Paul Methven has been named as the inaugural CEO of UK Industrial Fusion Solutions responsible for the delivery of STEP – a prototype fusion energy plant to be built at West Burton in Nottinghamshire.
STEP will be led by UKIFS, a wholly owned subsidiary of the UK Atomic Energy Authority, with Professor Sir Ian Chapman remaining as the Group CEO.
The STEP programme aims to pave the way for the commercialisation of fusion energy and the potential development of a fleet of future fusion powerplants around the world, ensuring the UK remains at the forefront of a new technology and emerging industry.
Minister for Nuclear and Networks, Andrew Bowie, said: “The STEP programme is at the heart of our Fusion Strategy – key to making the potential of new fusion energy a commercial reality, and to drive economic growth.
“Paul Methven will bring a wealth of experience to the programme, working to deliver a fusion reactor by 2040 and to cement the UK’s place at the front of the global race to develop this cutting-edge technology.”
Professor Sir Ian Chapman said: “STEP has the potential to be a revolutionary programme, but it is highly complex and involves great uncertainties. It needs a brilliant CEO who can manage such complex engineering programmes and grow and unite a national endeavour to deliver fusion.
“Im Paul Methven, we have secured exactly that – a brilliant leader with a track record of working in complex major programmes that matter to the country and leading diverse teams in public-private partnerships. I am excited to work with Paul and his team to deliver STEP and make fusion power a reality.”
Paul joined the STEP programme in September 2020 from the Ministry of Defence, where he was Director of Submarine Acquisition at the Submarine Delivery Agency. In this role he was Programme Director for Dreadnought, the UK’s second largest major programme after HS2, and has previously led a number of other major and complex programmes across the MoD.
Fusion is said to have the potential to deliver safe, sustainable, low carbon energy for generations to come. It is based on the same processes that power the sun and stars.
When a mix of two forms of hydrogen are heated to extreme temperatures – 10 times hotter than the core of the sun – they fuse together to create helium and release huge amounts of energy.
Fusion energy has the potential to provide ‘baseload’ power, complementing renewable and other low carbon energy sources as a share of many countries’ energy portfolios. Achieving this involves working at the forefront of science, engineering, and technology.
