Comfort assessment of wind induced vibrations for slender structures by field monitoring and numerical analysis

IF 3.7 Q1 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH 安全科学与韧性(英文) Pub Date : 2024-07-14 DOI:10.1016/j.jnlssr.2024.06.004

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Abstract

Slender structures often lead to vibration discomfort for occupants when exposed to wind forces. This study proposes an innovative method for assessing comfort against wind-induced vibrations for slender structures that combines field monitoring, numerical simulations, codal provisions, and Chang's comfort chart. The method utilizes ambient vibration tests (AVT) and operational modal analysis (OMA) to create a reliable finite element (FE) model for the structure. It involves analyzing the time history and calculating the peak acceleration values at various points within the structure using synthetic ambient wind forces derived from superposing waves. The comfort assessment compares peak acceleration values estimated from time history analysis against those provided in Chang's chart for different comfort levels. The effectiveness of the proposed method is demonstrated through a case study on a tall, slender reinforced concrete (RC) staircase structure, confirming its suitability for practical applications.

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通过现场监测和数值分析评估风引起的细长结构振动的舒适性

细长结构在风力作用下往往会导致居住者产生振动不适感。本研究提出了一种创新方法，用于评估细长结构在风引起的振动下的舒适度，该方法结合了现场监测、数值模拟、法规规定和张氏舒适度图表。该方法利用环境振动测试 (AVT) 和运行模态分析 (OMA) 为结构创建可靠的有限元 (FE) 模型。它包括分析时间历史，并利用叠加波产生的合成环境风力计算结构内各点的峰值加速度值。舒适度评估将时间历程分析估算出的峰值加速度值与 Chang 图表中提供的不同舒适度等级的峰值加速度值进行比较。通过对一个高大、细长的钢筋混凝土（RC）楼梯结构进行案例研究，证明了所提方法的有效性，从而证实了其在实际应用中的适用性。

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