220kV垂直双分裂导线粘连机理仿真

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (483 KB)
输出: BibTeX | EndNote (RIS)

摘要在试验研究的基础上利用计算机仿真技术分析220kV垂直双分裂导线粘连现象产生的原因及其预防措施。本文以故障现场调研、户外大型试验场的试验观测和计算机仿真相结合的方式, 对220kV垂直双分裂输电线路粘连机理进行探索。建立了双分裂导线粘连数学模型, 并基于户外大型试验场的试验结果对模型进行校正, 编制了双分裂导线粘连故障模拟软件;以云南省某220kV粘连故障线路为例, 根据计算机仿真结果, 提出了粘连线路的改造措施, 验证了数学模型和计算方法的有效性。建立在理论分析和户外试验基础上的计算机仿真, 有助于深入探索导线粘连机理, 为输电线路设计和故障线路改造提供技术支持。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	张飚
	何小新
	喻剑辉
	胡蓉
	杨丹
	周文俊

关键词 ：导线粘连, 仿真计算, 数学模型, 户外试验, 双分裂导线, 输电线路

Abstract：The causes and disposal of 220kV vertieal-arrayed double-bundle transmission line adhesion are analyzed on the basis of large-scaled outdoor experiment by computer simulation technology. This paper analyses the mechanism of double-bundle transmission line adhesion with field experiment, the results of large-scaled outdoor experiment and computer simulation technology. First simulation model for transmission line adhesion is built, then revise the model with the results of field experiment and fault simulation software is programmed finally. Take an adhered fault line in Yunnan Province for example, reconstruction measures are pointed out accordding to simulation results, which show that the mathematic models are efficient. Computer simulation technology based on theoretical analysis and field experiment contributes to the exploring of the mechanism of transmission line adhesion , transmission line design and disposal of fault line.

Key words： Transmission line adhesion simulation calculation mathematical model field experiment double-bundle transmission line transmission line

收稿日期: 2011-05-10 出版日期: 2014-03-20

PACS:

TM75

基金资助:中国-苏格兰博士生教育及科研基金(留金欧[2010]6044)资助项目。

作者简介: 张飚男, 1975年生, 博士研究生, 研究方向为高电压测试技术。何小新男, 1959年生, 博士, 副教授, 研究方向为现代设计方法。

引用本文:

张飚, 何小新, 喻剑辉, 胡蓉, 杨丹, 周文俊. 220kV垂直双分裂导线粘连机理仿真[J]. 电工技术学报, 2012, 27(5): 252-259. Zhang Biao, He Xiaoxin, Yu Jianhui, Hu Rong, Yang Dan, Zhou Wenjun. Mechanism Simulation for the Causes of 220kV Vertical-Arrayed Double-Bundle Transmission Line. Transactions of China Electrotechnical Society, 2012, 27(5): 252-259.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2012/V27/I5/252

1.[1] 杨挺. 220kV输电线路垂直双分裂导线粘连成因及处理方法[J]. 广东电力, 2005, 18(1):58-61.
Yang Ting. Cause analysis and disposal route of vertical-arrayed double-bundled transmission line [J]. Guangdong Electric Power, 2005, 18(1): 58-61.
2.[2] 杨兆安, 武利会. 220kV输电线路垂直双分裂导线粘连的原因分析[J]. 广东电力, 2005, 18(12): 72-74.
Yang Zhaoan, Wu Lihui. Cause analysis of 220kV vertical-arrayed twin-bundled transmission line conglutination[J]. Guangdong Electric Power, 2005, 18(12): 73-74.
3.[3] 刘正权, 霍锋. 220kV垂直排列双分裂导线粘连现象分析[J]. 高电压技术, 2006, 32(11): 61-63.
Liu Zhengquan, Huo Feng. Analysis on vertical- arrayed double-bundled transmission line conglutination phenomena of 220kV transmission line[J]. High Voltage Engineering, 2006, 32(11): 61-63.
4.[4] 雷鸣, 刘刚, 杨挺. 220kV架空分裂导线的应力动态分析[J]. 电工电能新技术, 2009, 28(3): 50-53.
Lei Ming, Liu Gang, Yang Ting. Dynamic analysis on stress of overhead vertical-arrayed double-bundled transmission line [J]. Advanced Technology of Electrical Engineering and Energy, 2009, 28(3): 50-53.
5.[5] 余朝胜. 浅析220kV输电线路垂直双分裂导线粘结问题[J]. 电力设计, 2006(2): 48-51.
Yu Chaosheng. Analysis of lead felting in 220kV vertical-arrayed double-bundled transmission lines [J]. Electric Power Survey & Design, 2006(2):48-51.
6.[6] 魏芳斌.输电线路子导线粘连原因分析[J]. 福建电力与电工, 2006, 26(1): 38-39.
Wei Fangbing. Cause analysis of vertical-arrayed double-bundled transmission line conglutination [J]. Fujian Electric Power and Electrical Engineering, 2006, 26(1): 38-39.
7.[7] 杨高光辉. 220kV垂直双分裂导线粘连原因及整改措施[J]. 湖南电力, 2009, 29(5): 42-44.
Yang Gao-guanghui. Cause analysis for 220kV vertical arrangement twin bundled lines Conglutination and countermeasures[J]. Hunan Electric Power, 2009, 29(5): 42-44.
8.[8] 姚耀明. 220kV垂直排列双分裂导线粘连的分析与研究[J]. 浙江电力, 2006(6): 49-52.
Yao Yaoming. Analysis on conglutination phenomena of vertical-arrayed double-bundled transmission line of 220kV[J]. Zhejiang Electric Power, 2006(6): 49-52.
9.[9] 包建强. 220kV架空输电线路相双分裂垂直排列导线粘连原因分析及技术防范措施[J]. 电力设备, 2009, 9(5): 76-78.
Bao Jianqiang. Case study and technical countermeasures of conglutination with double phases for 220 kV vertical-arrayed twin-bundled transmission line overhead transmission line[J]. Electrical Equipment, 2009, 9(5): 76-78.
10.[10] 潘基书, 陈杰. 垂直双分裂导线粘连原因分析[J]. 云南电力技术, 2007, 35(3): 30-32.
Pan Jishu, Chen Jie. Cause analysis of vertical twin bundled line conglutination[J]. Yunnan Electric Power, 2007, 35(3): 30-32.
11.[11] 胡江涛. 220kV小四甲乙线路垂直双分裂子导线粘结问题的分析及解决方案[J]. 宁夏电力, 2007(3): 19-21.
Hu Jiangtao. Analysis and solving schemes for conglutination of 220kv vertical-arrayed double- bundled transmission line Xiaosijiayi [J]. Ningxia Electric Power, 2007(3): 19-21.
12.[12] 姜海波, 叶勇. 双分裂输电线路导线粘连成因及处理方法[J]. 江苏电机工程, 2007, 26(4): 49-51.
Jiang Haibo, Ye Yong. Cause analysis and disposal of twin bundled line conglutination[J]. Jiangsu Electrical Engineering, 2007, 26(4): 49-51.
13.[13] 沈亚红.架空输电线路双分裂导线粘连原因及维护方法[J]. 江西电力职业技术学院学报, 2008, 21(3): 35-37.
Shen Yahong. Causes analysis and disposal of vertical-arrayed double-bundled transmission line conglutination [J]. Journal of Jiangxi Vocational and Technical College of Electricity, 2008, 21(3):35-37.
14.[14] 樊灵孟. 220kV垂直排列双分裂导线粘连现象分析[J]. 高电压技术, 2004, 30(6): 27-29.
Fan Lingmeng. Analyses on conglutination phenomena of 220kV vertical-arrayed double-bundled transmission-lines[J]. High Voltage Engineering, 2004, 30(6): 27-29.
15.[15] 罗锋. 双分裂导线粘连问题的分析与处理[J]. 广东科技, 2008 (12): 134-136.
Luo Feng. Analysis of transmission twin conductor bundle conglutination[J]. Guangdong Electric Power, 2008(12): 134-136.
16.[16] E D Charles. Mechanical forces on current-carrying conductors[J]. Proceedings of the IEE, 1963, 110(9): 1671- 1677.
17.[17] P R Mehta, R L Swart. Generalized formulation for electromagnetic forces on current-carrying conductors [J]. IEEE Transactions on Power Apparatus And Systems, 1967, 86(2): 155-165.
18.[18] 李博之. 高压架空输电线路架线施工计算原理[M].北京: 中国电力出版社, 2008.
[19] 黄向平. 输电线路架空线水平应力方程解的探讨 [J].水利科技, 2002 (1): 60-61.
[20] 吕永乐. 孤立档架空导线应力与弧垂计算分析[J].甘肃科技, 2008, 24(13): 58-60.
Lü Yongle. The stress and sag calculated of overhead conductor in isolated span[J]. Gansu Science and Technology, 2008, 24(13): 58-60.
[21] 韦世平. 导线应力状态方程新解法[J]. 上海电力, 2000(2): 50-51.
Wei Shiping. New solution of state equation of lead stress[J]. Shanghai Electric Power, 2000(2): 50-51.
[22] 张三慧.电磁学[M]. 北京:清华大学出版社, 2003.