£6.7m Government backing for UK project is huge boost for hydrogen

Tyseley Energy Park will host a world-leading ammonia to hydrogen project after securing Government backing.

£6.7 million BEIS backing awarded to the Tyseley Ammonia to Green Hydrogen Project, led by Gemserv, through the Net Zero Innovation Portfolio Low Carbon Hydrogen Supply 2 Competition.

Around £6.7 million from the Department for Business, Energy and Industrial Strategy (BEIS) has been awarded to a consortium, led by Gemserv, to deliver the Tyseley Ammonia to Green Hydrogen Project, through the Net Zero Innovation Portfolio Low Carbon Hydrogen Supply 2 Competition.

The project aims to design, build, commission, and operate the world’s largest and most efficient ammonia to hydrogen conversion unit of its kind. The demonstration unit is based on innovative technology developed by H2SITE and is located at Tyseley Energy Park, a strategic energy and resource hub in the West Midlands.

Addressing the challenge of hydrogen transportation

It forms part of the UK Government’s commitment to enable 10GW of hydrogen production capacity by 2030, with projections indicating that hydrogen will form up to 35 per cent of UK final energy consumption by 2050. The ability to both effectively store large quantities of energy under a dispatchable form, and make use of cost-effective hydrogen generation located far from end users, will be key to delivering the security and flexibility required by the future energy system. However, at present, the economics and efficiency limitations of transporting hydrogen over long distances present barriers for widespread adoption.

The project aims to address these challenges by harnessing technology innovation and well-established ammonia supply chains, and in doing so, position the UK at the forefront of an emerging global market. The demonstration unit will deliver 200kg/day of transport-grade hydrogen to an existing and co-located hydrogen refuelling station, equipped to service buses, goods vehicles and passenger cars.

The consortium estimates that over 97,000 jobs and £16bn GVA could be delivered in the UK through early investment in cracking technologies that enable the use of ammonia as a hydrogen carrier. The consortium is actively pursuing opportunities for investment in order to roll out further sites in the UK.

World-leading innovation

Energy Minister, Greg Hands said: “The UK is truly leading the world in hydrogen innovation thanks to the exciting efforts of companies such as those delivering the Tyseley Ammonia to Green Hydrogen project.

“The government support which they have received today will help to boost the development of hydrogen as the clean, affordable, homegrown superfuel of the future.”

Alex Goody, CEO at Gemserv, said: “Gemserv is thrilled to be leading the Tyseley Ammonia to Green Hydrogen consortium to deliver this ground-breaking innovative project. As a company, we strive to be at the heart of the energy transition, supporting our partners to deliver the technologies and solutions required for net zero. Hydrogen is a key solution for decarbonising the energy sector and we are excited to be a part of this project which will help to deliver low cost, low carbon hydrogen for the future energy system.”

Committed to decarbonisation

David Horsfall, director at Tyseley Energy Park said: “We are delighted that our low and zero carbon refuelling station will be the base of a first-of-a-kind green ammonia to hydrogen facility. At Tyseley Energy Park (TEP) we are committed to working with partners, to find solutions that will underpin the transition to low or zero carbon future and this project will put Birmingham and the West Midlands at the forefront of the next green industrial revolution.”

Professor Martin Freer, director of the University of Birmingham’s Energy Institute said: “The University of Birmingham is proud to support the development of this world-leading ammonia to hydrogen conversion unit at Tyseley Energy Park. Over the past five years we have been working with TEP to drive the decarbonisation of heat, transport, recycling and energy systems across the region and will ensure this project is linked into the many opportunities available at TEP.”