Title :
Change of dielectric property with water-treed region
Author :
Nakamura, S. ; Ozaki, T. ; Ito, N. ; Kawai, J.
Author_Institution :
Dept. of Electron., Mie Univ., Tsu, Japan
fDate :
6/1/2002 12:00:00 AM
Abstract :
By dividing a water-treed XLPE sheet sample into a non-degraded layer and a water-treed one, relative permittivity εr2\´ and dielectric loss factor εr2" of the water-treed layer have been estimated using an equivalent circuit. The way of changes in εr2\´ and εr2" with the water tree length r estimated by the pulsed electroacoustic method has been discussed based on a Maxwell-Wagner-Sillars (MWS) model. It has been concluded that the MWS model gives a reasonable fit to the experimental data providing that the water conductivity in voids lies between 1×10-3 S/m and 8×10-3 S/m, and the minor and major axis ratio of the ellipsoids, to which water-filled voids are compared, lies in the range of 1:20 to 1:50
Keywords :
XLPE insulation; dielectric losses; equivalent circuits; permittivity; power cable insulation; trees (electrical); Maxwell-Wagner-Sillars model; XLPE sheet; dielectric loss factor; dielectric property change; equivalent circuit; pulsed electroacoustic method; relative permittivity; water tree length; water-filled voids; water-treed power cables; water-treed region; Aging; Capacitance; Conductivity; Dielectric losses; Indium tin oxide; Permittivity; Polyethylene; Power cables; Trees - insulation; Voltage;
Journal_Title :
Dielectrics and Electrical Insulation, IEEE Transactions on
DOI :
10.1109/TDEI.2002.1007694
