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Zbornik radova, Elektrotehnički institut "Nikola Tesla"
2012, iss. 22, pp. 69-91
article language: Serbian
document type: Review Paper
published on: 12/12/2012
doi: 10.5937/zeint22-2520
Models of generator excitation control systems in dynamic security analyses of electric power interconnections
University of Belgrade, Electrical Engineering Institute 'Nikola Tesla'

e-mail: mivanovic@ieent.org

Abstract

This paper presents models of generator excitation control systems used in dynamic security analyses of electric power interconnections. The general structure and functional block diagram of generator excitation control systems are given, as well as a review of the current state within the electrical power system of Serbia. The model used for analyses of short-term dynamics where transient stability analyses are dominant, has been presented. The model used in the analyses of long-term dynamics, has also been presented. After verification based on experimental measurements, these models have been incorporated into appropriate computer programs for dynamic security analyses of electric power interconnections. These computer programs have been developed at the 'Nikola Tesla' Institute and some typical examples of their application have been provided.

Keywords

References

*** (1992) IEEE recommended practice for excitation system models for power system stability studies. New-York, NY, USA: IEEE, IEEE Std 421.5-1992
*** (1981) Matematički modeli objekata elektroenergetskog sistema. Beograd: Institut 'Nikola Tesla', studija
*** (2005) Regulacija napona odnosno pobudne struje sinhronih generatora u elektranama Elektroprivrede Srbije sa gledišta zahteva sistema. Beograd: Institut 'Nikola Tesla', Studija
*** (1974-1982) Long term power system dynamic, phase I, II and III. EPRI, Projects, Respectively 90-7-0, June, 1974, 764-1, February, 1977 and 764-2, May, 1982
*** (2002) PSS/E-29: Power system simulator for engineering. Power Technologies, October
*** (2008) Users manual, digsilent powerfactory version 14. Gomaringen: DIgSILENT
*** (1996) Part 16: Excitation Systems, IEC International Standard; Chapter 1: Definitions - Chapter 2: Models for Power System Studies - Section 3: Dynamic Performance. in: Rotating Electrical Machines, Geneve, Switzerland: IEC, IEC Publ. 34-16-1: 1991. IEC Publ. 34-16-2: 1991. IEC Publ. 34-16-3:1996
*** (1986) IEEE Standard definitions for excitation systems for synchronous machines. New York, NY, USA: The Institute of EEE, ANSI/IEEE Std. 421.1-1986
*** (1968) IEEE Committee report: Computer representation of excitation systems. IEEE Transactions on Power Apparatus and System, vol. PAS-87, June, str. 1460-1464
*** (1981) IEEE Committee report: Excitation system models for power system stability studies. IEEE Transactions on Power Apparatus and System, vol. PAS-100, br. 2, February, str. 494-509
*** (1981) IEEE Committee report: Procedures for the exchange of power plant and load data for synchronous stability studies. IEEE Trans on power apparatus and systems, Vol. PAS-100, No. 7, pp. 3229-3245. July
*** (1996) IEEE Digital excitation task force of the equipment working group report: Computer models for represantation of digital-based excitation systems. IEEE Trans on energy conversion, Vol. EC-11, No. 3, pp. 607-615. Sept
Anderson, P.M., Fouad, A.A. (1977) Power system control and stability. Ames, USA: IOWA State University press, vol. 1
Arnautović, D., Ćirić, Z., Stevanović, I., Stojić, Đ., Milojčić, N., Joksimović, D., Milinković, M., Veinović, S., Bakić, M., Palija, V. (2011) Modernizacija, rekonstrukcija i razvoj sistema pobude sinhronih generatora. Zbornik radova, Elektrotehnički institut 'Nikola Tesla', (21): 181-195
Ćalović, M. (1997) Regulacija elektroenergetskih sistema. Beograd: Elektrotehnički fakultet, Tom 2 - Regulacija napona i reaktivnih snaga
IEE (1969) Proposed Excitation System Definitions for Synchronous Machines. IEEE Transactions on Power Apparatus and Systems, PAS-88(8): 1248-1258
Joksimović, D.S., Ćirić, Z.N., Stojić, Đ.M., Milojčić, N.S., Arnautović, D.B., Petrović, D.S. (2011) Parametri pobudnih sistema. Elektroprivreda, 64(3): 198-206
Kundur, P. (1994) Power system stability and control. New York, itd: McGraw-Hill
Popović, D.P., Ivanović, M., Stojić, Đ., Veinović, S., Milinković, M., Arnautović, D., Minić, S. (submitted) Koeficijenat statizma regulacije napona generatora i naponsko-reaktivna stanja prenosnih mreža. Elektroprivreda
Popović, D.P. (2008) Dinamička sigurnost elektroenergetskih interkonekcija. Beograd: Institut 'Nikola Tesla', monografija
Popović, D.P. (1984) An approach to the evaluation of electromechanical transient process in power systems. Electric Power Systems Research, vol. 7, br. 2, str. 141-151
Popović, D.P., Mijailović, S.V. (2000) An efficient methodology for the analysis of primary frequency control of electric power systems. International journal of electrical power & energy systems, vol. 22, br. 5, str. 331-341
Popović, D.P., Ivanović, M.V., Minić, S.S., Masnikosa, V.Đ. (2011) Modeli termopostrojenja u analizama dinamičke sigurnosti elektroenergetskih interkonekcija. Elektroprivreda, vol. 64, br. 2, str. 111-125
Young, C. (1972) Equipment and system modeling for large scale stability studies. IEEE Transactions on Power Apparatus and System, vol.PAS-91, No 1, Jan/Feb.pp. 99-109