Title :
Flashover performance of EHV station post insulators covered with ice
Author :
Farzaneh, M. ; Farzaneh-Dehkordi, J. ; Zhang, J.
Author_Institution :
Quebec Univ., Chicoutimi, Que., Canada
Abstract :
The icing performance of standard-shed-design porcelain insulators, with a dry arcing distance of up to 4.17 m, corresponding to full-scale Hydro-Quebec 735 kV substation insulators, was investigated. Artificial ice was formed at -12°C in a climate room from supercooled water droplets produced by a set of pneumatic nozzles. The relationship between the maximum withstand voltage, VWS, and insulator length was determined. With an applied water conductivity of 30 μS/cm and an ice thickness of 15 mm, measured on a rotating monitoring cylinder, flashover may occur at service voltage. Moreover, the VWS of the ice-covered insulators tested increases non-linearly with an increase in insulator length. These results are of great importance for the design of EHV substation insulators used in cold climate regions.
Keywords :
arcs (electric); flashover; ice; porcelain insulators; substation insulation; -12 degC; 15 mm; 30 muS/cm; 4.17 m; 735 kV; EHV station post insulators; artificial ice; cold climate region insulators; dry arcing distance; ice thickness; ice-covered insulators; insulator length; maximum withstand voltage; service voltage flashover; standard-shed-design porcelain insulators; substation insulators; water conductivity; Conductivity measurement; Flashover; Ice thickness; Insulation; Monitoring; Porcelain; Rotation measurement; Substations; Thickness measurement; Voltage;
Conference_Titel :
Electrical Insulation and Dielectric Phenomena, 2004. CEIDP '04. 2004 Annual Report Conference on
Print_ISBN :
0-7803-8584-5
DOI :
10.1109/CEIDP.2004.1364183
