Analysis of methods and means of improving the reliability of elements of relay protection

Authors

  • Василь Ярославович Бунько Branch of National University of Life and Environmental Sciences of Ukraine «Berezhany Agrotechnical Institute», Str. Academichna, 20, Berezhany, Ukraine, 47501, Ukraine https://orcid.org/0000-0002-9403-8135

DOI:

https://doi.org/10.15587/2312-8372.2015.44331

Keywords:

relay protection and automation, microprocessor terminals, power transformer, power lines

Abstract

This paper analyzes the methods of selecting the number of sets of relay protection and automation (RPA) and reservation schemes for the protected object. The calculation procedure of parameters of reliability of RPA systems for three types of protecting objects that allow grounding schemes of reservation of RPA systems and providing the required level of reliability of electricity supply facilities.

It is developed the model for the RPA functioning of modern element base, which revealed the following components performance of relay protection systems in modern terms as software reliability, security from external electromagnetic and other influences, and the human factor.

It is proposed the scheme of accounting influencing factors (parameter of short circuit flow(SC), the effect of staff ("human factor"), uniqueness of recovery), thus allow founding dependence of resulting indicators of reliability from influencing factors and assess the impact of factors on the results of  reliability calculations.

The features of the model are taken into account when calculating the reliability of hardware of RPA systems and reliability indexes of relay protection for three objects: power lines, busbars and power transformer. This will allow justifying and choosing the schemes of reservation of RPA systems, which greatly increase the reliability of electricity supply system in general.

Author Biography

Василь Ярославович Бунько, Branch of National University of Life and Environmental Sciences of Ukraine «Berezhany Agrotechnical Institute», Str. Academichna, 20, Berezhany, Ukraine, 47501

Candidate of Technical Science, Associate Professor

Department of power industry and automation

References

  1. Kozyrskyi, V. V., Kaplun, V. V., Voloshyn, S. M. (2011). Elektropostachannia ahropromyslovoho kompleksu. K.: Ahrarna osvita, 448.
  2. Becker, H., Brandes, D., Gappa, K. (1972). Three phase shunt reactors with continuosly controlled reactive current. Conference Internationale des Grands Reseaux Electriques (CIGRE), 24 session, report 32–13, 256.
  3. George, Y. (1977). Application des compensateurs statiques aux complex de laminoirs et aux reseaux de trasport TNT. Congres Electrotechnique Mondial, report 247, 28.
  4. Shalin, A. I., Trofimov, A. S. (2007, October). Efficiency of relay protection of power system. 2007 International Forum on Strategic Technology. IEEE, 371-375. doi:10.1109/ifost.2007.4798607
  5. Andreev, V. A. (1991). Releinaia zashchita i avtomatika sistem elektrosnabzheniia. Ed. 3. M.: Vysshaia shkola, 496.
  6. Andreev, V. A. (1985). Releinaia zashchita, avtomatika i telemehanіka v sistemah elektrosnabzheniia. M.: Vysshaia shkola, 391.
  7. Gel'fand, Ya. S. (1987). Releinaia zashchita raspredelitel'nyh setei. M.: Energoatomizdat, 368.
  8. Zaharov, O. G. (2014). Nadezhnost' tsifrovyh ustroistv releinoi zashchity. Pokazateli. Trebovaniia. Otsenki. M.: Infra-inzheneriia, 128.
  9. Chernobrov, N. V. (1974). Releinaia zashchita. Ed. 5. M.: Energiia, 680.
  10. Chernobrovov, N. V., Semenov, V. A. (1998). Releinaia zashchita energeticheskih sistem. M.: Energoatomizdat, 800.
  11. Shalyn, A. Y. (2004). O raschete pokazatelei nadezhnosty releinoi zashchyty. Zhurnal NHTU, 88–98.

Downloads

Published

2015-05-28

How to Cite

Бунько, В. Я. (2015). Analysis of methods and means of improving the reliability of elements of relay protection. Technology Audit and Production Reserves, 3(1(23), 26–30. https://doi.org/10.15587/2312-8372.2015.44331

Issue

Vol. 3 No. 1(23) (2015): Energy, energy-saving technologies and equipment. Electrical engineering and industrial electronics

Section

Energy, energy-saving technologies and equipment

License

Copyright (c) 2016 Василь Ярославович Бунько

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

The consolidation and conditions for the transfer of copyright (identification of authorship) is carried out in the License Agreement. In particular, the authors reserve the right to the authorship of their manuscript and transfer the first publication of this work to the journal under the terms of the Creative Commons CC BY license. At the same time, they have the right to conclude on their own additional agreements concerning the non-exclusive distribution of the work in the form in which it was published by this journal, but provided that the link to the first publication of the article in this journal is preserved.