Wind Tunnel Tests on Wind Pressure Characteristics of Sawtooth Roofs

AbstractWind tunnel tests were conducted to investigate the wind pressure characteristics of sawtooth roofs in a simulated open country wind field with relatively low turbulence intensity. Models of monosloped and sawtooth roof (two to four spans) buildings that were 1∶200 scale were constructed wit...

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Veröffentlicht in:	Journal of aerospace engineering 2018-11, Vol.31 (6)
Hauptverfasser:	Li, Chunguang, Han, Yan, Zhang, Ji, Liu, Shuqian, Cai, C. S
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Sprache:	eng
Schlagworte:	Coefficients Computer simulation Low turbulence Roofing Roofs Suction Technical Papers Turbulence intensity Wind pressure Wind tunnel testing Wind tunnels
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creator	Li, Chunguang Han, Yan Zhang, Ji Liu, Shuqian Cai, C. S
description	AbstractWind tunnel tests were conducted to investigate the wind pressure characteristics of sawtooth roofs in a simulated open country wind field with relatively low turbulence intensity. Models of monosloped and sawtooth roof (two to four spans) buildings that were 1∶200 scale were constructed with intense pressure taps installed on the 15° sloped roofs. Both local and area-average pressure coefficients were determined under different wind directions. Preliminary results indicated that the local peak negative pressure coefficients were slightly lower than the literature results. The increase of roof slope led to higher peak design pressure coefficients for sawtooth roofs, especially in the interior and edge regions of roofs. The peak values of negative pressure captured in high corner regions of monosloped roofs were similar to the corresponding data measured on the windward span of sawtooth roofs, which indicated that the American standard provisions for wind pressure design of monosloped roof structures and the Chinese local wind pressure provisions for sawtooth roofs may underestimate the critical wind suction on high corner regions of monosloped roofs. Generally, the area-average pressures heavily depend on the size of tributary area and the region concerned, and higher roof slope led to faster reduction.
doi_str_mv	10.1061/(ASCE)AS.1943-5525.0000931
format	Article
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The peak values of negative pressure captured in high corner regions of monosloped roofs were similar to the corresponding data measured on the windward span of sawtooth roofs, which indicated that the American standard provisions for wind pressure design of monosloped roof structures and the Chinese local wind pressure provisions for sawtooth roofs may underestimate the critical wind suction on high corner regions of monosloped roofs. 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source	American Society of Civil Engineers:NESLI2:Journals:2014
subjects	Coefficients Computer simulation Low turbulence Roofing Roofs Suction Technical Papers Turbulence intensity Wind pressure Wind tunnel testing Wind tunnels
title	Wind Tunnel Tests on Wind Pressure Characteristics of Sawtooth Roofs
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