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内部故障电弧下GIS母线壳体的分析及设计 被引量:11

Design and Analysis of GIS Bus Enclosure Considering Internal Arcing
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摘要 为验证GIS母线壳体在发生内部故障电弧时,壳体烧穿或短路电流被开断而不会发生爆炸,笔者依据经验公式完成了GIS母线筒的结构设计,并通过ANSYS结构模块对母线筒的强度进行了计算验证,同时通过2.8 MPa水压试验完成了对母线筒强度的校核,验证了设计和理论计算分析的可靠性。另外,考虑到母线筒内电弧的运动效应,由此引起的壳体烧穿时间加长,计算分析了此种情况下GIS母线耐内部故障电弧的能力。分析的结果表明,设计的母线壳体能够满足标准要求。 To ensure that an SF6 GIS bus enclosure does not explode as it has been burnt out or the short-circuit current has been cut-off during internal arcing, a construction design of SF6 GIS bus enclosure was completed according to an empirical formula, and the mechanical strength of the enclosure was computed based on the structural module in the software ANSYS. Moreover, the strength of the enclosure was verified through 2.8 MPa hydraulic pressure test to demonstrate the validity of the design. In addition, Considering the extending burnt-out time of the enclosure due to moving effect of arc in the metal enclosure, the capability of the GIS bus to withstand internal arc was evaluated in this condition. Result reveals that the designed SF6 GIS bus enclosure can meet the standards.
作者 宫瑞磊 肖凌风
机构地区 山东泰开高压开关有限公司 长沙理工大学能源与动力工程学院
出处 《高压电器》 CAS CSCD 北大核心 2013年第1期118-121,125,共5页 High Voltage Apparatus
关键词 母线 内部故障电弧 水压试验 bus internal arcing hydraulic pressure test
分类号 TM595 [电气工程—电器]
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参考文献20

  • 1林莘.现代高压电器技术[M].北京:北京机械工业出版社.2004.
  • 2李广山.内部故障下高压SF_6气体绝缘金属封闭开关设备壳体状态的分析[J].高压电器,2001,37(3):49-51. 被引量:8
  • 3KUWAHARA H, YOSHINAGA K, SAKUMA S,et al. Fundamental investigation on inernal arcs in SF6 gas-filled enclosure[J]. IEEE Transactions on Power Apparatus and Systems, 1982(10):3977-3986.
  • 4TRINH N G. Risk of burn-through-a quantitative assessment of the capability of gas-insulated equipment to withstand internal arcs [J]. Transactions on Power Delivery, 1992,7(1):225-234.
  • 5BOECK W, KRUGER K. Arc motion and burn through in GIS[J]. Transactions on Power Delivery, 1992,7(1):254-261.
  • 6LUTZ F, CHU F Y. Burn through of GIS enclosure due to power fault arcs [J]. IEEE Transactions on Power Appara- tus and Systems, 1983,PAS-102(9):3140-3147.
  • 7FRIBERG G, PIETSCH G J.Calculation of pressure rise due to arcing faults [J]. IEEE Transactions on Power De- livery, 1999,14(2):365-370.
  • 8FRIBERG G, PIETSCH G J. On the description of pres- sure rise due to high current fault arcs in metal-enclosed com-partments [C]// Proceeding of the l lth International Conference on Gas Discharges and their Applications. Tokyo :IEEE, 1995:18-21.
  • 9LUTZ F, PIETSCH G.Investigations on the pressure in the surroundings of a high current fault arc [C]// Proceeding of the 6th International Conference on Gas Discharges and their Applications.Edinburgh:IEEE, 1980: 270-273.
  • 10LUTZ F, PIETSCH G. The calculation of overpressure in metal-enclosed switchgear due to internal arcing [J]. IEEE Transactions on Power Apparatus and Systems, 1982(11): 4230-4236.

二级参考文献16

  • 1陆明万.关于应力分类问题的一些认识[J].化工设备与管道,2005,42(4):10-15. 被引量:14
  • 2陆明万,徐鸿.分析设计中若干重要问题的讨论(二)[J].压力容器,2006,23(2):28-32. 被引量:30
  • 3(法)G.BERNARD 章传敏(译).高压SF6封闭组合电器内部故障的探索[J].高压电器通讯,1984,(1):55-67.
  • 4(日)气体绝缘开关装置技术调查委员会 谢代之(译).对GIS性能方面所需要考虑的各种问题.SF6开关制造技术译文集(六)[M].-,1985..
  • 5JB4732-1995.钢制压力容器-分析设计标准[S].[S].,..
  • 6ASME Boiler & Pressure Vessel Code 2007, Ⅷ Di- vision 2, Alternative Rules, Rules for Construction of Pressure Vessels[S].
  • 7JB4732-1995.钢制压力容器-分析设计标准标准释义[S].[S].,.25-26.
  • 8G. L. Hollinger. Summay of three dimensional stress classfication[C]. ICPVT- 7. Vol. 1. 1992.
  • 9陆明万.典型压力容器部件的极限分析与安定分析[R]..第三届全国压力容器学术会议专题报告[C].,1992..
  • 10李建国.压力容器设计的力学基础及其标准应用[M].北京:机械工业出版社,2005年第二次印刷本..

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