Abstract
Methods for determination of the wind pressure distribution on the facade of the atypically shaped high-rise building structure will be shown. The standard Eurocode 1 [1] does not mention recommendations for calculation of wind pressure distribution on the facade for the most cases of buildings having an irregular cross-section. Analysed object has a shape of the equilateral triangle. For the determination of the pressure distribution two methods were used. Experimental analysis was carried out in the boundary layer wind tunnel and second approach was performed by numerical simulation of wind flow using computational fluid dynamics (CFD) software based on the finite volume method. Both methods used scaled model of the structure. For the wind tunnel experiment, 16 points of interests around an object were monitored in steady wind flow and from those points, results of external pressure coefficients from 2 directions of wind flow were obtained. In conclusion comparison of results of both methods will be shown.
Highlights
Methods for determination of the wind pressure distribution on the facade of the atypically shaped high-rise building structure will be shown
Analysis of the wind pressure distribution was performed on the triangular cross-section of the scaled model
Model for wind tunnel tests was created as a scaled simplification of mentioned high–rise building (Fig. 2a)
Summary
High-rise structure was considered having a shape of an equilateral triangle (Fig. 1). Analysis of the wind pressure distribution was performed on the triangular cross-section of the scaled model. Length of the edge of the real size building is 51.34 m. Experimental and numerical model was created in scale 1:171
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