Hotel Intercontinental in Davos, Switzerland
|Structural Engineering||Sailer Stepan und Partner GmbH, Ingenieure für Bauwesen VBI
Length: ~ 390 ft | Width: ~ 243 ft | Height: ~ 180 ft
Nodes: 3,232 | Members: 638 | Surfaces: 652 | Finite Elements: 29,505 | Cross‑Sections: 77
In December 2013, a hotel with extraordinary architecture was opened in Davos, Switzerland. The building has the shape of a “Golden Egg” and is situated on a mountainside. The hotel is elliptic in shape with all corners rounded out. It was constructed with reinforced concrete and its external dimensions are about 344 ft x 131 ft.
The structural analysis of the 3D model was performed by the German engineering office Sailer Stepan & Partners who used the structural analysis software RFEM by Dlubal Software. Furthermore, the structural engineers made a comparative calculation by means of a beam analysis program.
The oval main building with its eleven stories is based on three basement stories. In order to accommodate seminar rooms, restaurants and a ballroom in the first floor, broader column grids were needed. Therefore, V‑shaped columns were arranged in the first floor. In this way, it was possible to set up smaller and more efficient column grids in the upper floors. In addition, the V‑columns couple the ceiling of the first floor horizontally to the cellar.
The floor in the 10th story, where the sky lounge is placed, spans an inner courtyard of a length of 112 ft. That is why in this part of the building a composite truss girder as high as a story was designed to which the two composite beam ceilings of the 9th and 10th story are monolithically connected.
As the building has been designed jointlessly, the truss girder was integrated into the building structure without any displaceable connections. With its high flexural resistance, the girder connects the two stiffening cores at the top ends like a horizontal beam and is elastically restrained in the adjacent walls.
As the hotel building lies in the seismic zone Z2 according to SIA 261, the corresponding seismic calculations were performed in addition to the structural analysis.
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Programs Used for Structural Analysis
Structural engineering software for finite element analysis (FEA) of planar and spatial structural systems consisting of plates, walls, shells, members (beams), solids and contact elements
Dynamic analysis of natural frequencies and mode shapes of member, surface, and solid models
Dynamic and seismic analysis including time history analysis and multi-modal response spectrum analysis
Seismic and static load analysis using the multi-modal response spectrum analysis