HS2 has revealed a series of improvements to the design of the railway’s landmark Birmingham Curzon Street station – further enhancing the passenger experience, accessibility and internal layout.

Under the detailed plans, the station will be fitted with additional cycle parking, better accessibility, more seating spaces and simplified access between platforms. There will also be changes to the construction materials to boost efficiency and minimise maintenance. 

Consent for the station, based on an outline scheme design, was secured in 2020 from Birmingham City Council. Since that time, HS2 has appointed Mace Dragados Joint Venture (MDJV) as its construction partner, with responsibility for progressing the detailed design and construction of the station.

MDJV, working with their design partners Arcadis and WSP Joint Venture along with Grimshaw architects, have now revealed the proposed design refinements which will be submitted for approval to Birmingham City Council in late 2024.

Birmingham Curzon Street Station is set to become a key destination and thriving entry and departure point as part of Britain’s new high-speed railway. The building’s design is inspired by the great arched roofs built by the Victorian railway pioneers, and takes that inspiration into the 21st Century, ensuring accessibility and a focus on the open space and landscaping around it.

Passenger experience has been a key driver in the detailed design process, which incorporates a number of improvements to the station’s features. These include additional cycle parking; rainfall capture in planted areas, with landscaping, lighting, paving and seating spaces; better accessibility at pedestrian entrances; durable external ceramic tiling; and a more unified internal layout of the eastern concourse which allows passengers to change platforms without leaving the ticketed area, enhancing the experience of people using the station.

Further development of the materials being used will also improve construction efficiency, future-proof the station and minimise maintenance requirements over its 120-year life span.