What the UK Fusion Strategy Means for Climate Action and Energy Planning
Free and open to all
The UK has recently reaffirmed its ambition to be a global leader in fusion energy research and development, positioning fusion as a potential long‑term component of a low‑carbon energy system. For those concerned with climate action, this raises important questions:
- Where does fusion genuinely sit on the path to net zero?
- How mature is the technology?
- What needs to happen now for fusion to contribute responsibly and credibly in the decades ahead?
This webinar will provide an accessible overview of the current state of fusion energy research in the UK, with a particular focus on the often‑overlooked engineering challenges that must be addressed to translate scientific success into deployable, regulated, and environmentally responsible energy infrastructure.
This talk will be led by Professor Lee Margetts, an accomplished academic and leader in the field of mechanical engineering. Drawing on the work of his research group and the UK Fusion Engineering Centre for Doctoral Training (CDT), he will discuss how engineering integration, materials, digital design, skills development, and systems thinking underpin the UK’s fusion strategy.
Rather than presenting fusion as a near‑term solution to the climate crisis, the talk will frame it as a strategic, long‑horizon investment whose value depends on realistic timelines, rigorous environmental assessment, and alignment with broader energy‑system needs. Professor Lee Margetts will conclude by exploring what fusion does—and does not—offer to UK climate action today, and how research, training, and governance choices made now shape whether fusion can become a credible part of a sustainable energy future.
This webinar is free and open to all - book now!
This webinar has been organised by our Climate Action Community.
Our speaker
Professor Lee Margetts is the UKAEA Chair of Digital Engineering for Fusion Energy at The University of Manchester and Director of the UK Fusion Engineering Centre for Doctoral Training (CDT). He leads a research group focused on computational methods, digital design, and engineering integration for complex energy systems, working closely with the UK Atomic Energy Authority. Through his research and leadership of the CDT, he contributes to the UK’s fusion strategy by developing both the engineering capability and skilled workforce required to translate fusion from laboratory research into credible, regulated, and sustainable national infrastructure.
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