BIM Project New Plant in Graben-Neudorf
|Client||SEW-Eurodrive GmbH & Co. KG
|Architects||Studio Wolfhugel, Hoerdt, France and
Dill + Hauf Architects
|Structural Design||Engineering Office Grassl GmbH
Dimensions Bridge: Length: ~ 113.0 m | Width: ~ 22.0 m | Height: ~ 15.0 m
Number of Nodes: 323 | Members: 851 | Materials: 4 | Cross-Sections: 23
SWE-Eurodrive GmbH & Co. KG, a German family-owned company operating in the area of drive technology, expands its plant until 2019 at Graben-Neudorf. The existing plant with a size of 110,000 m² will almost be doubled. The main components of the extension is a factory building, a combined pedestrian and media bridge as well as a road bridge.
The planning of the whole project was carried out according to the BIM method. A digital entire structure has been already created in the design phase which has been specified in detail during further planning.
The engineering office Grassl GmbH from Stuttgart was responsible for the structural design. They created the supporting structure in Revit and Tekla Structures and used the direct interfaces to RFEM to perform the structural analysis there. Cross-section modifications from structural analysis were transferred back to Revit and Tekla Structures and updated at the building model.
The factory building is composed of single-storey production facilities with 28,000 m2 (Figure 1, top), a technical and administration building with offices and staff rooms (Figure 1, top left) as well as a high-bay warehouse (Figure 1, top centre).
Whereas cast-in-place concrete was mainly used in the technical and adminsitration building, reinforced concrete as well as precast prestressed concrete elements were used for the high-bay warehouse. Prefabricated columns restrained at the bottom with a length of 30 m and with a weight of up to 80 t as well as prestressed concrete girders with a length of 31.30 m were designed.
The one-storey production hall has a planning grid of 24 m x 24 m in which restrained prefabricated reinforced concrete columns are arranged. The roof structure consists of steel trusses with parallel-chord main beams a = 24 m and secondary beams a = 6 m.
Pedestrian and Media Bridge
The media bridge with an overall length of 106.20 m is designed as thermally insulated steel truss structure with a width of 3.40 m and a height of about 2.45 m. The spans vary, maximally 35.50 m are spanned in the subpanel. The pedestrian level is suspended as steel structure at the bottom by means of tension members on the media bridge.
Reinforced concrete columns form the bridge supports, which absorb vertical and lateral loads. A reinforced concrete shaft with stairs on the north side serves as fixed point to absorb the axial forces of the bridge.
Even after completion of this BIM flagship project, the advantages of this model-based planning will pay off. The client has then an entire structure with stored structural component information available which supports him in operation, maintenance, reconstructions etc.
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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
Stress analysis of steel surfaces and members
Design of steel members according to Eurocode 3
Reinforced concrete design according to the model column method (method based on nominal curvature)
Dynamic analysis of natural frequencies and mode shapes of member, surface, and solid models
Seismic and static load analysis using the multi-modal response spectrum analysis