电工技术学报2017,Vol.32Issue(14):252-258,7.DOI:10.19595/j.cnki.1000-6753.tces.151954
带并联间隙地线复合绝缘子直流覆冰闪络特性
DC Icing Flashover Performance of Composite Insulators with a Parallel Air Gap Used for Overhead Ground Wire Insulation
摘要
Abstract
The de-icing method of overhead ground wire has become an urgent problem. An insulator with a parallel air gap is generally installed for overhead ground wire insulation, whose de-icing voltage is related with the flashover voltage of insulator and breakdown voltage of air gap. Thus the air gap affects the de-icing length of the ground wire. Quantitative contrast experiments were carried out to study the relationship between the icing flashover voltages of the insulators and their air gaps. The test results show that, for clean (non-iced) strain and suspension insulators, the relationship between the 50% flashover voltage U50% and the air gap length d can be described as a power-law function. That is, U50% increases with the increase of d, but the growth rate decreases. Under icing condition, the air gap length of strain insulators can be chosen based on the ice thickness di, as (10+2di) mm. In heavy icing areas, the parallel air gap length of suspension insulators can be 80~100mm. During the de-icing period, the air gap length should be chosen as small as possible to improve its lighting protection performance, under the guarantee of good insulation between the ground wire and the tower.关键词
地线复合绝缘子/并联间隙/覆冰/闪络特性/直流Key words
Composite insulator for overhead ground wire/parallel air gap/icing/flashover performance/DC分类
信息技术与安全科学引用本文复制引用
郭裕钧,蒋兴良,孟志高,黎振宇,胡玉耀..带并联间隙地线复合绝缘子直流覆冰闪络特性[J].电工技术学报,2017,32(14):252-258,7.基金项目
国家重点基础研究发展计划(973 计划)(2014CB260401)和国家创新研究群体基金(51021005)资助项目. (973 计划)
