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Analysis of transient electromagnetic processes in the ultrahigh voltage transmission line during two-phase short circuits

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
PL
Analiza przejściowych procesów elektromagnetycznych w linii przesyłowej wysokiego napięcia podczas zwarć dwufazowych
Języki publikacji
EN
Abstrakty
EN
The mathematical model of a fragment of ultrahigh voltage electric network is developed in this paper. The network consists of a long power line with distributed parameters and equivalent three-phase active-inductive load. Transient electromagnetic processes are analysed in present work. The results of transient electromagnetic processes simulation in the form of analysed figures are shown. All the results presented in this paper were obtained exclusively using numerical methods.
PL
W pracy zaprezentowano model matematyczny fragmentu sieci elektroenergetycznej wysokiego napięcia. Sieć składa się z długiej linii elektroenergetycznej o rozłożonych parametrach i równoważnym trójfazowym obciążeniu czynno-indukcyjnym. W niniejszej pracy analizowane są przejściowe procesy elektromagnetyczne. Przedstawiono wyniki symulacji nieustalonych procesów elektromagnetycznych w postaci wykresów. Wszystkie wyniki przedstawione w niniejszej pracy uzyskano wyłącznie metodami numerycznymi.
Rocznik
Strony
294--297
Opis fizyczny
Bibliogr. 27 poz., rys.
Twórcy
  • University of Technology and Humanities in Radom, Faculty of Transport and Electrical Engineering, ul. Malczewskiego 29, 26-600 Radom
  • Lviv National Agrarian University, Department of Electrical Systems, 1, V. Velykogo str., 80381 Dubliany, Lviv region, Ukraine
  • University of Technology and Humanities in Radom, Faculty of Transport and Electrical Engineering, ul. Malczewskiego 29, 26-600 Radom
Bibliografia
  • [1] Szafraniec, A., Halko, S., Miroshnyk, O., Zharkov, A., Vershkov, O., Magnetic field parameters mathematical modelling of windelectric heater, Przeglad Elektrotechniczny, 97(8) (2021)
  • [2] Czaban, A., Levoniuk, V., Figura, R., The mathematical model of high voltage switch as an element of a power system, Przeglad Elektrotechniczny, 97(7), 94-97, (2021)
  • [3] Lis M., Chaban A., Szafraniec A., Levoniuk V., Figura R., Mathematical modelling of transient electromagnetic processes in a power grid, Przegląd Elektrotechniczny, nr 12/2019, 160-163
  • [4] Chaban, A., Perzyński, T., Popenda, A., Figura, R., Levoniuk, V., Mathematical Modeling of Transient Processes in the Susceptible Motion Transmission in a Ship Propulsion System Containing a Shaft Synchronous Generator, Energies, 15(9), (2022), 3266
  • [5] Popenda A., Szafraniec A., Chaban A., Dynamics of Electromechanical Systems Containing Long Elastic Couplings and Safety of Their Operation, Energies, 14 (2021), 7882
  • [6] Lobodzinsky V., Chibelis V., Mathematical model of a three-phase line with distributed parameters in electromagnetic transients, BULLETIN OF KNUTD, (2018), No. 4, 96-102
  • [7] Costa E.C.M., Kurokawa S., Pissolato J., Prado A.J., Efficient procedure to evaluate electromagnetic transients on three-phase transmission lines, IET Generation Transmission & Distribution, (2010), No. 4, 1069-1081
  • [8] Colqui J.S.L., de Ara´ujo A.R.J., Kurokawa S., Performance of the modified lumped parameter model in the electromagnetic transient analysis, Proc. the 13th latini-american congress on electricity generation and transmission, (2019)
  • [9] Andrade L., Leite H., Leao M., Time-domain distributed parameters transmission line model for transient analysis, Progress In Electromagnetics Research B., 53 (2013), 25-46
  • [10] Chaban A., Lis M., Szafraniec A., Chrzan M., Levoniuk V.,Interdisciplinary modelling of transient processes in local electric power systems including long supply lines of distributed parameters, IEEE Xplore, 2018 Applications of Electromagnetics in Modern Techniques and Medicine (PTZE), 17–20
  • [11] Czaban A., Lis M., Szafraniec A., Chrzan M., Levoniuk V.,Analysis of transient processes in a power supply system of concentrated and distributed parameters based on variational approaches, Przegląd Elektrotechniczny, 94 (2018), nr 12, 154- 157
  • [12] Shi Z., Liu L., Xiao P., Geng Z., Fang G., Applying transmission line theory to study the transmitting turn-off current in a long grounded wire, IEEE Transactions on Antennas and Propagation, 65 (2017), No. 10, 5112-5122
  • [13] Kizilcay M., Teichmann K., Papenheim S., Malicki P., Analysis of switching transients of an EHV transmission line consisting of mixed power cable and overhead line sections, Proc. International Conference on Power Systems Transients, (2017)
  • [14] Smolarczyk A., Chmielak W., PSCAD / EMTDC as a convenient tool for modeling overhead lines, Works of the electrotechnical institute, (2016), No. 272, 31-48
  • [15] Nuricumbo-Guillén R., Espino Cortés F.P., Gómez P.,. Martínez C.T, Computation of transient profiles along nonuniform transmission lines including time-varying and nonlinear elements using the numerical Laplace transform, Energies, (2019), No. 12, 3227
  • [16] Chen C., Han Y., Liu J., Mo W., Yuan Z., Huang J., Su H.,Zhang X., Wu K., Research on the lightning intruding overvoltage and protection measures of 500 kV AC fault current limiter, Energies, (2019), No. 12, 3845
  • [17] Jung-Chien Li, Transient analysis of three-phase transmission lines with initial voltage and current distributions, Electric power systems research, 35 (1995), No. 3, 177-186
  • [18] Pruski P., Paszek S., Analysis of transient waveforms in a power system at asymmetrical short-circuits, Przeglad elektrotechniczny, (2020), No. 2, 26-29
  • [19] Vijaya T.С., Nandhini M., Sundar R., Nithiyanantha K., MATLAB based simulations model for three phases power system network, International Journal for Research in Applied Science & Engineering Technology, 4 (2016), No. 11, 502-509
  • [20] Shcherba A., Podoltsev A., Kucheryavaya I., Electromagnetic processes in a cable line with polyethylene insulation at a voltage of 30 kV, Technical electrodynamics, (2013), No. 1, 9-15
  • [21] Rout B., Pati B.B., MFO Ptimized Fractional Order Based Controller on Power System Stability, Proceedings of Engineering and Technology Innovation, 8 (2018), 46-59
  • [22] White D.C., Woodson H.H., Electromagnetic energy conversion, New York: John Wiley & Sons Inc., (1958)
  • [23] Chaban A., Principle Gamіltona-Ostrogradskogo in elektromechanіcal systems, Lviv: T. Soroky, (2015)
  • [24] Levoniuk V.R., Methods and means of analysis of switchingtransients processes in ultra high voltage transmission lines on the basis of variational approaches, Ph.D. dissertation, Department of Electrical Systems, Lviv Nat. Agrarian Univ., Lviv, Ukraine, (2019)
  • [25] Czaban A., Szafraniec A., Levoniuk V., Mathematical modelling of transient processes in power systems considering effect of high-voltage circuit breakers, Przeglad Elektrotechniczny, (2019), No. 1, 49-52
  • [26] Chaban A., Levoniuk V., Drobot I., Herman A., Mathematical model of electromagnetic processes in Lehera line at open-circuit operation, Electrical engineering & electromechanics, (2016), No. 3, 30-35
  • [27] Chaban A., Lis M., Szafraniec A., Levoniuk V., Mathematical Modelling of Transient Processes in a Three Phase Electric Power System for a Single Phase Short-Circuit, Energies(2022), No, 15, 1126
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-07ae5c48-3cdb-4189-9225-6650e7f3a4f5
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