Across-wind loads and effects have become increasingly important factors in the structural design of super-tall buildings and structures with increasing height. Across-wind loads and effects of tall buildings and stru...Across-wind loads and effects have become increasingly important factors in the structural design of super-tall buildings and structures with increasing height. Across-wind loads and effects of tall buildings and structures are believed to be excited by inflow turbulence, wake, and inflow-structure interaction, which are very complicated. Although researchers have been focusing on the problem for over 30 years, the database of across-wind loads and effects and the computation methods of equivalent static wind loads have not yet been developed, most countries having no related rules in the load codes. Research results on the across-wind effects of tall buildings and structures mainly involve the determination of across-wind aerodynamic forces and across-wind aerodynamic damping, development of their databases, theoretical methods of equivalent static wind loads, and so on. In this paper we first review the current research on across-wind loads and effects of super-tall buildings and structures both at home and abroad. Then we present the results of our study. Finally, we illustrate a case study in which our research results are applied to a typical super-tall structure.展开更多
双烟囱结构在自然风作用下存在气动干扰效应,从而诱发较大风致振动,威胁结构安全.合理计算和预测风振响应是双烟囱抗风设计的关键.以某中心距为8倍平均直径的双烟囱结构为研究对象,开展刚性模型测力和气弹模型测振风洞试验,将试验结果...双烟囱结构在自然风作用下存在气动干扰效应,从而诱发较大风致振动,威胁结构安全.合理计算和预测风振响应是双烟囱抗风设计的关键.以某中心距为8倍平均直径的双烟囱结构为研究对象,开展刚性模型测力和气弹模型测振风洞试验,将试验结果与中国规范、欧洲规范和CICIND(International Committee on Industrial Construction)规范计算值进行比较,详细研究双烟囱在不同风向角下的风致响应特性.研究结果表明:在烟囱串列布置下,迎风侧烟囱具有遮挡和干扰效应,一方面使得背风侧烟囱底部弯矩减小,另一方面使其横风向位移大于在其他风向角下的值;由于厂房的干扰效应,风振系数中国规范计算值与试验值接近;当烟囱高度超过厂房高度后,计算值较试验值偏大;对于横向响应,中国规范计算值较试验值大37.1%,欧洲规范计算值与试验值接近,仅偏小6.9%,CICIND规范计算值比试验值小17.1%.展开更多
The paper presents a generalization of the conventional analytical approach where the quasisteady theory is utilised to evalu-ate the across-wind aerodynamic damping of slender single beam structures.This generalized ...The paper presents a generalization of the conventional analytical approach where the quasisteady theory is utilised to evalu-ate the across-wind aerodynamic damping of slender single beam structures.This generalized theory considers the variation of structural and aerodynamic parameters along the structural height,together with the nature of the vertical wind profile and mode shapes.Closed-form solutions for typical uniform and tapered tall buildings are given.A numerical application on a prototype tall building shows that the conventional method may be oversimplified,which results in incorrect predictions of the aerodynamic damping.展开更多
基金supported by the National Natural Science Foundation of China (Grant Nos. 90715040, 50878159)
文摘Across-wind loads and effects have become increasingly important factors in the structural design of super-tall buildings and structures with increasing height. Across-wind loads and effects of tall buildings and structures are believed to be excited by inflow turbulence, wake, and inflow-structure interaction, which are very complicated. Although researchers have been focusing on the problem for over 30 years, the database of across-wind loads and effects and the computation methods of equivalent static wind loads have not yet been developed, most countries having no related rules in the load codes. Research results on the across-wind effects of tall buildings and structures mainly involve the determination of across-wind aerodynamic forces and across-wind aerodynamic damping, development of their databases, theoretical methods of equivalent static wind loads, and so on. In this paper we first review the current research on across-wind loads and effects of super-tall buildings and structures both at home and abroad. Then we present the results of our study. Finally, we illustrate a case study in which our research results are applied to a typical super-tall structure.
文摘双烟囱结构在自然风作用下存在气动干扰效应,从而诱发较大风致振动,威胁结构安全.合理计算和预测风振响应是双烟囱抗风设计的关键.以某中心距为8倍平均直径的双烟囱结构为研究对象,开展刚性模型测力和气弹模型测振风洞试验,将试验结果与中国规范、欧洲规范和CICIND(International Committee on Industrial Construction)规范计算值进行比较,详细研究双烟囱在不同风向角下的风致响应特性.研究结果表明:在烟囱串列布置下,迎风侧烟囱具有遮挡和干扰效应,一方面使得背风侧烟囱底部弯矩减小,另一方面使其横风向位移大于在其他风向角下的值;由于厂房的干扰效应,风振系数中国规范计算值与试验值接近;当烟囱高度超过厂房高度后,计算值较试验值偏大;对于横向响应,中国规范计算值较试验值大37.1%,欧洲规范计算值与试验值接近,仅偏小6.9%,CICIND规范计算值比试验值小17.1%.
文摘The paper presents a generalization of the conventional analytical approach where the quasisteady theory is utilised to evalu-ate the across-wind aerodynamic damping of slender single beam structures.This generalized theory considers the variation of structural and aerodynamic parameters along the structural height,together with the nature of the vertical wind profile and mode shapes.Closed-form solutions for typical uniform and tapered tall buildings are given.A numerical application on a prototype tall building shows that the conventional method may be oversimplified,which results in incorrect predictions of the aerodynamic damping.