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Small Signal Stability Analysis of Six-phase Synchronous Generator

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PL
Analiza stabilności małego sygnału sześciofazowego generatora synchronicznego
Języki publikacji
EN
Abstrakty
EN
In the present work, a higher order linearized model has been developed to assess the small signal excursion characteristics of an asymmetrical six-phase synchronous generator system connected to infinite bus using eigenvalue criterion. The stability of the system under small perturbation of different variables has been examined from the placement of eigenvalues. The work establishes an association between generator and loading parameters with pair of eigenvalues, thus the system stability. Further a participation factor analysis has also been carried out to identify the effect of dynamic state variable on a given mode or eigenvalue.
PL
W artykule zaprezentowano linearyzowany model wyższego rzędu umożliwiający analizę asymetrycznego sześciofazowego generatora asynchronicznego podłączonego do nieskończonej linii. Badano stabilność systemu przy małych zakłóceniach.
Rocznik
Strony
76--82
Opis fizyczny
Bibliogr. 20 poz., rys., wykr.
Twórcy
autor
  • Indian Institute of Technology Roorkee, Roorkee, India
autor
  • Indian Institute of Technology Roorkee, Roorkee, India
Bibliografia
  • [1] Levi E. Multi-phase electric machines for variable speed applications. IEEE Trans Ind Electronics, 55 (2008), 1893-1909
  • [2] Singh G K. Multi-phase induction machine drive research – a survey. Electric Power System Research, 61 (2002), 139-147
  • [3] E. Levi, et al., "Multi-phase induction motor drives - a technology status review," IET Electric Power Applications, 1 (2007), 489- 516
  • [4] Singh G. K., et al., "A self-excited six-phase induction generator for stand-alone renewable energy generation: experimental analysis " European Transactions on Electrical Power, vol. DOI 10.1002/etep.372, (2009)
  • [5] Singh G. K., "A six-phase synchronous generator for standalone renewable energy generation: experimental analysis," Energy, 36 (2011), 1768-1775
  • [6] Singh G. K. Modeling and analysis of six-phase synchronous generator for stand-alone renewable energy generation. Energy. 36 (2011), 5621-31
  • [7] Vizireanu D, et al.,”Investigation on multi-star structures for large power direct-drive wind generator. Electric power components and system, 35 (2007), 135-152
  • [8] Singh G. K and S. Derminder, "Transient analysis of isolated six-phase synchronous generator," Energy Procedia, 14 (2012), 73-80
  • [9] Demello F. P. and C. Concordia, "Concepts of synchronous machine stability as affected by excitation control," IEEE Transactions on Power Apparatus and Systems, 88 (1969), 316-329
  • [10] Ngo Y.H, "State space eigenvalues program for stability of regulated synchronous machine," in proc. IEE, 118 (1971), 1275-1279
  • [11] Slootweg J.G., et al., "A study of the eigenvalue analysis capabilities of power system dynamics simulation software," in 14th PSCC, Sevilla, 24-28th June, 2002
  • [12] Hsu C.T., "Transient stability study of the lage synchronous motors starting and operation for the isolated integrated steelmaking facility," IEEE transactions on industry applications, 39 (2003), 1436-1441
  • [13] Rockhill A. A. and Lipo T. A., "A simplified model of a ninephase synchronous machine using vector space decomposition," Electric Power Components and Systems, 38 (2010), 477-489
  • [14] Singh G.K., et al., "Stability analysis of a multi-phase (sixphase) induction machine," Computers and Electrical Engineering, 29 (2003), 727-756
  • [15] Duran M. J., et al., "Bifurcation analysis of five-phase induction motor drive with third harmonic injection," IEEE Transactions on Industrial Electronics, 55 (2008), 2006-2014
  • [16] Schiferl R.F. and Ong C.M., "Six phase synchronous machine with AC and DC stator connections - Part 1-2," IEEE Transactions on Power Apparatus and Systems, 102 (1983), 2685-2693
  • [17] Krause P. C., et al., Analysis of Electric Machinery and Drive Systems: IEEE Press, A John Wiley & Sons, Inc Publication, 2002
  • [18] Anderson P. M., et al., Power system control and stability: IEEE Press, A John Wiley & Sons, Inc Publication, 2003
  • [19] Verghee G. C, et al., “Selective modal analysis with application to electric power systems, part 1 & 2”, IEEE Trans. Power Apparatus and Systems, 101 (1982), 3117-3134
  • [20] Sauer P. W and Pai M. A., “Power system dynamics and stability”, Pearson Education, 1998
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-01b07999-8b02-4be1-962d-1a6d3f91bb6c
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