
National Grid pioneers UK-first trial of 3D printed technology for low-carbon substations
- Collaboration with Hyperion Robotics and the University of Sheffield will trial low-carbon 3D-printed concrete foundations including at National Grid’s Deeside Centre for Innovation in North Wales
- Innovation could reduce waste, carbon emissions and costs to consumers of network construction
- If rolled out across National Grid substations the technology could save up to 705 tons of concrete and 323 tons of CO2 and deliver £1.7 million in consumer savings versus traditional methods over a 10-year period
National Grid is working with Hyperion Robotics and the University of Sheffield on a UK-first trial to manufacture, install and test 3D-printed substation foundations, which have the potential to reduce construction-driven carbon emissions and reduce costs to consumers of network construction. This is part of National Grid’s commitment to leverage innovation to future-proof the network.
If the project is successful and the technology is rolled out across all National Grid substations, it is estimated it could save up to 705 tons of concrete and 323 tons of CO2 over a 10-year period, and deliver £1.7 million in consumer savings versus traditional methods.
The foundation design will deliver significant savings across the entire value chain:
- 70% reduction in concrete usage
- 80% less soil displacement
- 65% decrease in embodied carbon emissions
- 70% weight reduction compared to typical foundations
- 50% reduction in site operative hours, streamlining production
The foundations will be designed and produced in Finland by Hyperion Robotics, and tested at full-scale by the University of Sheffield. Further field testing will then be carried out at National Grid’s state-of-the-art testing facility, the Deeside Centre for Innovation in North Wales, later in 2025.
Dr Muhammad Shaban, Lead Innovation Engineer at National Grid Electricity Transmission, said:
Our collaboration with Hyperion Robotics is a real step forward in achieving more innovative construction practices which align with our bold and ambitious commitments on sustainability. This trial of low-carbon 3D printed alternatives to concrete for substation foundations is the first of its kind in the UK, and has the potential to transform construction activities across the industry. The project has been funded by Ofgem’s Network Innovation Allowance, which provides an allowance to energy network licensees to fund innovation projects that have the potential to deliver longer term financial and environmental benefits for consumers.
Fernando De los Rios, Hyperion’s CEO and founder, said:
Collaborating with National Grid, one of the world's largest utility companies, marks a pivotal moment for Hyperion Robotics as we advance our mission to help the industry build smarter and greener. This partnership accelerates our efforts to decarbonise the construction sector through cutting-edge engineering and low carbon 3D-printed concrete structures. Through this collaboration, National Grid is setting an inspiring global benchmark for innovation and sustainability in the energy sector.
Dr Behzad Nematollahi, Deputy Lead of the Structural Engineering Research Group at the School of Mechanical, Aerospace and Civil Engineering at the University of Sheffield, said:
We are delighted to be collaborating with Hyperion Robotics and National Grid on this innovative project. To ascertain the load-bearing capacity of the 3D-printed concrete foundations, we will conduct full-scale testing using state-of-the-art engineering testing facilities at the Intelligent Infrastructure Laboratory located at ICAIR, the Integrated Civil and Infrastructure Research Centre at the University of Sheffield.