HS2’s first giant pier for 1400m long Water Orton Viaducts complete


HS2, UK, viaduct, Warwickshire,


HS2’s contractor, Balfour Beatty VINCI completes the first of 32 giant piers for the 1400m long Water Orton Viaduct in Warwickshire.

HS2 has completed the first of 32 giant piers for the first Water Orton Viaduct as work ramps up to build the Delta Junction, the project’s most complex network of structures in the West Midlands.

HS2’s main works contractor for the West Midlands, Balfour Beatty VINCI (BBV) is building the 1,400 metre long northbound and southbound structures, which will connect HS2’s Birmingham Curzon Street Station with Crewe and Manchester.

They are part of the Delta Junction, which is a triangular section of the high-speed railway made up of 9 precast segmental viaducts, embankments, and other bridging structures, with around 10km of track crossing a network of motorways, roads and rivers.

Reaching 20 metres tall at its highest point, the two Water Orton Viaducts will be amongst the tallest structures along the HS2 route, taking trains over key transport corridors including the M42, the Birmingham to Peterborough rail line and the River Tame.

The pier was built in situ with a bespoke formwork designed specifically for the project, and with a fully prefabricated reinforcement cage, assembled in the rebar factory located near Coleshill.

The piers will support the deck, which will be built using an innovative construction method and bespoke machinery. The deck segments will be produced at HS2’s nearby outdoor purpose-built Kingsbury factory near Lea Marston. The factory is making a total of 2,742 segments for the entire Delta Junction, generating over 6km of post tensioned viaduct. The segments will be transported to site using haul roads to reduce HS2’s impacts on local roads.

To reduce environmental impacts, HS2’s engineers have incorporated Ground Granulated Blast-furnace Slag (GGBS) – a by-product of the steel manufacturing industry – into the structures as an eco-friendly concrete alternative to a traditional concrete mix, reducing carbon use by more than 60%. 

“This is another key moment for HS2 in the West Midlands as work ramps up on one of the most complex sections of the whole route. The Delta Junction is HS2’s key interchange where the new zero-carbon high-speed railway will connect between London, the Midlands and the North,” says HS2 Senior Project Manager for Delta Junction Sam Hinkley.

“Minimising disruption to local communities in this area has been a key consideration in our planning, including the use of innovative pre-cast construction techniques and haul roads to take lorries off local roads,” says HS2 Senior Project Manager for Delta Junction Sam Hinkley.

After the piers are constructed, the viaduct spans will be built by raising each segment from a temporary suspension tower erected on top of each pier. When each span is complete, the suspension tower will be disassembled and moved further along the viaduct to build the next span.

An innovative ‘match-casting’ technique means that each viaduct segment is cast against the following segment in a production line, creating a seamless viaduct deck when installed. Each segment is uniquely precise and adjustable by as little as 5mm. This approach – where each segment is poured against the previous one – ensures the whole arch fits perfectly when assembled on site.

“Witnessing the removal of the shuttering to reveal the first completed pier for Water Orton Viaduct was an important occasion for the 1,100 people who make up the Delta workforce,” says Balfour Beatty VINCI Construction Director David Waite.

“With the production line at the Kingsbury pre-cast factory now in full swing, we will start to see the viaduct take shape over the coming months, with the first span due to be completed early next year,” says Balfour Beatty VINCI Construction Director David Waite.

Once built, the area underneath the viaduct will be landscaped to provide a connected and accessible area with tree planting, new wildlife habitats, footpaths and cycle routes.

Source: © High Speed Two Ltd 2023

Image source: © High Speed Two Ltd 2023

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