550kV GIL母线的结构设计

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摘要在我国大力发展超高压和特高压输电的进程中,拥有先进水平的自主知识产权超高压大电流输电设备是保证超高压输电实施的关键。气体绝缘金属封闭输电线路（GIL）凭借诸多性能优势,在大量工程应用中被使用。母线是GIL实现输电功能的重要部件,设计具有高性能、高可靠性的母线结构是研制550kV超高压GIL产品的基础。本文根据电压等级、绝缘水平给出了母线壳体和导体的基本规格尺寸,并通过电场仿真、内部故障电弧分析和计算及试验的方式验证其结构的合理性。

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	鲁加明
	曹伟伟
	周振华

关键词 ：超高压, 气体绝缘金属封闭输电线路（GIL）, 母线, 电场, 内部故障电弧

Abstract：In our country, we’re vigorously developing EHV and UHV transmission technology. The first step of carrying out EHV transmission is that, we must have the advantage EHV and large-current products which either have independent intellectual property rights. Because of many advantages, Gas insulated transmission lines were used in a large number of Engineering. BUS is the main electric loop of GIL, so the design of BUS with high performance and reliability is the foundation of designing 550kV GIL. This paper introduced how to design shells and conductors according to the voltage and insulation level. Also we verified the rationality of the structure by simulation of the electric field, analyzed and calculated the internal fault arc in BUS and the tests.

Key words： EHV gas insulated transmission lines BUS electric field internal fault arc

出版日期: 2015-09-28

作者简介: 鲁加明（1972-）,男,江苏省扬州市人,中国能建集团装备有限公司南京技术中心主任,高级工程师,主要研究方向为电气工程及其控制。

引用本文:

鲁加明,曹伟伟,周振华. 550kV GIL母线的结构设计[J]. 电气技术, 2015, 16(9): 59-63. Lu Jiaming,Cao Weiwei,Zhou Zhenhua. The Structural Design of 550kV GIL Bus. Electrical Engineering, 2015, 16(9): 59-63.

链接本文:

https://dqjs.cesmedia.cn/CN/Y2015/V16/I9/59