(Jiangsu Ankura Smart Transmission Engineering Tech Co., Ltd, Liyang 213300, China)
Abstract: Some problems exist in the rigid gas-insulated transmission line (GIL) of the three-phase common box, such as the overburden of the support structure and poor flexibility of temperature compensation. The engineering design with insufficient consideration could easily cause installation interference, support deformation, gas leakage, and other problems. This paper proposed to employ the 3D visual design to carry out the overall layout of the project. Moreover, it used the Workbench for mechanical properties analysis to solve problems, such as GIL line interference, temperature compensation, foundation load calculation, etc. This paper takes a 252 kV three-phase common box GIL engineering design as an example, discusses it from different aspects, such as the overall layout, temperature compensation, support and foundation load, on-site installation, and testing, to provide a reference for the three-phase common box GIL engineering design and industrialization development.
Key words: three-phase common box; rigid gas-insulated transmission line; engineering design; temperature compensation; foundation load
參考文獻
[1] 劉澤洪����,王承玉�����,路書軍����,等. 蘇通綜合管廊工程特高壓 GIL 關鍵技術要求[J]. 電網技術��,2020��,44(6) :2377-2385.
[2] 羅四嬌. GIS 母線設計及工程應用[J] . 電氣時代�����,2017(11) :63-66.
[3] 李要鋒����,張書琴��,張克選����,等. 共箱 GIS 量產中若干問題的研究[J] . 高壓電器����,2020��,56(9) :279-284.
[4] 胡文華����,徐昌云�����,鄭孝清�����,等. GIL 在變電站改擴建工程中的應用[J] . 電力勘測設計�����,2020(8) :11-19.
[5] 雷鳴��,陳琳. 關于 GIL 和 GIS 母線產品基本結構尺寸設計探討[J] . 高壓電器����,2013����,49(4) :128-133.
[6] 賈耿鋒��,李軍����,蔣曉旭����,等. GIS 母線用熱補償型波紋管伸縮量設計分析[J] . 電氣工程學報����,2017(6) :36-40.
[7] 全國高壓開關設備標準化技術委員會. 額定電壓 72.5 kV 及以上剛性氣體絕緣輸電線路:GB/T 22383—2017[S]. 北京:中國標準出版社��,2017 :27-29.
[8] 全國高壓開關設備標準化技術委員會. 額定電壓 72.5 kV 及以上氣體絕緣金屬封閉開關設備:GB/T 7674—2008[S]. 北京:中國標準出版社�����,2008 :24-27.
