Title :
Integral arc models at single phase-to-ground faults and special characteristics of arcing in power cable insulation
Author :
Shirkovets, Andrey
Author_Institution :
Sci. Res. Dept., LLC BOLID, Novosibirsk, Russia
Abstract :
The paper presents the results of experimental investigations and calculations of arcing at ground faults in distribution networks up to 35 kV. It is shown that an additional active component in single phase-to-ground current caused by a high-voltage resistor connected to a neutral leads to the change of the following arcing ground fault parameters: voltage recovery rate on the faulty phase after arc quenching, conditions of arcing and arc quenching depending on the insulation material (mass-impregnated paper insulation, polymeric insulation), probability of restrikes. Special features of main stages of arcing ground fault are presented. Integral models of arcing based on conductivity, current and voltage functions for ablation controlled arcs in power cable insulation are proposed.
Keywords :
XLPE insulation; arcs (electric); paper; power cable insulation; power distribution faults; power distribution protection; arc quenching; arcing ground fault; distribution network; faulty phase; high voltage resistor; integral arc model; mass impregnated paper insulation; phase-to-ground current; polymeric insulation; power cable insulation arcing; single phase-to-ground faults; voltage 35 kV; voltage recovery rate; Breakdown voltage; Electric breakdown; Power cable insulation; Power cables; Resistance; Arcing; integral models; power cable insulation; single phase-to-ground fault;
Conference_Titel :
Electric Power Quality and Supply Reliability Conference (PQ), 2012
Conference_Location :
Tartu
Print_ISBN :
978-1-4673-1980-5
Electronic_ISBN :
978-1-4673-1978-2
DOI :
10.1109/PQ.2012.6256233
