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Dynamic grid-flux-based control for grid connected voltage-source converters

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PL
Oparte na strumieniu sieciowym dynamiczne sterowanie przekształtników ze źródłem napięciowym
Języki publikacji
EN
Abstrakty
EN
Power-grid connected voltage-source converters provide two-way energy exchange with the grid. They are used for renewable energy applications, combined heat and power, active filtering and loads with dynamically changing working conditions. Aggravated grid codes and dynamic loads require very fast control methods. A control based on the integral of the grid voltage (called grid flux) offers extremely fast dynamics and graphical understanding.
PL
Zastosowanie w sieci elektroenergetycznej nowoczesnych przekształtników prądu przemiennego umożliwia dwukierunkowy przepływ energii. Są one używane do przyłączania odnawialnych źródeł energii, w systemach z kogeneracją ciepła i energii elektrycznej, filtrach aktywnych oraz obciążeniach o zmiennych warunkach pracy. Coraz bardziej rygorystyczne warunki przyłączeniowe i zmienne obciążenia wymagają szybkich metod sterowania. Sterowanie wykorzystujące strumień sieci charakteryzuje się wysoką dynamiką i intuicyjnością działania. Oparte na strumieniu sieciowym dynamiczne sterowanie przekształtników ze źródłem napięciowym.
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46--56
Opis fizyczny
Bibliogr. 28 poz., rys.
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autor
Bibliografia
  • [1] Depenbrock, M.: Einphasen-Stromrichter mit sinusförmigem Netzstrom und gut geglätteten Gleichgrößen ETZ-A, 1973, Nr. 94, pp. 466 - 471
  • [2] Wu, R., Dewan, Sh. B., Slemon, G.R.: A PWM AC-to-DC Converter with Fixed Switching Frequency. IEEE Transactions on Industry Applications, Vol. 26, No. 5, Sept./Oct. 1990, pp.880-885
  • [3] Malesani, L., Tenti, P.: Three-Phase AC/DC PWM Converter with Sinusoidal AC Currents and Minimum Filter 56 PRZEGLĄD ELEKTROTECHNICZNY (Electrical Review), ISSN 0033-2097, R. 86 NR 6/2010 Requirements. IEEE Transactions on Industry Applications, Jan. / Feb. 1987, Vol. 23, no. 1, pp. 71-77
  • [4] Malesani, L., Rossetto L., Tenti, P.: Active filter for reactive power and harmonics compensation. IEEE PESC conf. Record 1986, pp. 321-330
  • [5] Bhattacharya, S., Veltman, A., Divan, D.M., Lorenz, R.D.: Flux Based Active Filter Controller. IEEE Transactions on Industry Applications, May/Jun 1996 Vol. 32 , Issue: 3 pp. 491 - 502
  • [6] Sonnenschein, M., Weinhold, M., Zurowski, R.: Shunt-Connected Power Conditioner for Improvement of Power Quality in Distribution Networks. 7th International Conference on Harmonics and Quality of Power (ICHQP VII), 1996, Las Vegas, pp. 27 - 32
  • [7] Schmidt, J.: Unterbrechungsfreie Stromversorgung. Technische Mitteilungen AEG-Telefunken, 1968, no. 1, pp. 8-13
  • [8] Chauprade, R.: Inverters for Uninterruptible Power Supplies. IEEE Transactions on Industry Applications July 1977 Vol. 13, Issue: 4, pp. 97 - 104
  • [9] Voss, L. D.: High efficiency parallel-connected power electronics compensators for protection of sensitive loads from voltage sags and outages. PhD Thesis, Ruhr-Universität Bochum, 2002. ISBN 3-18-333021-0
  • [10] Casadei, D., Grandi, G., Jardan, R.K., Profumo, F.: Control strategy of a power line conditioner for cogeneration plants. 26th PESC 1999, Vol. 2, pp . 607 - 612
  • [11] IEC/TS 62578:2009, Power electronics systems and equipment – Operation conditions and characteristics of active infeed converter applications
  • [12] Hoffmann, F., Jänecke, M.: Fast Torque Control of an IGBTInverter Fed Three-Phase A.C. Drive in the Whole Speed Range – Experimental Results. 6th European Power Electronic Conference (EPE) 1995, Sevilla, Proc. pp. 3.399-404
  • [13] Weinhold, M.: A new control scheme for optimal operation of a three-phase voltage dc link PWM converter. PCIM '91, International Intelligent Motion Conference 1991, Nürnberg, Proceedings pp. 371-383
  • [14] Malinowski, M., Kazmierkowski, M. P., Hansen, S., Blaabjerg, F., Marques, G.D.: Virtual-flux-based direct power control of three-phase PWM rectifiers. IEEE Transactions on Industry Applications July-Aug. 2001, Volume 37 , Issue: 4, pp. 1019 -1027
  • [15] Sonnenschein, M., Weinhold, M.: Comparison of time-domain and frequency-domain control schemes for shunt active filters. ETEP Vol. 9 (1999), No. 1, pp. 5 - 16
  • [16] Tarkiainen, A.: Power quality improving with virtual flux-based voltage source line converter. Dissertation Lappeenranta University of Technology, 2005, ISSN:1456-4491, https://oa.doria.fi/handle/10024/29790
  • [17] Akagi, H., Watanabe, E.H., Aredes, M.: Instantaneous Power Theory and Applications to Power Conditioning, IEEE Press and Wiley-Interscience, 2007
  • [18] Depenbrock, M., Staudt, V., Wrede, H.: A Theoretical Investigation of Original and Modified Instantaneous Power Theory Applied to Four-Wire Systems. IEEE Transactions on Industry Applications, Vol. 39 (2003), No.4, pp. 1160-1168
  • [19] Staudt, V.: Fryze-Buchholz-Depenbrock: A time-domain power theory,ISNCC Tutorial, Lagow/Poland, June 2008
  • [20] IEC 6248-1.0, 2008-07, Electric power engineering – Modal components in three-phase a.c. systems – Quantities and transformations
  • [21] Staudt, V., Depenbrock, M.: Stability problems if three-phase systems with bidirectional energy flow are compensated using the FBD-Method. 8th International Conference on Harmonics and Quality of Power (ICHQP VIII), Oct. 1998, Athens, pp. 325-330
  • [22] Kail, M., Staudt, V., Steimel, A.: Improved dynamic operation for direct flux control of active front ends with low switching frequency. Power Electronics Specialists Conference, PESC 2004, Aachen, Germany, Vol. 4, pp. 2533 – 2539
  • [23] Kail, M.: Direct Flux Control for High-Power Active Front Ends with Low Switching Frequency. Dissertation Ruhr-University Bochum, Shaker-Verlag Aachen, 2003, ISBN 3-8322-2228-6
  • [24] Akagi, H.: Control strategy and site selection of a shunt active filter for damping of harmonic propagation in power distribution systems. IEEE Transactions on Power Delivery, Vol. 12 (1997), Nr. 1, S. 354 - 363
  • [25] Liserre, M. Blaabjerf, F. Hansen, S.: Design and Control of an LCL-Filter-Based Three-Phase Active Rectifier. IEEE Trans. On Industry Applications IEEE-IAS Vol. 41, No. 5, Sept./Oct. 2005, pp. 1281-1291
  • [26] Bhattacharya, S., Divan, D.M., Banerjee, B.: Active Filter Solutions For Utility Interface, International Conference on Industrial Electronics, IEEE-ISIE, Athens, Greece, July 1995
  • [27] Oettmeier, M.; Bartelt, R.; Heising, C.; Staudt, V., Steimel, A.: LQ-optimized multivariable control for a single-phase 50-kW, 16.7-Hz Railway Traction Line-Side Converter 13th European Conference on Power Electronics and Applications (EPE), 2009
  • [28] Heising, C.; Oettmeier, M.; Staudt, V., Steimel, A.: Pole Restraining – a Novel Control Approach for Power-Electronic Systems Power Conversion Intelligent Motion (PCIM), 2010
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOK-0031-0006
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