摘要
输电线路覆冰事故严重威胁电网安全运行,抗冰防灾是电网建设的重点攻克技术之一,其中,地线融冰研究是常用的关键技术。基于复合光架空地线两层层绞式结构,采用无感双绞线作为融冰热源,实现对地线覆冰段交流融冰。本文采用高热导率半导体材料氮化铝填充导线层间空气气隙,提高融冰传热速度,缩短融冰时间,减少融冰热损耗,有效改进OPGW融冰效率。结合热路分析法,理论计算氮化铝提高融冰效率。制作OPGW交流融冰样品及氮化铝样品,实验得到两种样品融冰时间,对比分析氮化铝提高融冰效率是可行的。
Ice accident on transmission lines influences the safe operation of power grid. Preventing ice dis-aster is one of the key technologies for the construction of power network. Ground wire ice-melt- ing technology is of great significance in conventional technology. Based on the layer stranded structure of Optical Fiber Composite Overhead Ground Wire (OPGW), a twisted bifilar wire fabricated by insulated wire is used as a heater for AC de-icing of ground wire. In order to enhance the heat transfer rate and shorten the ice-melting time as well as reduce the heat loss and improve ice melting efficiency, aluminum nitride, a semiconductor with high thermal conductivity, is used to fill in the gap among the conductor. An equivalent thermal circuit is established to calculate the de-icing efficiency of OPGW with aluminum nitride. With the samples of ice melting conductors, the ice melting time is analyzed based on de-icing conditions. It is confirmed that the ice melting efficiency of OPGW can be feasibly improved by filling the aluminum nitride.
作者
黄佩玮
王银顺
郭焕辉
鞠鹏
苗金亚
刘常军
李杨
Peiwei Huang;Yinshun Wang;Huanhui Guo;Peng Ju;Jinya Miao;Changjun Liu;Yang Li(State Key Laboratory for Alternate Electrical Power System with Renewable Energy Sources,North China Electric Power University,Beijing;Beijing Key Laboratory of High Voltage and Electromagnetic Compatibility,North China Electric Power University,Beijing)
出处
《输配电工程与技术》
2014年第3期53-61,共9页
Transmission and Distribution Engineering and Technology
基金
北京高等学校青年英才计划项目(批准号:YETP0698)
北京市教育委员会支持项目(科学研究与研究生培养共建项目)华北电力大学校内编号:GJ2013009。
关键词
复合光纤架空地线
无感双绞线
氮化铝
融冰效率
Optical Fiber Composite Overhead Ground Wire (OPGW)
Twisted Bifilar Wire,Aluminum Nitride
Ice-Melting Efficiency
