Title :
Melting process of multi-icicles and its flashover performance
Author :
Kangning Wang ; Tianzheng Wang ; Yu Deng ; Zhidong Jia ; Hao Jiang ; Zhicheng Guan
Author_Institution :
High Voltage Eng., Shanxi Electr. Power Res. Inst., Taiyuan, China
Abstract :
Typical icing morphology, including bridged and non-bridged icicles, affects the electrical strength of energized transmission line insulators under melting conditions. This paper is concerned with melting process of multi-icicles and its flashover performance. Two different models with the same gap length was tested and compared. It was found that partial discharge in bridged icicle occurred from the air gap inside to cut off the icicle and elongated forward to penetrate through the whole icicle. This penetration required more energy, leading to increased flashover voltage compared to partially bridged icicles. Experiments and modeling show that non-bridged multi-icicles are more vulnerable to flashover.
Keywords :
air gaps; flashover; ice; insulator testing; melting; partial discharges; power transmission lines; air gap; electrical strength; energized transmission line insulators; flashover performance; flashover voltage; gap length; icing morphology; melting conditions; melting process; multi-icicles; nonbridged icicles; partial discharge; Atmospheric modeling; Flashover; Ice; Insulators; Morphology; Resistance; Surface treatment;
Conference_Titel :
Electrical Insulation and Dielectric Phenomena (CEIDP), 2013 IEEE Conference on
Conference_Location :
Shenzhen
DOI :
10.1109/CEIDP.2013.6748171
