Title :
AC flashover performance of insulators covered with artificial ice
Author :
Farzaneh, M. ; Drapeau, J.F.
Author_Institution :
Dept. des Sci. Appliquees, Quebec Univ., Chicoutimi, Que., Canada
fDate :
4/1/1995 12:00:00 AM
Abstract :
A field observation of ice accretion on Hydro-Quebec HV insulators was carried out, as well as a laboratory investigation of the AC flashover performance of various types of insulators covered with artificial ice. The field observations made it possible to identify the type and physical aspect of naturally occurring ice accretions produced during freezing rain precipitation. The laboratory investigation was conducted in a 4.8×2.8 m×3.8 m climate room using a HV transformer of 120 kV, 240 kVA with a short-circuit impedance of 5%. A method based on the standard IEC 507 method was developed for measuring the maximum withstand voltage (VWS) of ice-covered insulators. Various factors were investigated, including the effects on the insulator VWS of such particulars as type, thickness, and uniformity of the ice, as well as the arcing distance of the insulators and the conductivity of freezing water. The effects of uniform ice, 2 cm thick, on 5 IEEE insulator units was thus considered to be equivalent to the effect of an ESDD of about 0.13 mg/cm2 on the same insulators
Keywords :
arcs (electric); flashover; ice; insulator testing; insulators; voltage measurement; 120 kV; 2 cm; 240 kVA; AC flashover performance; HV insulators; HV transformer; Hydro-Quebec; arcing distance; artificial ice; climate room; freezing rain precipitation; freezing water conductivity; ice accretion; ice thickness; ice type; ice uniformity; ice-covered insulators; insulators; maximum withstand voltage measurement; short-circuit impedance; standard IEC 507 method; Conductivity; Flashover; IEC standards; Ice thickness; Impedance; Laboratories; Measurement standards; Power transformer insulation; Rain; Standards development;
Journal_Title :
Power Delivery, IEEE Transactions on
