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Investigation on ferroresonance due to power transformer energization in high voltage 400 kV transmission grid

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper presents a study on ferroresonance occurring in a high voltage 400 kV transmission grid due to energization of power transformer under no-load conditions. The system scenarios analyzed in the present paper are considered as critical for development and modernization plans as currently announced by the national grid operator in Poland. The PSCAD simulation model was developed and applied for several study cases of a system with double-circuit arrangement of a transmission line. It is shown that the ferroresonant oscillations can be initiated by two-phase switching operation of a line circuit breaker. The impact of the double-circuit length on the ferroresonance mode and severity is demonstrated with the use of the Poincaré map analysis and Short Time Fourier Transform. It is demonstrated that the length of the transmission line that is mutually coupled in the double-circuit arrangement has a significant impact on the ferroresonance occurrence and on its mode. As the ferroresonance can pose severe threat to the power system components due to the severe overvoltage and overcurrent oscillations, the analysis presented in this paper demonstrates the necessity of the ferroresonance analyses for any re-designed transmission system.
Rocznik
Strony
771--786
Opis fizyczny
Bibliogr. 31 poz., rys., tab., wz.
Twórcy
  • Institute of Electrical Power Engineering, Warsaw University of Technology Koszykowa 75 Str, 00-662 Warsaw, Poland
  • Institute of Electrical Power Engineering, Warsaw University of Technology Koszykowa 75 Str, 00-662 Warsaw, Poland
  • Institute of Electrical Power Engineering, Warsaw University of Technology Koszykowa 75 Str, 00-662 Warsaw, Poland
Bibliografia
  • [1] Jacobson D., Examples of Ferroresonance in a High Voltage Power System, IEEE Power Engineering Society 2003 General Meeting, Toronto, Ontario, Canada, vol. 2, no. 3, pp. 1206–1213 (2003).
  • [2] Bolkowski S., Theory of Electrical Circuits, Wydawnictwa Naukowo-Techniczne (in Polish) (1995).
  • [3] Karolak J., Przybysz J., Wiśniewski J., Ferroresonance phenomena in high voltage substations, Przegląd Elektrotechniczny (in Polish), vol. 93, no. 11, pp. 79–83 (2017).
  • [4] Tarko R., Benesz M., Makuch A., Szpyra W., Nowak W., Ferroresonance as a source of disturbances and failures in medium voltage distribution grids, Acta Energetica, vol. 4, no. 9, pp. 75–82 (2011).
  • [5] Jacobson D., Examples of Ferroresonance in a High Voltage Power System, in 2003 IEEE Power Engineering Society General Meeting, Toronto, Ontario, Canada (2003).
  • [6] Abdi H., Abbasi S., Moradi M.,Analyzing the stochastic behavior of ferroresonance initiation regarding initial conditions and system parameters, Electrical Power and Energy Systems, vol. 83, pp. 134–139 (2016).
  • [7] Jacobson D., Menzies R.W., Investigation of Station Service Transformer Ferroresonance in Manitoba Hydro’s 230-kV Dorsey Converter Station, International Conference on Power Systems Transients 2001 (IPST 2001), Rio de Janeiro, Brazil, pp. 1–6 (2001).
  • [8] Tugai I., Investigation of ferroresonance in electrical networks at open-phase operating conditions, Computational Problems of Electrical Engineering, vol. 5, no. 1, pp. 61–64 (2015).
  • [9] Abdallah A.S., El-Kady M.A., Ferroresonance Phenomenon in Power Transformers – Experimental Assessment, Journal of King Abduaziz University (JKAU) Engineering Science, vol. 16, no. 1, pp. 71–82 (2005).
  • [10] Jacobson D., Marti L., Menzies R.W., Modeling Ferroresonance in a 230 kV Transformer-Terminated Double-Circuit Transmission Line, International Conference on Power system Transients 1999 (IPST 1999), Budapest, Hungary, pp. 451–456 (1999).
  • [11] Majka L., Applying a fractional coil model for power system ferroresonance analysis, Bulletin of the Polish Academy of Sciences: Technical Sciences, vol. 66, no. 4, pp. 467–474 (2018).
  • [12] Kolańska-Płuska J., Grochowicz B., Modelling of a non-linear coil with loss in iron using the RungeKutta methods, Archives of Electrical Engineering, vol. 65, no. 3, pp. 527–539 (2016).
  • [13] Szewczyk M., Kutorasiński K., Pawłowski J., Piasecki W., Florkowski M., Advanced modeling of high frequency magnetic cores for damping of power system transients, IEEE Transactions on Power Delivery, vol. 31, no. 5, pp. 2431–2439 (2016).
  • [14] Szewczyk M., Kuczek T., Oramus P., Piasecki W., Modeling of repetitive ignitions in switching devices: case studies on Vacuum Circuit Breaker and GIS disconnector, Lecture Notes in Electrical Engineering, vol. 324, pp. 241–250 (2015).
  • [15] Barbisio E., Bottauscio O., Chiampi M., Crotti G., Giordano D., Parameters Affecting Ferroreso-nance in Electric Circuits, IEEE Transactions on Magnetics, vol. 44, no. 6, pp. 870–873 (2008).
  • [16] Dugan R.C., McGranaghan M.F., Santoso S., Beaty H.W., Electrical Power Systems Quality, McGrawHill (2012).
  • [17] Valverde V., Buigues G., Mazón A.J., Zamora I., Albizu I., Ferroresonant Configurations in Power Systems, International Conference on Renewable Energies and Power Quality (ICREPQ’12), Santiago de Compostela, Spain (2012).
  • [18] Working Group C4.307, Resonance and Ferroresonance in Power Networks, Cigre Technical Brochure 569 (2014).
  • [19] Sandip M., Panwar P., Ferroresonance: An Insight into the Phenomenon, International Journal of Advance Engineering and Research Development, vol. 4, no. 10, pp. 498–504 (2017).
  • [20] Rezaei-Zare S., Sanaye-Pasand M., Mohseni H., Farhangi S., Iravani R., Analysis of Ferroresonance Modes in Power Transformers Using Preisach-Type Hysteretic Magnetizing Inductance, IEEE Transactions on Power Delivery, vol. 22, no. 2, pp. 919–929 (2007).
  • [21] Ang S.P., Peng J., Wang Z., Identification of key circuit parameters for the initiation of ferroresonance in a 400-kV transmission system, 2010 International Conference on High Voltage Engineering and Application, New Orleans, USA, pp. 73–76 (2010).
  • [22] Rezaei S., Mitigation of Ferroresonance by FACTS In Electrical Network, International Journal on Electrical Engineering & Informatics, vol. 9, no. 1, pp. 1–23 (2017).
  • [23] Seker S., Akinci T.C., Taskin S., Spectral and statistical analysis for ferroresonance phenomenon in electric power systems, Electrical Engineering, vol. 94, no. 2, pp. 117–124 (2012).
  • [24] Yildırim S., Akinci T.C., Seker S., Ekren N., Determination of the characteristics for ferroresonance phenomenon in electric power systems, World Academy of Science, Engineering and Technology, vol. 55, pp. 108–112 (2009).
  • [25] Mokryani G., Haghifam M.R., Esmaeilpoor J., Identification of Ferroresonance Based on Wavelet Transform and Artificial Neural Networks, 2007 Australasian Universities Power Engineering Conference, Perth, Australia, pp. 1–6 (2007).
  • [26] Rezaei S., Impact of plant outage on ferroresonance and maloperation of differential protection in the presence of SVC in electrical network, IET Generation, Transmission and Distribution, vol. 11, no. 7, pp. 1671–1682 (2017).
  • [27] Robak S., Szewczyk M., Polewaczyk M., Ferroresonance in transmission networks – selected issues, Safety of the Polish Power System Edition 2018, Scientific Publishers OWN, pp. 61–75 (2018).
  • [28] Kato T., Inoue K., Takami Y., Stability Analysis using Poincaré map in the Time-Domain for Grid Connected Inverter, 2017 IEEE 18th Workshop on Control and Modeling for Power Electronics (COMPEL), Stanford, USA, pp. 1–7 (2017).
  • [29] Ferracci P., Ferroresonance, Group Schneider: Cahier no 190, pp. 1–28 (1998).
  • [30] PSCAD Power Systems Computer Aided Design – User’s Guide on the use of PSCAD, Manitoba HVDC Research Centre (2018).
  • [31] Maciejewski Z.,Influence of transmission lines on efficiency of the power system, Polityka Energetyczna – Energy Policy Journal (in Polish), vol. 17, no. 3, pp. 231–242 (2014).
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-51bfbb01-4c4f-4474-82c5-101d19093469
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