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Warianty tytułu
Dławik gaszący ASC
Języki publikacji
Abstrakty
The arc suppression coil (ASC) is one of the most important devices in distribution networks to obtain the optimal power supply quality. Though there exits many types of ASC, some problems have been still not solved. In order to develop an ASC with rapid and continuous tuning and limited harmonics, this paper proposes a novel type of ASC, which is based on a single phase matrix converter. Due to pulse width modulation (PWM) control, compensating currents can be adjusted in a wide range and the order of harmonics is so high to be filtered easily. Finally, by using PSCAD/EMTDC, simulations are given to illustrate the feasibility and validity of this novel ASC.
W artykule zaproponowano nowy typ dławika gaszącego ASC, bazujący na jednofazowym przekształtniku matrycowym. Dzięki modulacji PWM, możliwe jest generowanie prądów kompensujących o szerokim zakresie, a co za tym idzie skuteczna eliminacja harmonicznych. Wykonano badania symulacyjne w programie PSCAD/EMTDC, weryfikujące skuteczność działania rozwiązania.
Wydawca
Czasopismo
Rocznik
Tom
Strony
213--217
Opis fizyczny
Bibliogr. 24 poz., schem., tab., wykr.
Twórcy
autor
- B111 Mulan Building, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai 200240, China
autor
- B111 Mulan Building, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai 200240, China
autor
- B111 Mulan Building, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai 200240, China
Bibliografia
- [1] ABB Electric Systems Technology Institute. Electrical Transmission and Distribution Reference Book. 5th ed. (1997)
- [2] Yao H. N., Cao M. Y., Resonance to Ground in Power System, China Electric Power Press, Beijing, China, (2000)
- [3] Product Department of State Grid Corporation of China, A Booklet for implementing 10-66kV Arc Suppression Coil Management System, China Electric Power Press, Beijing, China, (2006)
- [4] Brenna M., De Berardinis E., Delli Carpini L., etc., Petersen Coil Regulators Analysis Using a Real-Time Digital Simulator. IEEE Transactions on Power Delivery, 26 (2011), No. 3, 1479-1488
- [5] Pang Q. L., Sun T. J., Mu J., etc. Design of Air Gap Inductance Regulation Arc Suppression Coil Control System, High Voltage Engineering, 32 (2006), No. 4, 8-10
- [6] Leikermoser A., Ortolani F., New Techniques for Compensated Networks: Tuning the Petersen coil, Determining the Network Parameters and Performing Earth Fault Current Prediction and Reconstruction. CIRED 19th International Conference on Electricity Distribution, paper 0120, 21-24 May, 2007, Vienna
- [7] Chen Z. R., Wu W. N., Zhang Q., Chen J. H., New Automatic Tuning Method for Multi-Tap Arc-Suppression Coil, Automation of Electric Power Systems, vol. 29 (2005), No. 12, 75-78
- [8] Xu Y. Q., Wang Z. Q, Zhang H., The Automatic Following Control of Arc Suppression Coil with Thyristor Switched Capacitors. 1st IEEE Conference on Industrial Electronics and Applications, 24-26 May, 2006, Singapore
- [9] Cai X., Liu Y., Magnetic Bias Based Arc-Suppression Transformer with Three Phases and Five Columns and Its Tuning, Automation of Electric Power Systems, 28 (2004), No. 2, 83-88
- [10] Cai X., Liu Y., Hu C. Q., etc, New resonance earth system with magnetic bias and its protection, Proceeding of the CSEE, 24 (2004), No. 6, 44-49
- [11] Wu X., Cai X., Design of Key Parameters about Two-Stage Magnetic Valve Arc-Suppression Coil, Diangong Jishu Xuebao, 26 (2011), No. 10, 224-230
- [12] Chen H., Cai X., Wang J., Compensation Characteristics of Arc Suppressing Coil Controlled by TCR, Automation of Electric Power Systems, 31 (2007),No. 11, 81-86
- [13] Sun Y. Y., Zheng W. J., Xu W., A New Method to Model the Harmonic Generation Characteristics of the Thyristor Controlled Reactors. IEEE Power Tech, 1785-1790, 1-5 July, 2007, Lausanne
- [14] Zhang Y., Chen Q. F., Tian J., etc., Controllable Reactor Based on Transformer Winding Current Regulating, Proceeding of the CSEE, 29 (2009), No. 18, 113-118
- [15] Cheng L., Chen Q. F., Zhang Y., etc., Novel Arc-Suppression Coil Based on the Theory of Transformer with Controllable Load, Automation of Electric Power Systems, 30 (2006), No. 21, 77-81
- [16] Zuckerberger A., Weinstock D., Alexandrovitz A., Single-phase Matrix Converter, IEE Proceedings Electric Power Applications, 144 (1997), No. 4, 235-240
- [17] Agarwal V., Gupta S., An Efficient Algorithm for Generalised Single-phase Converter, IET Power Electronics, 3 (2010),No.1, 138-145
- [18] Gola A. K., Agarwal V., Implementation of An Efficient Algorithm for A Single Phase Matrix Converter, Journal of Power Electronics, 9 (2009), No. 2, 198-206
- [19] Holmes D. G., Lipo T. A., Pulse Width Modulation for Power Conveterr: Principles and Practice, IEEE press, New York, USA, (2003)
- [20] Druml G., Kugi A., Seifert O., New Method to Control Petersen Coils by Injection of Two Frequencies, CIRED 18th International Conference and Exhibition on Electricity Distribution, 1-5, 6-9 June, 2005,Turin, Italy
- [21] De Rybel T., Singh A., Pak P., Marti J. R., Online Signal Injection Through a Bus-Referenced Current Transformer, IEEE Transactions on Power Delivery, 25 (2010), No. 1, 27-34
- [22] Ortolani F., Leikermoser A.. Neutral compen-sation and network monitoring - Test field experience in determining resonant point and homopolar parameters with active and passive pulse injection. CIRED 20th International Conference and Exhibition on Electricity Distribution, 1-4, 8-11 June, 2009, Prague, Czech republic
- [23] Manitoba HVDC Research Centre Inc., PSCAD/EMTDC V4.2, www.pscad.com
- [24] Sun Y. M.,. Miao Y. Z, A New Principle of Transient Current Grounded Relay for Feeder in Resonant-Grounded Distribution Systems, Proceeding of the CSEE, 24 (2004), No. 3, 62-66
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-44cee973-f8c8-47c1-830f-a25135451998