Development of new methods of automated coordination of traditional step-type protection and multidimensional protection based on statistical principles is necessary for creation of an effective system of relay protection for advanced power supply systems with a complex topology. A graphical-analytical method is proposed for automated calculation of the settings for multidimensional protection based on the matrix representation of the set of protection and protection zones, and an example calculation is given.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
A. M. Fedoseev and M. A. Fedoseev, Relay Protection of Electrical Power Systems: Textbook for Higher Educational Institutions. 2nd edition [in Russian], Énergoatomizdat, Moscow (1992).
Yu. Ya. Lyamets, G. S. Nudel’man, D. V. Zinov’ev, D. V. Kerzhaev, and Yu. V. Romanov, “Multidimensional relay protection. Theoretical preconditions,” Élektrichestvo, No. 10, 17 –25 (2009).
I. V. Nagai and V. I. Nagai, “Construction of multi-parameter reserve protection of 6 – 10 kV electrical distribution networks,” Énergetik, No. 2, 18 – 21 (2013).
V. A. Shuin, G. A. Filatova, E. A. Vorob’eva, and D. I. Ganzhaev, “Informational parameters of the electrical values of the transient process for determining the location of a short circuit to the earth in distributed cable networks of voltage 6 – 10 kV,” Vestn. IGÉU, No. 2, 34 – 42 (2017).
A. L. Kulikov and A. N. Klyukin, “Stochastic algorithms for protections of long-range reserve of distributed consumer installations,” Prom. Énerget., No. 5, 32 – 38 (2012).
A. L. Kulikov and M. V. Sharygin, “Application of the statistical approach for adaptation of automated consumer disconnect equipment to their actual load,” Élektr. Stantsii, No. 12, 36 – 40 (2016).
A. L. Kulikov, M. V. Sharygin, and V. Yu. Vukolov, “Method of modeling a random production schedule with specified parameters for training automated power supply equipment,” Vestn. NGIÉI, No. 3 (70), 40 – 49 (2017).
S. M. Madani and H. Rijano, “A new application graph theoretical scheme for coordination of protective relay,” IEEE Power Eng. Lett. Power Eng. Rev., 18(6), 43 – 45 (1998).
O. I. Kol’vakh, Modeling of accounting. A situational and matrix approach: Monograph [in Russian], Vuzovskaya kniga, Moscow (2010).
M. V. Sharygin, “General approach to a solution of the problem of ensuring the reliability of consumer power supply,” Élektrichestvo, No. 2, 12 – 17 (2015).
M. V. Sharygin, “Principles of organization of a bank of measures for the management of the reliability of a power supply,” Prom. Énerget., No. 9, 6 – 9 (2014).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Élektricheskie Stantsii, No. 7, July 2017, pp. 29 – 37.
Rights and permissions
About this article
Cite this article
Kulikov, A.L., Sharygin, M.V. Automated Calculation and Coordination of Protective Relay Settings. Power Technol Eng 51, 593–601 (2018). https://doi.org/10.1007/s10749-018-0879-3
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10749-018-0879-3