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Poprawa wydajności dzięki trójpoziomowym statcom z zaciskiem punktu neutralnego przy użyciu solidnych kontrolerów
Języki publikacji
Abstrakty
This paper deals with multilevel Neutral Point Clamped (NPC) inverter applied as STATCOM. The proposed control with Space Vector Modulation (SVPWM) switching and decoupled current control with (IP) controllers have been tested to prove the advantages of the proposed control. In order to ensure fast and stable voltage regulation, reduced switching Losses and minimizing harmonic voltage under all operating conditions, we focused in this study on design and implantation of sliding mode controller for Statcom. The simulation has shown the improved performance of the proposed controller with effectiveness and efficiency results compared with the conventional IP controller.
Artykuł dotyczy wielopoziomowego falownika z zaciskiem punktu neutralnego (NPC) stosowanego jako STATCOM. Proponowane sterowanie z przełączaniem modulacji wektora przestrzennego (SVPWM) i sterowanie prądem odsprzężonym za pomocą sterowników (IP) zostało przetestowane w celu udowodnienia zalet proponowanego sterowania. W celu zapewnienia szybkiej i stabilnej regulacji napięcia, zmniejszenia strat przełączania i zminimalizowania napięcia harmonicznych we wszystkich warunkach pracy, skupiliśmy się w tym badaniu na projektowaniu i wdrożeniu regulatora trybu ślizgowego dla Statcom. Symulacja wykazała lepszą wydajność proponowanego sterownika z wynikami skuteczności i wydajności w porównaniu z konwencjonalnym sterownikiem IP.
Wydawca
Czasopismo
Rocznik
Tom
Strony
167--172
Opis fizyczny
Bibliogr. 24 poz., rys.
Twórcy
autor
- Department of Electrical Engineering, ICEPS Laboratory, faculty of sciences and technologies, University of Ain Temouchent, Ain Temouchent, Algeria
autor
- Department of Electrical Engineering, ICEPS Laboratory, faculty of sciences and technologies, University of Ain Temouchent, Ain Temouchent, Algeria
autor
- Department of Electrical Engineering, ICEPS Laboratory, Faculty of Electrical Engineering, University of Djillali Liabes, Sidi Bel Abbes, Algeria
autor
- Department of Electrical Engineering, SSL Laboratory, faculty of sciences and technologies, University of Ain Temouchent, Ain Temouchent, Algeria
Bibliografia
- [1] S.Y. Ruan, G.J. Li, L. Peng, Y.Z. Sun, T.T. Lie, «A Nonlinear Control For Enhancing HVDC Light Transmission System Stability », Electrical Power And Energy Systems, (2007), 565-570.
- [2] M. Xia, Y. Mao« Integral Sliding Mode Control Strategy Of D Statcom For Unbalanced Load Compensation Under Various Disturbances», Mathematical Problems In Engineering, Vol. (2013), Article Id 932389, 14 Pages.
- [3] S. K.M. Kodsi, C.A. Canizares , M. Kazerani :Reactive current control through SVC for load power factor correction. Electric Power Systems Research, Vol. 76, December (2006), 701–708.
- [4] J. A. Martinez , J. E. Garcia, S. Arnaltes, : Direct power control of grid connected PV systems with three level NPC inverter. Solar Energy, Vol. 84, April (2010),1175–1186.
- [5] I. M. Martinsa,, F. A. Silvab, S. F. Pintob, I. E. Martins «Sliding Mode Active And Reactive Power Decoupled Control FordistributedPower Flow Controllers », Electric Power Systems Research (2014), 65-73.
- [6] J. Rodríguez, J.S. Lai, F.Z. Peng: Multilevel Inverters: A Survey Of Topologies, Controls, And Applications. IEEE Transactions On Industrial Electronics, Vol. 49, Issue 4, August (2002), 724-738.
- [7] D. H. Lee, S. R. Lee , F. C. Lee: An Analysis Of Midpoint Balance For The Neutral-Point-Clamped Three-Level VSI. Power Electronics Specialists Conference, 01(1998), 193–199.
- [8] D. W. Feng, B. Wu, S. Wei and D. Xu : Space Vector Modulation for Neutral Point Clamped Multilevel InverterWith Even Order Harmonic Elimination . IEEE Transactions On Electrical and Computer Engineering, (2004), 1471-1475.
- [9] B.P. McGrath, D.G. Holmes, T. Lipo : Optimized Space Vector Switching Sequences for Multilevel Inverters. IEEE TransactionsOn Power Electronics, 18, (2003), 1293-1301.
- [10] P.C. Loh, D.G. Holmes : Flux Modulation for Multilevel Inverters . IEEE Transactions On Industry Applications, 38 (2002), Pp 1389-1399.
- [11] M.R. Banaei, S.H. Hosseini, S. Khanmohammadi, G.B. Gharehpetian : Verification of a new energy control strategy for dynamic voltage restorer by simulation. Simulation Modelling Practice and Theory,14 (2006), Pp 112–125.
- [12] A.E. Leon, J.A. Solsona, C. Busada, H. Chiacchiarini, M.I. Valla : High-performance control of three-phase voltage-source converter including feed forward compensation of the estimated load current. Energy Conversion and Management, 50(2009), 2000-2008.
- [13] M. Flitti, M.K. Fellah, M. Yaichi, M. Khatir, M. F. Benkhoris « Control Design Of Statcom Using Five Level Npc Converter And Its Application In Reactive Power », Rev. Roum. Sci. Techn. – Électrotechn. Et Énerg, 59 ( 2014), 351–360.
- [14] I. M. Martinsa,, F. A. Silvab, S. F. Pintob, I. E. Martins :Sliding Mode Active And Reactive Power Decoupled Control For distributed Power Flow Controllers. Electric Power Systems Research, (2014), 65-73.
- [15] S. K. Routraya ,N. Nayaka, P. K. Routa : A Robust Fuzzy Sliding Mode Control Design For Current Source Inverter Based Statcom Application. Procedia Technology, (2012), 342–349.
- [16] M.T Benchouia, I.Ghadbane, A.Golea, K.Srairi, M.H Benbouzid« Design and Implementation of Sliding Mode and PI Controllers based Control for Three Phase Shunt Active Power Filter», Energy Procedia, 50 (2014), 504–511.
- [17] F. Merahi, E. Berkouk, S. Mekhilef « New management structure ofactive and reactive power of a large wind farm based on multilevel converter», Renewable Energy, 68 (2014), 814–828.
- [18] X. Sun, X. Feng « Design and Simulation of a New Sliding Mode Controller for STATCOM Based Wind Farm », International Journalof Control and Automation, 7(2014), 45–54.
- [19] S. Chennai « Three-Level Neutral Point Clamped Shunt Active Power Filter Performances Using Intelligent Controllers», Rev. Roum. Sci. Techn.– Électrotechn. Et Énerg., 59 (2014), 303–313.
- [20] M. Loucif, A. Boumediene, A. Mechernene «Nonlinear Sliding Mode Power Control of DFIG under Wind Speed Variation and Grid Connexion », Electrotehnica, Electrnica,Automatica, 63 (2015), 23–32.
- [21] S. CHENNAI « Steady and Dynamic Performances Evaluation of Three-Level Shunt Active Power Filter for Power Quality Improvement», Electrotehnica, Electrnica,Automatica, 64, (2016), 76–82.
- [22] S. Ahmed, B. Cherif, B. Chellali « Fuzzy Intelligent Control for Solar/Wind Hybrid Renewable Power System», Electrotehnica, Electrnica,Automatica, 65, (2017), 128–136.
- [23] B. Belabbas, T. Allaoui, M. Tadjine, M. Denai « High Order Sliding Mode Controller Simulation By a Wind Turbine For DFIG Protection against Overcurrent», Electrotehnica, Electrnica,Automatica, 65(2017), 142–147.
- [24] A. Chebabhi, M. K. Fellah, M. F. Benkhoris, A. Kessal « Sliding Mode Controller for Four Leg Shunt Active Power Filter to Eliminating Zero Sequence Current, Compensating Harmonics and Reactive Power with Fixed Switching Frequency», SERBIAN JOURNAL OF ELECTRICAL ENGINEERING, 12 (2015), 205-218.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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