Earth fault distance computation with artificial neural network trained by neutral voltage transients

Author

Hänninen, S. ; Lehtonen, M.

Author_Institution

Energy Syst., VTT Energy, Espoo, Finland

Volume

2

fYear

2001

fDate

15-19 July 2001

Firstpage

1187

Abstract

A novel application of the neural network approach for transient based earth fault location in 20 kV radial power distribution networks is presented. The items discussed are earth fault transients, signal pre-processing, ANN training and the performance of the proposed distance estimation method. The distribution networks considered are either unearthed or resonant earthed. Neural networks trained by the harmonic content of neutral voltage transients were found to be applicable to fault distance computation in the case of very low fault resistance. The mean error in fault location was about 1 km in the field tests using staged faults, which were recorded in real power systems.

Keywords

earthing; fault location; learning (artificial intelligence); neural nets; power distribution faults; power system analysis computing; power system transients; signal processing; 20 kV; ANN training; artificial neural network; distance estimation method; earth fault distance computation; fault distance computation; fault location; field tests; harmonic content; mean error; neutral voltage transients; power systems; radial power distribution networks; relay algorithms; resonant earthed distribution network; signal pre-processing; staged faults; unearthed distribution network; very low fault resistance; Artificial neural networks; Computer networks; Earth; Fault location; Neural networks; Power system harmonics; Power system transients; Power systems; Resonance; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Engineering Society Summer Meeting, 2001

Conference_Location

Vancouver, BC, Canada

Print_ISBN

0-7803-7173-9

Type

conf

DOI

10.1109/PESS.2001.970233

Filename

970233