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Title

Computation method for analysis of sliding faults in power systems

Journal title

Bulletin of the Polish Academy of Sciences Technical Sciences

Yearbook

2021

Volume

69

Issue

No. 1

Affiliation

Machowski, Jan : Electrical Power Engineering Institute, Faculty of Electrical Engineering, Warsaw University of Technology, ul. Koszykowa 75, 00-662 Warsaw, Poland ; Robak, Sylwester : Electrical Power Engineering Institute, Faculty of Electrical Engineering, Warsaw University of Technology, ul. Koszykowa 75, 00-662 Warsaw, Poland

Authors

Machowski, Jan ; Robak, Sylwester

Keywords

power system ; short-circuit analysis ; sliding faults ; computation methods

Divisions of PAS

Nauki Techniczne

Coverage

e135841

Bibliography

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  5.  Ł. Nogal, S. Ribak, and J. Bialek: “Advances in electrical power engineering”, Bull. Pol. Ac.: Tech. 68(4), 647‒649 (2020).
  6.  H. Li, A. Bose, and Y. Zhang, “On-line short-circuit current analysis and preventive control to extend equipment life”, IET Gener. Transm. Distrib. 7(1), 69‒75 (2013).
  7.  S. Azizi and M. Sanaye-Pasand, “From Available Synchrophasor Data to Short-Circuit Fault Identity: Formulation and Feasibility Analysis”, IEEE Trans. Power Syst. 32(3), 2062‒2071 (2017).
  8.  V.A. Stanojević, G. Preston, and V. Terzija, “Synchronised Measurements Based Algorithm for Long Transmission Line Fault Analysis”, IEEE Trans. Smart Grid 9(5), 4448‒4457 (2018).
  9.  T. Gonen, Modern Power System Analysis, 2nd ed., CRC Press, 2013.
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  11.  P. Kacejko and J. Machowski, Short-circuits in power systems, PWN/WNT Warszawa 2017, [in Polish].
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  14.  J.J. Grainger and W.D. Stevenson, JR, Power System Analysis, McGraw-Hill, New York, 1994
  15.  T.A. Davis, Direct methods for sparse linear systems, Society for Industrial and Applied Mathematics, 2006.
  16.  X. Luo et al., “An Efficient Second-Order Approach to Factorize Sparse Matrices in Recommender Systems”, IEEE Trans. Ind. Inform. 11(4) 946‒956 (2015).
  17.  X. Luo, M. Zhou, S. Li, and M. Shang, “An Inherently Nonnegative Latent Factor Model for High-Dimensional and Sparse Matrices from Industrial Applications”, IEEE Trans. Ind. Inform. 14(5), 2011‒2022 (2018).
  18.  M.R. Araújo and C.R. Pereira, “A practical first-zone distance relaying algorithm for long parallel transmission lines”, Electr. Power Syst. Res. 146, 17‒24 (2017).
  19.  N. Abu Bakar, A. Mohamed, M. Ismail, and N. Hamzah, “A voltage sag analysis software tool for determine areas of vulnerability,” 2004 IEEE Region 10 Conference TENCON 2004., Chiang Mai, 2004, pp. 299‒302.
  20.  S.R. Naidu, G.V. de Andrade, and E.G. da Costa, “Voltage Sag Performance of a Distribution System and Its Improvement”, IEEE Trans. Ind. Appl. 48(1), 218‒224 (2012).
  21.  D. Ma and L. Tian, “Practical fault location estimation based on voltage sags magnitude,” 2016 China International Conference on Electricity Distribution (CICED), Xi’an, 2016, pp. 1‒5.
  22.  R.J. Gopi, V.K. Ramachandaramurthy, and M.T. Au, “Analytical approach to stochastic assessment for balanced voltage sags and duration on transmission networks”, 2009 10th International Conference on Electrical Power Quality and Utilisation, Lodz, 2009, pp. 1‒6.
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  24.  A. Boboń, A. Nocoń, S. Paszek, and P. Pruski, “Determination of synchronous generator nonlinear model parameters based on power rejection tests using a gradient optimization algorithm”, Bull. Pol. Ac.: Tech. 65(4), 479‒488 (2017).
  25.  P. Kacejko and J. Machowski, “Application of the Sherman-Morrison formula to short-circuit analysis of transmission networks with phase-shifting transformers”, Electr. Power Syst. Res. 155, 289‒295 (2018).

Date

26.01.2021

Type

Article

Identifier

DOI: 10.24425/bpasts.2021.135841

Source

Bulletin of the Polish Academy of Sciences: Technical Sciences; 2021; 69; No. 1; e135841
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