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Some aspects of representation of inductance distributions in dq0-axes in a salient pole synchronous generator

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Języki publikacji
EN
Abstrakty
EN
This paper concerns a salient pole synchronous generator with 10 damping bars, and presents the distribution of self- and mutual inductances in the stator natural reference frame abc, as well as in the rotor reference frame dq0 versus the electrical rotor position angle. It shows the influence of higher harmonic contents of the self- and mutual stator inductance distributions for linear and nonlinear circuital model on the inductance distribution in dq0-axes.
Słowa kluczowe
Rocznik
Tom
Strony
187--194
Opis fizyczny
Bibliogr. 26 poz., rys., wz.
Twórcy
autor
  • Politechnika Świętokrzyska, Katedra Maszyn Elektrycznych i Systemów Mechatronicznych, Al. Tysiąclecia PP. 7, 25–314 Kielce
Bibliografia
  • [1]. T. J. Sobczyk: Extreme possibilities of circuital models of electric machines. Electrical Power Quality and Utilisation, vol. 7, no. 2, 2006, pp. 103-110
  • [2]. T. J. Sobczyk: Methodology of mathematical modeling of induction machines (in Polish) (WNT,Warsaw, 2004)
  • [3]. J. Staszak: Modeling the electromechanical characteristics of three-phase squirrel-cage induction motor by selection the stator windings and the power supply system (in Polish). Wydawnictwo Politechniki Świętokrzyskiej. Monograph M31, Kielce (2012)
  • [4]. K. Ludwinek: Model of synchronous machine for co-operation with distorted and asymmetrical electric power system (in Polish). Zeszyty Naukowe Politechniki Świętokrzyskiej, Elektryka, no. 42, 2005, Kielce, pp. 239-250
  • [5]. S. Berhausen, A. Boboń: A field method for determining parameters and characteristics of a synchronous machine (in Polish). Zeszyty Problemowe – Maszyny Elektryczne no 91/2011, Politechnika Śląska, Gliwice, pp. 43-49
  • [6]. S. Berhausen, A. Boboń, S. Paszek: A methodology for determining electromagnetic parameters of a synchronous machine based on analysis of transient waveforms obtained by the finite element method under no-load conditions. Zeszyty Problemowe – Maszyny Elektryczne no 84/2009, Politechnika Śląska, Gliwice, pp. 29-32
  • [7]. I. Boldea: Synchronous generators. CRC Taylor & Francis Group (2006)
  • [8]. R. Zajczyk, Mathematical models of Power system for examination of electro-mechanical unsteady states and control processes (in Polish) Gdańsk University of Technology Publications (2003)
  • [9]. G. Dajaku, D. Gerling: The correct analytical expression for the phase inductance of the salient pole machines, IEEE International Electric Machines & Drives Conference (IEMDC 2007), 3-5 May, 2007, Antalya, Turkey
  • [10]. K. Ludwinek: Representation of the self inductances in a circuital model of a salient-pole synchronous machine (in Polish). Elektro.Info, no. 7/8, 2013, pp. 36 - 41
  • [11]. K. Ludwinek: Representation of the mutual inductances in a circuital model of a salient-pole synchronous machine (in Polish). Elektro.Info, no. 9, 2013, pp. 103 - 111
  • [12]. K. Ludwinek, J. Staszak: Possibility of graphical environment applications for evaluating of equivalent circuit parameters and time constants, Przegląd Elektrotechniczny, no. 12a, 2011, pp. 195 -200
  • [13]. S. Wiak, R. Nadolski, K. Ludwinek, J. Staszak: Influence of the Synchronous Cylindrical Machine Damping Cage on Content of Higher Harmonics In Armature Currents During Co-Operation with the Distorted and Asymmetrical Electric Power System. Computer Engineering in Applied Electromagnetism, IOS Press, pp. 520 – 527 (2006)
  • [14]. H. J. Vermeulen, J. M. Strauss, V. Shikoana: Online estimation of synchronous generator parameters using PRBS perturbations. IEEE Transactions on Power Systems, vol. 17, n. 3, 2002, pp. 674-700
  • [15]. Z. Danhong: Finite element analysis of synchronous machines. Pennsylvania State University. Doctor's Thesis (2009)
  • [16]. A. Demenko, W. Pietrowski, D. Stachowiak: Flux density calculation in permanent magnet machine using edge element method, Przegląd Elektrotechniczny no. 10, 2005, pp. 2 - 7
  • [17]. W. Burlikowski: Comparison of different implementations of reluctance motor simulational model. Proc. of XLIII SME, Poland, Poznań, 2 – 5 Juny, 2007, pp.147 - 150
  • [18]. http://www.femm.info/wiki/HomePage.
  • [19]. J. Skwarczyński: Salient poles inner asymmetries (in Polish). Scientific Bulletins of Stanisław Staszic Academy of Mining and Metallurgy, Electrotechnics, Bulletin16, 1990
  • [20]. A. Tessarolo: Accurate Computation of Multiphase Synchronous Machine Inductances Based on Winding Function Theory. IEEE Transactions on Energy Conversion vol. 27, 2012 pp: 895 - 904
  • [21]. M. Dąbrowski: Design of alternating current electrical machines (in Polish). (WNT, Warsaw, 1994)
  • [22]. J. Pyrönen, T. Jokinen, V. Hrabcová: Design of rotating electrical machines. John Wiley & Sons (2008)
  • [23]. M. Freese, S. Kulig: Influence of constructional turbo-generator end region design on end winding inductances. Archives of Electrical Engineering. vol. 61 n. 2, 2012, pp. 199-210
  • [24]. K. Ludwinek: Proposed way of modeling the damping circuits on the rotor of a salient pole synchronous generator (in Polish), Zeszyty Problemowe Maszyny Elektryczne no. 4/2014, published by Komel Katowice, Poland, pp. 179-186
  • [25]. N. Masatsugu, K. Haruyuki, K. Mitsuhiro, I. Yuji: Permanent magnet dynamo electric machine, and permanent magnet synchronous generator for wind power generation. United States Patent No. 6894413 (2005)
  • [26]. H. May, R. Palka, P. Paplicki, S. Szkolny: Canders W. R., Modified concept of permanent magnet excited synchronous machines with improved high-speed features. Archives of Electrical Engineering. vol. 60 n. 4, 2011, pp. 531-540
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-96205cc5-e4d7-4b58-b882-83744b1c616b
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