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2012 | R. 88, nr 5b | 187-193
Tytuł artykułu

A Comparison between Line-Start Synchronous Machines and Induction Machines in Distributed Generation

Wybrane pełne teksty z tego czasopisma
Warianty tytułu
PL
Porównanie pracy generatora synchronicznego i indukcyjnego w sieci rozdzielczej
Języki publikacji
EN
Abstrakty
EN
The phenomenon of the self-synchronisation in line-start synchronous machines can be suitably used in distributed generation plants. With a simple control equipment based on contactors, it is possible to overcome the restrictions imposed to the synchronous generators in some countries. The paper shows that synchronous machines can be suitable also when both stand-alone and grid-connected operations are involved. The paper reports finally a comparison with an equivalent system based on induction machines by means of experimental tests on sample test benches with the target to put in evidence the different characteristics of the two plant typologies.
PL
W artykule wykazano że generator synchroniczny może być z powodzeniem użyty jako jednostka samodzielna i w lokalnej sieci. Porównano dwie sieci – z generatorami synchronicznymi i indukcyjnymi.
Wydawca

Rocznik
Strony
187-193
Opis fizyczny
Bibliogr. 16 poz., schem.
Twórcy
autor
autor
autor
  • University of Naples Federico II
Bibliografia
  • [1] Ault G.W., McDonald J.R., Burt G.M., Strategic analysis framework for evaluating distributed generation and utility strategies, IEE Proc. Generation, Transmission and Distribution (2003), vol. 150, issue 4, pp. 475-481
  • [2] Piccolo A., Siano P., Evaluating the Impact of Network Investment Deferral on Distributed Generation Expansion, IEEE Trans. Power Systems (2009), vol. 24, issue 3, pp. 1559-1567
  • [3] Rizzo R., Tricoli P., Power flow Control Strategy for Stand-Alone Systems with Renewable Energy Sources, Proc. of Power and Energy Conference - PECON (2006), Malaysia
  • [4] Piegari L., Rizzo R., Adaptive Perturb and Observe Algorithm for Photovoltaic Maximum Power Point Tracking, Renewable Power Generation IET (2010) Vol. 4-Issue 4, pp. 317-328
  • [5] Andreotti A., Del Pizzo A., Rizzo R., Tricoli P., An efficient architecture of a PV plant for ancillary service supplying, Proc. of Power Electronics Electrical Drives Automation and Motion - SPEEDAM, (2010) Pisa, Italy
  • [6] Brando G., Dannier A., Del Pizzo A., Rizzo R., Power Electronic Transformer for Advanced Grid Management in Presence of Distributed Generation, International Review of Electrical Engineering (I.R.E.E.), (2011), Vol. 6, n. 7
  • [7] Murthy S.S., Singh B., Gupta S., Gulati B.M., General steadystate analysis of three-phase self-excited induction generator feeding three-phase unbalanced load/single-phase load for stand-alone applications, IEE Proc. Generation, Transmission and Distribution (2003), vol. 150, issue 1, pp. 49-55
  • [8] Murthy S.S., Malik O.P., Tandon A.K., Analysis of self-excited induction generators, IEE Proc. part C (1982), vol. 129, issue 6, pp. 260-265
  • [9] Joshi D., Sandhu K.S., Soni M.K., Constant voltage constant frequency operation for a self-excited induction generator, IEEE Trans. Energy Conversion (2006), vol. 21, issue 1, pp. 228-234
  • [10] Piegari L., Rizzo R., Tricoli P., Optimized design of a Back-to-Back Converter for Doubly Fed Induction Generator equipped Wind Turbines, Proc. 2009 International Conference on Clean Electrical Power - ICCEP, (2009) Capri, Italy
  • [11] Raina G., Malik O.P., Wind energy conversion using a selfexcited induction generator, IEEE Trans. Power App. Syst. (1983), vol. PAS-102, n. 12, pp. 3933-3936
  • [12] Muller S., Deicke M., De Doncker R.W., Adjustable speed generators for wind turbines based on doubly-fed induction machines and 4-quadrant IGBT converters linked to the rotor, Proc. of the 2000 IEEE Industry Applications Conference (2000), vol. 4, pp. 2249-2254
  • [13] McMurray W., SCR inverter commutated by an auxiliary impulse”, IEEE Trans. Commun. Electron. (1964), vol. 83, pp. 824-829
  • [14] Chung S.K., A phase tracking system for three phase utility interface inverters, IEEE Trans. Power Electronics (2000), vol. 15, issue 3, pp. 431-438
  • [15] Marcic T., Stumberger G., Stumberger B., Hadziselimovic M., Virtic P., Determining Parameters of a Line-Start Interior Permanent Magnet Synchronous Motor Model by the Differential Evolution, IEEE Trans, Magnetics (2008), vol. 44, issue 11, part 2, pp. 4385-4388
  • [16] D’Apuzzo M., D’Arco M., Frequency and amplitude tracking of time varying harmonics and interharmonics in power systems, Proc. of the 23rd IEEE instrumentation and measurement technology conference (2006), Sorrento, Italy
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOK-0037-0043
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