This study presents the results of single-phase auto reclosing technique tests, comparing the performance of traditional procedure and fast adaptive procedure. The last is based on the measurement of voltage harmonic content on the transmission line faulty phase terminals. The transmission system used was modelled on the real-time digital simulator with a distance relay and a quality meter to more realistically implement the reclosing techniques. The studied system was based on an actual Brazilian 500 kV transmission system. This study highlights the advantages of using the adaptive technique opposite to the use of traditional manoeuvre.

References

1. 1)
  - 13. Luxenburger, R., Schegner, P.: ‘Determination of secondary arc extinction time and characterization of fault conditions of single-phase autoreclosures’. Proc In. 2005 Int. Conf. on Future Power Systems, Amsterdam, Netherlands, November 2005, pp. 1–5.
2. 2)
  - 15. Sanaye-Pasand, M., Kadivar, A.: ‘Design of an online adaptive auto-reclose algorithm for HV transmission lines’. IEEE Int. Power India Conf., New Delhi, India, 2006.
3. 3)
  - 12. Radojevic, Z.M., Shin, J.R.: ‘New algorithm for adaptive reclosing based on the calculation of the faulted phase voltage total harmonic distortion factor’, IEEE Trans. Power Deliv., 2001, 16, (4), pp. 676–686 (doi: 10.1109/61.956756).
4. 4)
  - 5. Jannati, M., Vahidi, B., Hasseinian, S.H., et al: ‘A new adaptive single phase auto-reclosure scheme for EHV transmission lines’. IEEE Power Systems Conf. and Exposition, Aswan, Egypt, March 2008, pp. 203–207.
5. 5)
  - 16. Tavares, M.C., Talaisys, J.L., Camara, A.: ‘Voltage harmonic content of long artificially generated electrical arc in out-door experiment at 500 kV towers’, IEEE Trans. Dielectr. Electr. Insul., 2014, 21, (3), pp. 1005–1014 (doi: 10.1109/TDEI.2014.6832243).
6. 6)
  - 21. Kizilcay, M., Pniok, T.: ‘Digital simulation of fault arcs in power systems’, Eur. Trans. Electr. Power, 1991, 1, (1), pp. 55–60 (doi: 10.1002/etep.4450010111).
7. 7)
  - 19. Johns, A.T., Aggarwal, R.K., Song, Y.H.: ‘Improved techniques for modelling fault arcs on faulted EHV transmission systems’, IET Gener. Transm. Distrib., 1004, 141, (2), pp. 148–154 (doi: 10.1049/ip-gtd:19949869).
8. 8)
  - 19. Dadash Zadeh, M.R., Rubeena, R.: ‘Communication aided high-speed adaptive single-phase reclosing’, IEEE Trans. Power Deliv., 2013, 28, (1), pp. 499–506 (doi: 10.1109/TPWRD.2012.2225848).
9. 9)
  - 3. Fitton, D.S., Dunn, R.W., Aggarwal, R.K., et al: ‘Design and implementation of and adaptive single pole autoreclosure technique for transmission lines using artificial neural networks’, IEEE Trans. Power Deliv., 1996, 11, (2), pp. 748–756 (doi: 10.1109/61.489331).
10. 10)
  - 7. Zahlay, F.D., Rama Rao, K.S.: ‘Neuro-Prony and Taguchi's methodology-based adaptive autoreclosure scheme for electric transmission systems’, IEEE Trans. Power Deliv., 2012, 27, (2), pp. 575–582 (doi: 10.1109/TPWRD.2011.2182065).
11. 11)
  - 1. Kimbark, E.W.: ‘Selective-pole switching of long double-circuit EHV line’, IEEE Trans. Power Appar. Syst., 1976, 95, pp. 219–230 (doi: 10.1109/T-PAS.1976.32095).
12. 12)
  - 11. Montanari, A., Taveres, M.C., Portela, C.: ‘Adaptive single-phase autoreclosing based on secondary arc voltage harmonic signature’. Proc In. 2009 Int. Conf. on Power Systems Transients (IPST), Kyoto, Japan, June 2009, pp. 1–6.
13. 13)
  - 9. Jamali, S., Parham, A.: ‘New approach to adaptive single pole auto-reclosing of power transmission lines’, IET Gener. Transm. Distrib., 2010, 4, (1), pp. 115–122 (doi: 10.1049/iet-gtd.2009.0058).
14. 14)
  - 17. Camara, A.S.B., Gonçalves, R.A.A., Rodrigues, M.G., et al: ‘Single-phase auto-reclosure studies: secondary arc model research including a 500 kV line experimental circuit’. Int. Conf. on High Voltage Engineering and Application (ICHVE), Chongqing, China, November 2008, pp. 490–493.
15. 15)
  - 18. Zevallos, M.E., Tavares, M.C.: ‘Single-phase auto-reclosure studies: influence of transversal parameters of a transmission system on the secondary arc current reduction’. Proc In. 2011 Int. Conf. on Power Systems Transients (IPST), Delft, Netherlands, June 2011, pp. 1–6.
16. 16)
  - 20. Khorashadi-Zadeh, H., Li, Z.: ‘Design of a novel phasor measurement unit-based transmission line auto reclosing scheme’, IET Gener. Transm. Distrib., 2011, 5, (8), pp. 806–813 (doi: 10.1049/iet-gtd.2010.0744).
17. 17)
  - 8. Dudurych, I.M., Gallagher, T.J., Rosolowski, E.: ‘Arc effect on single-phase reclosing time of a UHV power transmission line’, IEEE Trans. Power Deliv., 2004, 19, (2), pp. 854–860 (doi: 10.1109/TPWRD.2004.824404).
18. 18)
  - 21. Dias, O.F., Tavares, M.C.: ‘Implementation of fast adaptive single-phase reclosing based on measurement of harmonic content in the real-time digital simulator (RTDS)’. Proc In. 2015 Int. Conf. on Power Systems Transients (IPST), Cavtat, Croatia, June 2015, pp. 1–7.
19. 19)
  - 14. Yu, I.K., Song, Y.H.: ‘Wavelet analysis of arcing fault phenomena with particular reference to development of new protection and control techniques’. UKACC Int. Conf. on Control, Swansea, United Kingdom, September 1998, pp. 1011–1016.
20. 20)
  - 2. Gonzales, A.J., Kung, G.C., Raczkowski, C., et al: ‘Effects of single and three pole switching and high speed reclosing on turbine generator shafts and blades’, IEEE Trans. Power Appar. Syst., 1984, Pas-103, (11), pp. 3218–3228.
21. 21)
  - 4. Khoroshev, M.I., Faybisovich, V.: ‘Analysis of adaptive single phase autoreclosing for high voltage transmission lines with various compensation levels’. IEEE Power Systems Conf. and Exposition, New York, USA, October 2004, pp. 598–602.

Comparison between traditional single-phase auto reclosing and adaptive technique based on harmonic content measurement

References

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