- Bramble Energy is the lead partner of the HEIDI project, collaborating with Equipmake, Aeristech, and the University of Bath
- HEIDI has received £6.3m funding via the Advanced Propulsion Centre, matched by industry to £12.7m
- Bramble Energy’s innovative, low-cost printed circuit board fuel cell (PCBFCTM) technology will power an all-new hydrogen double-deck bus
- Revolutionary printed circuit board fuel cell stacks provide a viable route for hydrogen and can be manufactured in almost any size or arrangement at a much faster speed and scale than traditional electrochemical stacks
- The project is expected to support nearly 500 jobs over the next decade and save nearly 6 million tonnes of CO2 from being emitted
- High-res media images: https://bit.ly/BrambleEnergy_HEIDI
Bramble Energy, an innovator in fuel cell technology, has joined forces with Equipmake, Aeristech, and the University of Bath to develop a revolutionary new hydrogen double-deck bus integrating Bramble’s revolutionary, low-cost printed circuit board fuel cell (PCBFCTM) technology.
Bramble Energy is the lead partner of the Hydrogen Electric Integrated Drivetrain Initiative (HEIDI) which has received £6.3m funding from the Advance Propulsion Centre as part of the Automotive Transformation Fund. The £6.3m awarded by the government will be matched by industry to a total of £12.7m.
The UK-based consortium will develop a hydrogen-powered double-deck bus, using a first-of-its-kind fuel cell technology from Bramble Energy; Aeristech’s high-efficiency air compressor, and Equipmake’s motor power electronics and battery management system. The powertrain will be optimized through vehicle simulations carried out by the University of Bath.
Bramble Energy has been selected for this project due to its revolutionized fuel cell design and manufacturing process. Using a patented-protected printed circuit board technology, it can create bespoke fuel cell stacks in a matter of days at scale and low cost. Bramble’s PCB technology eliminates the requirement for a number of complex and costly components found in a typical electrochemical stack, which not only simplifies the supply chain but also does not require vast retooling for manufacture.
The fuel cell stacks can be produced in almost any size and arrangement according to the end customer’s needs. The result is an unparalleled cost-effective solution to supporting and accelerating the decarbonization of public transport and improving air quality in towns and cities around the world.
Dr Vidal Bharath, CCO at Bramble Energy commented: “Fuel cell technology can deliver a viable net zero solution that lends itself to commercial vehicles where downtime needs to be limited. This consortium of partners means that we will be able to deliver a world-leading hybridized powertrain, utilizing our innovative low-cost PCBFC™ technology for the bus sector, where there needs to be a viable electrified solution that can deliver on cost and scalability.”
In support of ambitions to build an end-to-end supply chain for zero-emission vehicles (ZEVs) in the UK, the project is expected to support nearly 500 jobs over the next decade and save nearly 6 million tonnes of CO2 from being emitted.
The UK-based consortium in the HEIDI project will support fuel cell manufacturing in the UK for buses and commercial vehicles and, using a novel, low-cost method to manufacture fuel cells will accelerate the cost reduction of fuel cells, their use across society, and the reduction of CO2 emissions.
Follow us on social media: