Journal : Acta Energetica
Article : Modelling of Power Electronic Compensators for the Analysis of Power System Operation

Authors :
Bajor, M.
Institute of Power Engineering Gdańsk Branch, m.bajor@ien.gda.pl,
Kosmecki, M.
Institute of Power Engineering Gdańsk Branch, m.kosmecki@ien.gda.pl,
Wilk, M.
Institute of Power Engineering Gdańsk Branch. Gdańsk University of Technology, m.wilk@ien.gda.pl,
Hyrzyński, R.
ENERGA SA, rafal.hyrzynski@energa.pl,
Karcz, M.
ENERGA SA, michal.karcz@energa.pl,
Lemański, M.
ENERGA SA, marcin.lemanski@energa.pl,
Lewandowski, K.
ENERGA SA, karol.lewandowski@energa.pl,
Nojek, S.
ENERGA SA, sebastian.nojek@energa.pl,
Kornatka, M.
Częstochowa University of Technology, kornatka@el.pcz.czest.pl,
Korniluk, W.
Białystok University of Technology, korniluk@pb.edu.pl,
Petelski, P.
Białystok University of Technology, petp@o2.pl,
Kowalak, R.
Gdańsk University of Technology, r.kowalak@ely.pg.gda.pl,
Abstract : The article presents selected methods of modelling power electronic compensators in order to analyze their operation in the power systems. Advantages and disadvantages of models have been shown with an indication of their usefulness for modelling specific phenomena.

Autor artykułu prezentuje wybrane sposoby modelowania kompensatorów energoelektronicznych, z uwzględnieniem analizy ich pracy w systemie elektroenergetycznym. Przedstawia wady, jak i zalety modeli, a także zakres ich przydatności do modelowania określonych zjawisk.

Keywords : energoelektroniczne kompensatory bocznikowe, SVC, STATCOM, power electronic shunt compensators, SVC, STATCOM,
Publishing house : ENERGA SA
Publication date : 2013
Number : nr 4
Page : 48 – 61

Bibliography
: 1. Acha E., Fuerte-Esquivel C.R., Ambriz-Perez H., Angeles-Comacho C., FACTS Modelling and Simulaton in Power Networks, John Wiley & Sons, LTD.
2. Castro M.S. i in., Impacts of FACTS Controllers on Damping Power Systems Low Frequency Elektromechanical Oscillations, IEEE/PES Transmission & Distribution Conference & Exposition: Latin America 2004.
3. Kowalak R., Małkowski R., Shunt compensator as controlled reactive power sources, Acta Energetica 2011, issue 1.
4. Mahdad B. i in., Strategy of Location and Control of FACTS Devices for Enhancing Power Quality, May 16–19, Benalmádena (Málaga), Spain, IEEE MELECON 2006.
5. Moghavvemi M., Faruque M.O., Effect of FACTS Devices on Static Voltage Stability, IEEE 2000.
6. Nabae A., Yamaguchi M., Supression of Flicker in an Arc-Furnace Supply System by an Active Capacitance – A Novel Voltage Stabilizer in Power Systems, IEEE Transactions on Industry Applications 1995, Vol. 31, No. 1, January/February.
7. Padiyar K.R., Prabhu N., Design and Performance Evaluation of Subsynchronous Damping Controller With STATCOM, IEEE Transactions on Power Delivery 2006, Vol. 21, No. 3, July.
8. Zajczyk R., Modele matematyczne systemu elektroenergetycznego do badania elektromechanicznych stanów nieustalonych i procesów regulacyjnych Mathematical power system models for examination of electro-mechanical unsteady states and control processes, Wydawnictwo Politechniki Gdańskiej, 2003.
9. Zhang X-P., Handschin E.J., Optimal power flow control by converter based FACTS controllers, AC-DC Power Transmission, 28–30 November 2001, Conference Publication No. 485 © IEE 2001.
DOI :
Qute : Bajor, M. ,Kosmecki, M. ,Wilk, M. ,Hyrzyński, R. ,Karcz, M. ,Lemański, M. ,Lewandowski, K. ,Nojek, S. ,Kornatka, M. ,Korniluk, W. ,Petelski, P. ,Kowalak, R. ,Kowalak, R. , Modelling of Power Electronic Compensators for the Analysis of Power System Operation. Acta Energetica nr 4/2013
facebook