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Warianty tytułu
Języki publikacji
Abstrakty
This paper describes a new and efficient method for quantifying and detection of the source of distortion caused by a single customer in a case when many other customers exist in a power grid. It is based on measuring distortion power, a component of apparent power that only exists with a nonlinear load. Different definitions for distortion power calculation are investigated. All these definitions show without doubt that the proposed method is feasible. Moreover, this method allows to develop fair and reliable billing schemes for controlling harmonic pollution. Measurement and simulation results confirm the effectiveness and applicability of the method. The proposed solution is suitable for software/hardware upgrade of existing electronic power-meters.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
3--14
Opis fizyczny
Bibliogr. 23 poz., rys., tab., wykr., wzory
Twórcy
autor
- Innovation Centre of Advanced Technologies (ICAT), Vojvode Mišića 58/2, 18000 Niš, Serbia
autor
- University of Niš, Faculty of Electronic Engineering, Aleksandra Medvedeva 14, 18000 Niš, Serbia
Bibliografia
- [1] Singh, G.K. (2007). Power system harmonics research: a survey. European Tran. on Electrical Power, 19, 151-172.
- [2] Alhazmi, Y. (2010). Allocating power quality monitors in electrical distribution systems to measure and detect harmonics pollution. PhD dissertations, University of Waterloo, Ontario, Canada.
- [3] Wakileh, J. G. (2001). Power Systems Harmonics. Springer.
- [4] Lee, S., Park, J. W. (2010). New power quality index in a distribution power system by using RMP model. IEEE Tran. on Industrial Applications, 46(3), 1204 - 1211.
- [5] Webster J. G. (1999). The measurement, instrumentation, and sensors handbook. IEEE Press.
- [6] Czarnecki, L. S. (1987). What is wrong with Budeanu’s concept of reactive and distortion power and why it should be abandoned. IEEE Trans. on Instr. and Measur., IM-36(3).
- [7] IEEE Std 1459-2000. IEEE Trial-use standard definitions for the measurement of electric power quantities under sinusoidal, non sinusoidal, balanced or unbalanced conditions, 2000.
- [8] Hartman, M. (2010). Orthogonality of functions describing power states in electrical circuits in Budeanu’s concept. Proc. of the International School on Nonsinusoidal Current and Compensation, Lagow, Poland.
- [9] Tagare, D.M. (2007). Reactive power management. McGraw-Hill Education.
- [10] Balci, M.E., Hocaoglu, M.H. (2013). A current decomposition-based method for computationally efficient implementation of power resolution meters in non-sinusoidal single-phase system. Metrol. Meas. Syst., 20(2), 263-274.
- [11] Emanuel, A.E. (2004). Summary of IEEE standard 1459: definitions for the measurement of electric power quantities under sinusoidal, nonsinusoidal, balanced, or unbalanced conditions. IEEE Tran. On Industrial Applications, 40(3), 869 - 876.
- [12] Xu, W., Liu, X., Liu, Y. (2003). An investigation on the validity of power-direction method for harmonic source determination. IEEE Trans. Power Del., 18(1), 214 - 219.
- [13] Cataliotti A., Cosentino V. (2009). Disturbing loads identification in power systems: a single-point timedomain method based on the IEEE 1459-2000. IEEE Trans. Instrum. Meas., 58(5), 1436-1445.
- [14] Cataliotti, A., Cosentino, V. (2009). A single-point approach based on IEEE 1459-2000 for the identification of prevailing harmonic sources detection in distorted three phase power systems. Metrol. Meas. Syst., 16(2), 209-218.
- [15] Chun, L., Xu, W., Tayjasanant, T. (2004). A critical impedance based method for identifying harmonic sources. IEEE Trans. Power Del., 19(2), 671-678.
- [16] IEEE Task Force on Harmonics Modeling and Simulation. (1999). Test Systems for Harmonics Modeling and Simulation. IEEE Trans. Power Del., 14(2), 579-587.
- [17] Stevanović, D., Jovanović, B., Petković, P. (2012). Simulation of Utility Losses Caused by Nonlinear Loads at Power Grid. Proc. of Small System Sim. Symposium 2012, Niš, Serbia, 155-160.
- [18] Stevanović, D., Petković, P. (2013). The Losses at Power Grid Caused by Small Nonlinear Loads. Serbian Journal of Electrical Engineering, 10(1), 209-217.
- [19] EWG - multi metering solutions, www.ewg.rs
- [20] IEC 62052-11. Electricity metering equipment (AC) - General requirements, tests and test conditions - Part 11: Metering equipment, 2003.
- [21] Hammerschmidt, C. (2011). Research project illuminates OLEDs' industrial future. EETimes.
- [22] Dimitrijević, M., Litovski, V. (2011). Power Factor and Distortion Measuring for Small Loads Using USB Acquisition Module. Journal of Circuits Systems and Computers, 20(5), 867-880.
- [23] IMPEG01- Single-phase power/energy meter IC. Datasheet for Leda. http://leda.elfak.ni.ac.rs/projects/IMPEG/IMPEG01DATASHEET.pdf. (2008).
Uwagi
EN
This work has been partly funded by the Serbian Ministry of Education and Science under the contract No. TR32004 .
Typ dokumentu
Bibliografia
Identyfikator YADDA
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