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Application of new POSICAST control method to synchronous generator excitation system

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this paper, modeling, analysis, design and simulation of a POSICAST controller are presented for application in a generator’s excitation system. Simple structure is the most important characteristic of this controller. The controller is a feedforward compensator; it eliminates intensive over/undershoots in system dynamic response. Since changing the reference signal in the excitation system of the synchronous generator causes oscillations in the terminal voltage, the POSICAST controller (PC) is applied at the outset of the excitation system to mitigate these oscillations. The impact of the proposed controller on the stability of the studied power system is evaluated by both eigenvalues analysis and experimental results. In order to validate the theory, the performance of the designed controller is verified in OPAL-RT by experimental approach.
Rocznik
Strony
336--344
Opis fizyczny
Bibliogr. 31 poz., rys., tab., wykr.
Twórcy
autor
  • Electronic Engineering Department, UPC, Rambla Sant Nebridi, Terrassa, Spain
autor
  • Shahid Chamran University of Ahvaz, Ahvaz, Iran
autor
  • Department of Electrical Engineering, Abhar Branch, Islamic Azad University, Abhar, Iran
  • Electronic Engineering Department, UPC, Rambla Sant Nebridi, Terrassa, Spain
Bibliografia
  • [1] P. Kundur, N. J. Balu, M. G. Lauby, Power system stability and control, Vol. 7, McGraw-hill New York, 1994.
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  • [3] H. Khodr, F. Olsina, P. De Oliveira-De Jesus, J. Yusta, Maximum savings approach for location and sizing of capacitors in distribution systems, Electric Power Systems Research 78 (7) (2008) 1192–1203.
  • [4] T.-C. Lee, Y. Tan, D. Nešic, Stability and persistent excitation in signal sets, IEEE Transactions on Automatic Control 60 (5) (2015) 1188– 1203.
  • [5] C.-Y. Park, J.-M. Kwon, B.-H. Kwon, Automatic voltage regulator based on series voltage compensation with ac chopper, IET Power Electronics 5 (6) (2012) 719–725.
  • [6] J. E. Mendoza, H. E. Peña, Automatic voltage regulators siting in distribution systems considering hourly demand, Electric Power Systems Research 81 (5) (2011) 1124–1131.
  • [7] P. W. Sauer, M. A. Pai, Power system dynamics and stability, Urbana.
  • [8] S. Mohagheghi, Y. del Valle, G. K. Venayagamoorthy, R. G. Harley, A proportional-integrator type adaptive critic design-based neurocontroller for a static compensator in a multimachine power system, IEEE Transactions on Industrial Electronics 54 (1) (2007) 86–96.
  • [9] M. Abido, Y. Abdel-Magid, A fuzzy basis function network based power system stabilizer for generator excitation control, Electric power systems research 49 (1) (1999) 11–19.
  • [10] K. El-Metwally, N. Rao, O. Malik, G. Ramakrishna, Application of a neural network as an integrated excitation controller, Electric power systems research 42 (2) (1997) 121–126.
  • [11] V. Vesely, D. Mudroncik, Power system non-linear adaptive control, Electric power systems research 22 (3) (1991) 235–242.
  • [12] W. Mielczarski, A. Zajaczkowski, Nonlinear field voltage control of a synchronous generator using feedback linearization, Automatica 30 (10) (1994) 1625–1630.
  • [13] A. G. Loukianov, J. M. Cañedo, L. M. Fridman, A. Soto-Cota, Highorder block sliding-mode controller for a synchronous generator with an exciter system, IEEE Transactions on Industrial Electronics 58 (1) (2011) 337–347.
  • [14] O. J. Smith, Posicast control of damped oscillatory systems, Proceedings of the IRE 45 (9) (1957) 1249–1255.
  • [15] J. Y. Hung, Application of posicast principles in feedback control, in: IEEE International Symposium on Industrial Electronics, Vol. 2, 2002.
  • [16] H. Ghorbani, S. Masoudi, V. Hajiaghayi, Speed control of vector controlled induction motors with fuzzy and posicast controller, Australian Journal of Basic and Applied Sciences 5 (7) (2011) 1099–1106.
  • [17] Y. W. Li, Control and resonance damping of voltage-source and current-source converters with lc filters, IEEE Transactions on Industrial Electronics 56 (5) (2009) 1511–1521.
  • [18] P. C. Loh, D. M. Vilathgamuwa, S. K. Tang, H. L. Long, Multilevel dynamic voltage restorer, in: Power System Technology, 2004. PowerCon 2004. 2004 International Conference on, Vol. 2, IEEE, 2004, pp. 1673–1678.
  • [19] P. Loh, C. Gajanayake, D. Vilathgamuwa, F. Blaabjerg, Evaluation of resonant damping techniques for z-source current-type inverter, in: Applied Power Electronics Conference and Exposition, 2006. APEC’06. Twenty-First Annual IEEE, IEEE, 2006, pp. 7–pp.
  • [20] Q. Feng, R. M. Nelms, J. Y. Hung, Posicast-based digital control of the buck converter, IEEE Transactions on Industrial Electronics 53 (3) (2006) 759–767.
  • [21] Y. W. Li, B. Wu, N. R. Zargari, J. C. Wiseman, D. Xu, Damping of pwm current-source rectifier using a hybrid combination approach, IEEE Transactions on Power Electronics 22 (4) (2007) 1383–1393.
  • [22] Y. Neba, A simple method for suppression of resonance oscillation in pwm current source converter, IEEE transactions on power electronics 20 (1) (2005) 132–139.
  • [23] Y. W. Li, P. C. Loh, F. Blaabjerg, D. M. Vilathgamuwa, Investigation and improvement of transient response of dvr at medium voltage level, IEEE transactions on industry applications 43 (5) (2007) 1309–1319.
  • [24] M. Khederzadeh, A. Ghorbani, Impact of vsc-based multiline facts controllers on distance protection of transmission lines, IEEE transactions on Power delivery 27 (1) (2012) 32–39.
  • [25] H. Ghorbani, J. I. Candela, A. Luna, P. Rodriguez, Posicast control—a novel approach to mitigate multi-machine power system oscillations in presence of wind farm, in: PES General Meeting| Conference & Exposition, 2014 IEEE, IEEE, 2014, pp. 1–5.
  • [26] M. Kalantar, et al., Posicast control within feedback structure for a dc– dc single ended primary inductor converter in renewable energy applications, Applied Energy 87 (10) (2010) 3110–3114.
  • [27] A. Ghorbani, B. Mozafari, S. Soleymani, A. M. Ranjbar, Operation of synchronous generator loe protection in the presence of shunt-facts, Electric Power Systems Research 119 (2015) 178–186.
  • [28] H. Ghorbani, J. I. Candela, A. Luna, P. Rodriguez, Application of posicast control method to generator excitation system, in: Industrial Electronics (ISIE), 2014 IEEE 23rd International Symposium on, IEEE, 2014, pp. 58–63.
  • [29] J. Y. Hung, Feedback control with posicast, IEEE Transactions on industrial electronics 50 (1) (2003) 94–99.
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  • [31] Recommended practice for excitation system models for power system stability studies, IEEE Standard 421.5.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-01828974-c67f-48ea-b373-0ea747ffe175
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