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中文核心期刊

锥形涡诱导下建筑物顶面风荷载

Conical vortex induced wind loading on the roof of a building

  • 摘要: 通过风洞模拟实验,研究了在锥形涡诱导下建筑物顶面风荷载的特性. 针对一个立方体形模型,给出了在不同风向角下压力分布的系统结果,进而分析了产生这样结果的原因和流动机理,以及建筑物顶面的分离流动结构随风向角改变而改变及其演化过程,并指出锥形涡的出现是建筑物顶面局部出现峰值负压的主要原因. 实验结果还显示,在一定风向角下,由于分离流动产生的锥形涡结构在屋顶局部可以诱导出时均负压峰值达-1.0以上;在风向角\beta =30^\circ时,锥形涡强度达到最大,其诱导的顶面附近局部时均负压峰值可达-2.4, 瞬时风压达-5.7以上,是导致建筑物屋顶在强风下损坏的根本原因.

     

    Abstract: By means of wind tunnel simulation the wind loading on theroof of building induced by conical vortex is investigated. The pressuredistributions on the roof of the model are obtained and the mechanism of the flowis analyzed. The structure of separated flow from the roof of buildingis shown to vary with wind directions and its developing process is also analyzed.It is indicated that appearance of conical vortex is the main reason ofoccurrence of the peak suction on the roof. Results show that under certainwind directions the local time mean pressure coefficients are greater than-1.0. Moreover, the intensity of conical vortex reaches the maximum valueat the wind direction \beta =30^\circ and the time-mean peak suction andfluctuating coefficients may reach -2.4 and -5.7, respectively. It isusually the main cause of damage for the roof of buildings duringstrong winds.

     

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