Dublin City University’s National Centre for Plasma Science and Technology (NCPST) among the 30 member institutes of EUROfusion.
Safe and sustainable low-carbon energy
Record results that were recently announced are the clearest demonstration in a quarter of a century of the potential for fusion energy to deliver safe and sustainable low-carbon energy.
The interior of the Joint European Torus (JET) fusion experiment
Researchers from the EUROfusion consortium – 4,800 experts, students and staff from across Europe, co-funded by the European Commission – used the Joint European Torus (JET) device to release a record 59 megajoules of sustained fusion energy.
Professor Miles Turner from Dublin City University's NCPST, National Centre for Plasma Science and Technology said: "This outcome is the result of 20 years of work by the EUROfusion team, with a significant contribution from DCU.
"Even more important than the headlines is that these results give confidence that the much larger ITER experiment will perform as intended when it starts in 2025. Consequently, this is a big step forward for fusion power as a future low carbon energy source."
This achievement on JET, the largest and most powerful operational tokamak in the world at the UK Atomic Energy Authority (UKAEA) site in Oxford, more than doubles the previous fusion energy record of 21.7 megajoules set there in 1997.
Dedicated experimental campaign
It comes as part of a dedicated experimental campaign designed by EUROfusion to test more than two decades’ worth of advances in fusion and optimally prepare for the start of the international ITER project.
The record and the scientific data from these crucial experiments are a major boost for ITER, the larger and more advanced version of JET. ITER is a fusion research project based in the south of France.
Supported by seven members – China, the European Union, India, Japan, South Korea, Russia and the USA – ITER aims to demonstrate the scientific and technological feasibility of fusion energy.
As pressures mount to address the effects of climate change through decarbonising energy production, this success is a major step forward on fusion’s roadmap as a safe, efficient, low carbon means of tackling the global energy crisis.
The Joint European Torus (JET) fusion experiment
Dr Bernard Bigot, director general of ITER, said: “A sustained pulse of deuterium-tritium fusion at this power level – nearly industrial scale – delivers a resounding confirmation to all of those involved in the global fusion quest. For the ITER Project, the JET results are a strong confidence builder that we are on the right track as we move forward towards demonstrating full fusion power.”
Prof Tony Donné, EUROfusion programme manager (CEO), said: “This achievement is the result of years-long preparation by the EUROfusion team of researchers across Europe.
'On the right path'
"The record, and more importantly the things we’ve learned about fusion under these conditions and how it fully confirms our predictions, show that we are on the right path to a future world of fusion energy. If we can maintain fusion for five seconds, we can do it for five minutes and then five hours as we scale up our operations in future machines.
"This is a big moment for every one of us and the entire fusion community. Crucially, the operational experience we’ve gained under realistic conditions gives us great confidence for the next stage of experiments at ITER and Europe’s demonstration power plant EU DEMO, which is being designed to put electricity on the grid.”
Prof Ian Chapman, UKAEA’s CEO, added: “These landmark results have taken us a huge step closer to conquering one of the biggest scientific and engineering challenges of them all. It is reward for more than 20 years of research and experiments with our partners from across Europe.
"It’s clear we must make significant changes to address the effects of climate change, and fusion offers so much potential. We’re building the knowledge and developing the new technology required to deliver a low-carbon, sustainable source of baseload energy that helps protect the planet for future generations. Our world needs fusion energy.”
Prof Volker Naulin, head of the Fusion Science Department at EUROfusion, said: "As EUROfusion we designed this experimental campaign at JET to optimally prepare for the start of ITER by investigating the energetic processes that will come into play there and to prepare the next generation of fusion researchers.
"The experiments confirmed our predictions, motivating us in doing our best to ensure a timely success of ITER operation. The results are support for an early decision for a European DEMO power plant, as fusion is needed for long-term decarbonisation of our energy supply.”