[1] 厉天威, 江巳彦, 赵建华, 等. 南方电网沿海地区输电线路风灾事故分析[J]. 高压电器, 2016, 52(6):23-28 LI Tian-wei, JIANG Si-yan, ZHAO Jian-hua, et al. Wind accident analysis of southern grid coastal region transmission line[J]. High Voltage Apparatus, 2016, 52(6):23-28
[2] 张勇. 输电线路风灾防御的现状与对策[J]. 华东电力, 2006, 34(3):28-31 ZHANG Yong. Status guo of wind hazard prevention for transmission lines and countermeasures[J]. East China Electric Power, 2006, 34(3):28-31
[3] 邹良浩, 梁枢果, 邹垚, 等. 格构式塔架风载体型系数的风洞试验研究[J]. 特种结构, 2008, 25(5):41-43 ZOU Liang-hao, LIANG Shu-guo, ZOU Yao. Investigation on wind load shape coefficient of lattice towers by wind tunnel tests[J]. Special Structures, 2008, 25(5):41-43
[4] 张庆华,顾明, 黄鹏. 格构式塔架风力特性试验研究[J]. 振动与冲击, 2009, 28(2):1-5 ZHANG Qing-hua, GU Ming, HUANG Peng. Experimental study of wind force on latticed tower[J]. Journal of Vibration and Shock, 2009, 28(2):1-5
[5] 楼文娟, 王东, 沈国辉, 等. 角钢输电塔杆件风压及体型系数的风洞试验研究[J]. 华中科技大学学报:自然科学版, 2013, 41(4):114-118 LOU Wen-juan, WANG Dong, SHEN Guo-hui, et al. Wind tunnel tests for wind load distribution and shape coefficient of angle-made-transmission towers[J]. Journal of Huazhong University. of Science and Technology:Natural Science Edition, 2013, 41(4):114-118
[6] 张盈哲, 廖宗高, 谢强. 输电线路设计规范中风荷载计算方法的比较[J]. 电力建设, 2013, 34(7):57-62 ZHANG Ying-zhe, LIAO Zong-gao, XIE Qian. Comparison of wind load calculation standards for power transmission lines[J]. Etectric Power Construction, 2013, 34(7):57-62
[7] 潘峰, 陈稼苗, 聂建波, 等. 国内外规范输电线路铁塔风荷载特性对比[J]. 中国电力, 2013, 46(4):37-42 PAN Feng, CHEN Jia-miao, NIE Jian-bo, et al. Contrast study of wind load characteristics for transmission towers based foreign standards[J]. Electric Power, 2013, 46(4):37-42
[8] 徐彬, 冯衡, 曾德森. 国内外输电线路设计规范风荷载比较[J]. 华中电力, 2012, 25(2):76-81 XU Bin, FENG Heng, ZENG De-sen. Comparation on design codes of transmission line for wind load at home and abroad[J]. Central China Electric Power, 2012, 25(2):76-81
[9] ABOSHOSHA H, ELAWADY A, ANSARY E A, et al. Review on dynamic and quasi-static buffeting response of transmission lines under synoptic and non-synoptic winds[J]. Engineering Structures, 2016, 112:23-46.
[10] American Society of Civil Engineers. ASCE manuals and reports on engineering practice. Guidelines for electrical transmission line structural loading (ASCE-74)[S]. New York:American Society of Civil Engineers, No. 74, 2010.
[11] International Electrotechnical Commission. Design criteria of overhead transmission lines (IEC 60826)[S]. Geneva, 2003.
[12] Australian Standard. Australian standard for minimum design loads on structures-Part 2:wind loads(AS 1170.2)[S]. Standard Australia, North Sydney, Join Technical Committee BD-006, 2002.
[13] JEC-127-1979, Design standards on structures for transmissions[S]. Tokyo:Japanese Electrotechnical Committee, 1979.
[14] EN1991, Eurocode1, Action on structures, Part1-4[S]. European Committee for Standardization. 2005.
[15] BS. Overhead electrical lines exceeding AC 45 kV:Part 1-General requirements-Common specifications[S]. London, 2001.
[16] 中华人民共和国电力行业标准. 架空输电线路杆塔结构设计技术规定:DL/T 5154-2012[S]. 北京:中国能源局,2012.
[17] 杨风利, 张宏杰, 杨靖波, 等. 高压输电铁塔塔身背风面风荷载遮挡效应研究[J]. 振动工程学报, 2016, 29(2):276-283 YANG Feng-li, ZHANG Hong-jie, YANG Jing-bo, et al. Shielding effects on the leeward side of high voltage transmission tower bodies under wind load[J]. Journal of Vibration Engineering, 2016, 29(2):276-283
[18] 希缪, 埃米尔. 风对结构的作用-风工程导论(第二版)[M]. 2版. 上海:同济大学出版社, 1992.
[19] WHITBREAD R E. The influence of shielding on the wind forces experienced by arrays of lattice frames[M]//Wind Engineering. Fort Collins: ACM, 1980:405-420.
[20] BAYAR D C. Drag coefficients of latticed towers[J]. Journal of Structural Engineering, 1986, 112(2):417-430.
[21] PRUD'HOMME S, LEGERON F, LANEVILLE A, et al. Wind forces on single and shielded angle members in lattice structures[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2014, 124:20-28.
[22] 中华人民共和国国家标准, 建筑结构荷载规范:GB 50009-2012[S]. 北京:中国住房和城乡建设部,2012.
[23] NBC-1995, National Building Code of Canada 1995-Fifth Revisions[S]. Ottawa: Canadian Commission on Building and Fire Codes, 2003. |