The Baling River Bridge is a long-span bridge located in a special mountainous area. The site has a very complicated wind field that is representative of many cases in west China. A terrain model that simulates the practical status of the wind field in the bridge site was tested in a wind tunnel to confirm the design of basic wind speed. Other characteristic wind parameters were also determined to provide a reference for similar bridge designation in the future. The test method was researched to identify its correctness and reliability, and the Von Karman pulse wind speed PSD was used. The wind speed evidently increased at the height of the middle span girder because of the effect of narrowing. Furthermore, the wind profile distribution was not uniform. The average attack angle range was 4.7 ° to + 4.7 ° , obviously larger than the Wind resistant design specifications of highway bridges required ( ± 3 ° ). The Power spectral density function (PSD) of lateral and vertical wind speed was close to that listed in the criteria at the high-frequency part of the bridge; no clear differences at the low-frequency part were observed.


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    Title :

    Experimental Study of a Wind Field in a Long-span Bridge Site Located in Mountainous Valley Terrain


    Contributors:
    Xu, Hong-tao (author) / He, Yong (author) / Liao, Hai-li (author) / Ma, Cun-ming (author) / Xian, Rong (author)


    Publication date :

    2013-02-15


    Size :

    72013-01-01 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




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