Experimental investigation of wind pressure characteristics and aerodynamic optimization of a large-span cantilevered roof

Structures ◽  
2021 ◽  
Vol 34 ◽  
pp. 303-313
Author(s):  
Fubin Chen ◽  
Weijia Wang ◽  
Jinfang Zhou ◽  
Zhenru Shu ◽  
Qiusheng Li
Keyword(s):  
Experimental Investigation ◽  
Wind Pressure ◽  
Aerodynamic Optimization ◽  
Large Span ◽  
Pressure Characteristics

Serviceability of a New Kind of Precast Hollow Cross-Grids Floor System

2017 ◽  
Vol 873 ◽  
pp. 158-163
Author(s):  
Wen Xiao Cui ◽  
Zhong Fan Chen ◽  
Wan Yun Yin ◽  
Shou Cheng Liu
Keyword(s):  
Experimental Investigation ◽  
Fem Analysis ◽  
Grid Floor ◽  
Experimental Results ◽  
Dynamic Force ◽  
Peak Acceleration ◽  
Large Span ◽  
Vibration Serviceability ◽  
Crowd Effect ◽  
Floor System

This paper proposed a new kind of precast hollow cross-grid floor system which is fabricated by several precast panels and post-poured concrete strips. As there is a lack of data related to the vibration serviceability of this new floor system which aim at being used in the large-span buildings, an experimental investigation was conducted. The data obtained from the experiment showed the new floor system meet existing China criteria under most pedestrian excitations. The resultsalso demonstrated thepacing rate influence the vibration performances most as the crowd effect least. Then the FEM analysis was taken to predict the peak acceleration of the new kind of floor system comparing to the experimental results using different coefficient of dynamic force.

Program for the Analysis of Wind-Induced Vibration of Steel Roof Structures

2011 ◽  
Vol 284-286 ◽  
pp. 517-522
Author(s):  
Wei Guo Yang ◽  
Yao Feng Wang
Keyword(s):  
Wind Pressure ◽  
Wind Loads ◽  
Frequency Domain Method ◽  
Large Span ◽  
Finite Element Software ◽  
Roof Structure ◽  
Wind Vibration ◽  
Vertical Winds ◽  
Wind Induced Vibration ◽  
Steel Roof

Wind loads are key considerations in the structural design of steel roof structures, especially for large span ones. The analysis of wind loads on large span steel roof structure (LSSRS) requires large amounts of calculations. Due to combined effects of horizontal and vertical winds, the wind induced vibrations of LSSRS are analyzed with the frequency domain method as the first application of the method for the analysis of wind responses of LSSRS. A program is developed to analyze the wind-induced vibrations due to a combination of wind vibration modes. The program, which predicts the wind vibration coefficient and wind pressure acting on the LSSRS, is designed with input and output interfaces to other finite element software, resulting in preferably solving the wind load analytical problem in the design of LSSRS. The effectiveness and accuracy of the proposed method and the program are verified by numerical analyses of practical projects.

scholarly journals Experimental Investigation of Wind Pressure Characteristics for Cladding of Dome Roofs

Materials ◽  
2021 ◽  
Vol 14 (18) ◽  
pp. 5266
Author(s):  
Dong-Jin Cheon ◽  
Yong-Chul Kim ◽  
Jong-Ho Lee ◽  
Sung-Won Yoon
Keyword(s):  
Peak Pressure ◽  
Wind Pressure ◽  
Wind Damage ◽  
Pressure Coefficients ◽  
Negative Peak ◽  
Central Opening ◽  
Upward Direction ◽  
Net Pressure ◽  
Positive Peak ◽  
Pressure Characteristics

Cladding for dome roofs is often made of membrane materials that are light and easy to install. Due to these characteristics, wind damage to dome roof cladding is very common. In particular, open or retractable dome roofs are prone to wind damage because of inadequacies in wind load calculations. In this study, the wind pressure characteristics of a dome with a central opening were investigated. Wind tunnel tests were performed, and the pressure distribution was investigated by analyzing external and internal pressure coefficients. Based on the experimental results, the peak net pressure coefficients for the cladding design of a dome roof with a central opening were proposed. For the external peak pressure coefficients, the values of leeward regions were similar despite height–span ratios and turbulence intensity values. For the internal peak pressure coefficients, negative pressure was dominant, and the coefficients were not significantly affected by changes in height–span ratio. This tendency locally increased the negative peak net pressure, in which the load acts in the upward direction, and relatively significantly increased the positive peak net pressure, in which the load acts in the downward direction.

Effect of Corner Modifications on Wind Pressure Characteristics of High-rise Buildings

2016 ◽  
Vol 106 (12) ◽  
pp. 239-246
Author(s):  
Xiang ZHUANG ◽  
Yimin ZHENG ◽  
Xin DONG ◽  
Xin ZHAO
Keyword(s):  
Wind Pressure ◽  
High Rise ◽  
Pressure Characteristics

Study on Characteristics of Wind Loading on Open Ended Cantilevered Roof under Typhoon

2012 ◽  
Vol 256-259 ◽  
pp. 788-791
Author(s):  
Zhi Xiang Yin ◽  
Yu Zhang
Keyword(s):  
Pressure Distribution ◽  
Pressure Coefficient ◽  
Surface Wind ◽  
Great Influence ◽  
Wind Load ◽  
Wind Pressure ◽  
Wind Loading ◽  
Load Model ◽  
Large Span ◽  
Wind Pressure Coefficient

Open ended cantilevered roof is different from enclosed roof, because its change of wind pressure distribution is complex, and the wind directions have great influence on it. Up to now, for the characteristics of the structure are very complicated, there is no appropriate wind load model can be used in design, especially under typhoon, a specific wind field. So it is necessary to study the characteristics of wind load on open ended cantilevered roofs of typhoon. Using FLUENT and Computational Fluid Dynamics technology, based on the conventional, Tianpu’s and Shiyuan’s turbulence intensity of the typhoon scenario, a numerical simulation of wind flow around a large-span cantilevered roof was carried out. Analyzed different wind angles of the wind pressure distribution regularities on large-span cantilevered roof. The paper determined the distribution of the surface wind pressure coefficient for the cantilevered roofs, as well as the wind-sensitive parts of structures.

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