Journal of Shandong University(Engineering Science) ›› 2021, Vol. 51 ›› Issue (4): 111-117.doi: 10.6040/j.issn.1672-3961.0.2020.487
ZHAI Bin1, ZHANG Sixiang1, LIU Kaiming2, TIAN Li2*, ZHANG Laiyi2
CLC Number:
[1] MORGAN V T, SWIFT D A. Jump height of overhead-line conductors after the sudden release of ice loads [J]. Proceedings IEE, 1964, 111(10):1736-1746. [2] JAMALEDDINE A, MCCLURE G, ROUSSELET J, et al. Simulation of ice-shedding on electrical transmission lines using adina[J]. Computers & Structures, 1993, 47(4/5):523-536. [3] 苏士斌. 架空线脱冰动张力的模拟实验研究[D].北京:华北电力大学,2013. SU Shibin. Experimental study on the dynamic tension characteristics of the overhead transmission conductor under synchronous ice shedding[D]. Beijing: North China Electric Power University, 2013. [4] 谢献忠,李丹,黄伟,等.塔线体系脱冰跳跃动力特性实验研究[J].应用力学学报,2017,34(5):855-861. XIE Xianzhong, LI Dan, HUANG Wei, et al. Experimental study on the dynamical properties of tower-line systems induced by ice-shedding[J]. Chinese Journal of Applied Mechanics, 2017, 34(5):855-861. [5] 李宏男, 吴育炎. 输电线路覆冰脱落动力效应试验研究[J]. 土木工程学报,2019,52(5):35-46. LI Hongnan, WU Yuyan. Experimental study on dynamic responses of transmission lines caused by ice shedding[J].China Civil Engineering Journal, 2019, 52(5):35-46. [6] 刘敏,晏致涛,冯上铭,等.多跨覆冰导线脱冰振动模型风洞试验研究[J].振动与冲击,2018,37(3):223-229. LIU Ming, YAN Zhitao, FENG Shangming, et al. Wind tunnel model tests for ice-shedding vibration of multi-span icing conductors[J]. Journal of Vibration and Shock, 2018, 37(3):223-229. [7] KÁLMÁN T, FARZANEH M, MCCLURE G. Numerical analysis of the dynamic effects of shock-load-induced ice shedding on overhead ground wires[J]. Computers & Structures, 2007, 85(7/8):375-384. [8] 沈国辉,袁光辉,邢月龙,等. 导线覆冰脱落的数值模拟和参数分析[J].振动与冲击,2012,31(5):55-59. SHEN Guohui, YUAN Guanghui, XING Yuelong, et al. Numerical simulation and parametric analysis of ice-shedding on conductors[J]. Journal of Vibration and Shock, 2012, 31(5):55-59. [9] 杜运兴,卢心龙, 聂逸悠. 线路覆冰分层脱落动力响应的研究[J]. 湖南大学学报(自然科学版),2017,44(7):104-110. DU Yunxing, LU Xinlong, NIE Yiyou. Research on dynamic response of ice layer shedding in line system[J]. Journal of Hunan University(Natural Sciences), 2017, 44(7):104-110. [10] 李黎,夏正春,付国祥,等. 大跨越输电塔-线在线路脱冰作用下的振动[J].振动与冲击,2008(9):32-34. LI Li, XIA Zhengchun, FUN Guoxiang, et al. Ice-shedding induced vibration of a long-span electric trans-mission tower-line system[J]. Journal of Vibration and Shock, 2008(9):32-34. [11] 韩军科,杨靖波,杨风利,等.超/特高压同塔多回输电线路脱冰跳跃动力响应分析[J].电网技术,2012,36(9):61-67. HAN Junke, YANG Jingbo, YANG Fengli, et al.Analysis on dynamic responses of ice shedding-caused drastic conductor vibration occurred in EHV/UHV multi-circuit transmission lines on same tower[J]. Power Systen Technology, 2012, 36(9):61-67. [12] 叶子菀,郭勇,尚奎. 山坡地形输电线路的覆冰脱冰研究[J].电网技术,2013,37(7):1959-1964. YE Zixuan, GUO Yong, SHANG Kui. Research on Ice accretion and shedding of ice-coating on transmission lines located in hillside areas[J]. Power System Technology, 2013, 37(7):1959-1964. [13] BENNANI L, VILLEDIEU P, SALAUN M. A mixed adhesion—brittle fracture model and its application to the numerical study of ice shedding mechanisms [J]. Engineering Fracture Mechanics, 2016, 158:59-80. [14] KOLLÁR L E, FARZANEH M, DYKE P V. Modeling ice shedding propagation on transmission lines with or without interphase spacers[J]. IEEE Transactions on Power Delivery, 2013, 28(1): 261-267. [15] 陈科全. 覆冰输电线路脱冰动力响应及机械式除冰方法研究[D]. 重庆:重庆大学, 2012. CHEN Kequan. Study on dynamic responses of iced transmission line after ice-shedding and the mechanical de-icing method[D]. Chongqing: Chongqing Univ-ersity, 2012. [16] 张殿生. 电力工程高压送电线路设计手册[M]. 2版.北京:中国电力出版社,2003. [17] YAN Bo, CHEN Kequan, GUO Yueming, et al. Numerical simulation study on jump height of iced transmission lines after ice shedding[J]. IEEE Transactions on Power Delivery, 2013, 28(1):216-225. [18] 王德千,严波,黄桂灶,等. 输电导线脱冰跳跃高度实用简化计算公式[J]. 重庆大学学报, 2020, 43(2):64-71. WANG Deqian, YAN Bo, HUANG Guizao, et al. Simplified formula for jump height of transmission lines after ice-shedding[J]. Journal of Chongqing University, 2020, 43(2):64-71. |
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