Differential Principle in the Traveling Wave Method of Determining Fault Locations in Overhead Lines with $ Branches^{1} $: Fid-Bau Portal

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Differential Principle in the Traveling Wave Method of Determining Fault Locations in Overhead Lines with $ Branches^{1} $

Kulikov, A. L. / Lachugin, V. F. / Anan’ev, V. V.

The application of the differential principle in the traveling wave method of determining fault locations in overhead lines with branches by using the navigational approach is examined. The least-squares method is used to determine the wave propagation velocity. Results characterizing the accuracy of fault location determination by means of the proposed principle are presented.

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Differential Principle in the Traveling Wave Method of Determining Fault Locations in Overhead Lines with $ Branches^{1} $

Kulikov, A. L. / Lachugin, V. F. / Anan’ev, V. V.

The application of the differential principle in the traveling wave method of determining fault locations in overhead lines with branches by using the navigational approach is examined. The least-squares method is used to determine the wave propagation velocity. Results characterizing the accuracy of fault location determination by means of the proposed principle are presented.

Differential Principle in the Traveling Wave Method of Determining Fault Locations in Overhead Lines with $ Branches^{1} $

Kulikov, A. L. / Lachugin, V. F. / Anan’ev, V. V.

The application of the differential principle in the traveling wave method of determining fault locations in overhead lines with branches by using the navigational approach is examined. The least-squares method is used to determine the wave propagation velocity. Results characterizing the accuracy of fault location determination by means of the proposed principle are presented.

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Title:

Differential Principle in the Traveling Wave Method of Determining Fault Locations in Overhead Lines with $ Branches^{1} $

Contributors:

Kulikov, A. L. (author) / Lachugin, V. F. (author) / Anan’ev, V. V. (author)

Published in:

Power Technology and Engineering ; 49

Publication date:

2016

ISSN:

DOI:

https://doi.org/10.1007/s10749-016-0649-z

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

fault location determination , traveling wave methods , least-squares method , overhead lines with branches , navigational approach , differential principle , accuracy , propagation velocity of traveling waves , simulation modeling

Classification:

BKL: 56.30 Wasserbau / 56.30$jWasserbau

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