage Sag Source for PQ Diagnosis. in 8th IEEE Int. Conf. Electrical Machines and Systems, 2005. 2192-2197.
- [36] Ahn, s.J., 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.
- [37] Dong Jun Won, et al. A New Algorithm to Locate Power Quality Event Source with Improved Realization of Distributed Monitoring Scheme. IEEE Transaction on Power Delivery, 21 (2006), No.3, 1641-1647.
- [38] Kazemi, A., A. Mohamed, H. Shareef. Tracking the Voltage Sag Source Location Using Multivariable Regression Model. International Review of Electrical Engineering (IREE), 6 (2011), No.4, 1853-1861.
- [39] Kazemi, A., A. Mohamed, H. Shareef. A Novel PQM Placement Method Using Cp and Rp Statistical Indices for Power Transmission and Distribution Networks. in IEEE International Power Engineering and Optimization Conference (PEOCO). Melaka, Malaysia, 2012. 102-107.
- [40] Kazemi, A., A. Mohamed, H. Shareef. An Improved Power Quality Monitor Placement Method Using MVR Model and Combine Cp and Rp Statistical Indices. Journal of Electrical Review, 88 (2012), No.205-209.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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