The new Basel Rhine Tunnel project in Switzerland is a complex arrangement of tunnels, retaining walls, bridges and foundations – but thankfully, Allplan Bridge can help keep the design on track

Allplan Bridge is being utilised in the development of a new tunnel to relieve the chronically congested Basel city highway, providing a new link between two junctions.

Scheduled for completion in 2029, the tunnel will include a two-lane tube in each direction and substantial surrounding new infrastructure construction.

Rapp AG is a member of the Basilea engineering consortium (partners: Gruner AG,
movIng AG, Bänziger Partner AG) and is working on a large part of the engineering
structures in front of the tunnel portals on behalf of the Federal Roads Office, FEDRO. This 10-year project is incredibly complex, which is why Rapp AG has chosen Allplan and Allplan Bridge as its 3D bridge modelling tool of choice.

The development will ease both congestion and noise disruption

The new tunnel runs in two directions. From the direction of France/Germany, the tunnel starts at the Birsfelden junction and ends north of the Badischer Bahnhof station.

There, the lanes connect to the existing bridge structures. From the direction of
France, the Klybeck exit will be used as a connection for the Rhine tunnel. From
Germany, a new exit ramp will be built at the existing border bridge. As well as relieving road congestion and increasing safety, the project will also improve noise protection in the area with sound-absorbing cladding and low-noise pavement.

Challenging and complex

The new artificial structures and the currently existing road alignments lie on top of each other on up to four levels. In addition, the structures have many complex geometric shapes, which have irregular forms in all directions.

The overpass port railroad is another challenging area. The port railroad is a threespan bridge of around 80m in length with a trough-shaped cross-section prestressed in the longitudinal direction. In plan view, the structure crosses the new roadway in the direction of the Rhine tunnel in a very circular manner. Adjacent to it are retaining walls with complex geometric shapes. The trough shape of the bridge merges into the retaining wall and its line then runs out in the portal structure of the tunnel.

The overpass is founded on drilled piles, the construction of which is anything but simple. Some of the substructures are being built directly next to an operating rail line within an excavation pit that is around 10m deep. In the construction sequence, the new bridge slab will be built next to the operating rail bridge and moved to its final position with a transverse installation during a four-month closure of rail operations.

3D modelling benefits

Given the complicated layout, the 3D model has been of great benefit for identifying spatial collisions for the Rapp AG team. Even at an early stage of the detailed design, there is already a high level of detail in the 3D model.

With Allplan, the complex geometric shapes of the structures can be processed efficiently within the dynamic design process. In addition, the self-checking, the rapid generation of sections at any desired point and the realistic visualisations also help make the design process much easier.

“Scheduled for completion in 2029, the tunnel will include a two-lane tube in each direction and substantial surrounding new infrastructure construction. “

Parametric design was another important feature of Allplan Bridge that is helping deliver this project efficiently. Thanks to the parametric model, changes are made quickly and efficiently – and there are many changes in projects of this type. A change only has to be made at one point and subsequently, all elements linked to it are automatically adjusted. Parametric design was also used to easily map the excavations in Allplan Bridge.

Making the leap with Allplan Bridge

Rapp AG has been working with Allplan software since 2018.

Team leader Larsen Szulerski is more than satisfied with what has been achieved so far: “We have been in an ongoing learning process for the past two years and are happy about any progress. This can be measured not only in terms of improved efficiency but much more in terms of the new possibilities that ultimately lead to a higher quality of our work. On this path, however, we must have the courage and openness to try out new things. That’s the only way we can continue to develop.”

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*Please note: This is a contributor profile.

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The post How Allplan will bridge the gap with the Basel Rhine Tunnel appeared first on Planning, Building & Construction Today.

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How Allplan will bridge the gap with the Basel Rhine Tunnel
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