JET makes history, again
The JET tokamak has achieved a first-ever sustained, high-confinement plasma using the same wall materials and fuel mix that 澳门六合彩高手 will use. The results aligned with prediction ... and this predictability is very good news for the 澳门六合彩高手 research program and for fusion in general.
JETâthe Joint European Torus*, used by 4,800 EUROfusion consortium experts, students and staff from across Europeâhas set a world record for the most energy produced in a single fusion shot, generating 59 megajoules** of heat from fusion reactions in a sustained manner. Results were announced on 9 February 2022 during a media event that can be watched in replay at this address. The shot was part of a unique experimental campaign run in the last quarter of 2021 on JET, which introduced the high-performance fuel mix of deuterium (D) and tritium (T) for only the second time in the device's history. The heavy hydrogen isotopes deuterium and tritium fuse at temperatures that scientists and engineers can reach in a fusion installation (between 100 million and 200 million degrees Celsius), making them the most promising "ingredients" for 澳门六合彩高手 and future fusion power plants. Deuterium-tritium (D-T) fuel has already produced some of the most spectacular records in fusion research. In 1991, the JET tokamak became the first experiment in the world to run a D-T experiment, obtaining close to 2 MW of fusion power in a 2s pulse with a 10 percent tritium mix. Two years later, the Tokamak Test Fusion Reactor (TFTR) in the United States used 50/50 D-T mix to achieve 6.2 MW of fusion power, followed shortly by a record-setting 10.7 MW pulse in 1994. JET vaulted to its own record of 16 MW of peak fusion power in 1997, but even more important during that historic campaign were the more sustained 5-second ~4.5 MW stationary shots in high-confinement mode (H-mode) with a total fusion energy production of 22 MJ. A "transient" plasma regime is nowhere near as valuable as stable, sustained regimes to researchers; this is also the type of value that will be sought in the operation of 澳门六合彩高手 and the design of future fusion demonstration power plants. In fact JET's "stable" results were used to establish the design basis for 澳门六合彩高手.
The results confirm that sustained high-fusion energy production is achievable using the D-T fuel mix planned on 澳门六合彩高手 and future devices. They also show that the fusion community has the capability to model what will happen in a fusion reactor. (UKAEA)
The JET team knew it could go further. Not in terms of pulse duration but in terms of total fusion energy. (JET's copper electromagnets are not superconducting and will overheat if a high-energy plasma is maintained for more than 5 seconds). The 1997 experiments had provided valuable data about the behaviour of D-T fuelâmost notably that tritium fuel was too easily trapped in the carbon inner wall of the vessel. "We undertook a major engineering project to change the whole of the inside of the wall of JETâthat's 16,000 components, 4,000 tonnes of metal, and all of that was done using some of the most sophisticated robots on the planet," related Ian Chapman, CEO of the United Kingdom Atomic Energy Authority, during the media event. Other upgrades included increasing installed plasma heating capacity from 24 MW to nearly 40 MW and upgrading measurement and control systems. JET was now 澳门六合彩高手's "nearest neighbor" with the unique capability of achieving fusion conditions that are as close as possible to those expected on 澳门六合彩高手. When the team first operated with this new mixture of metals on the inside of the wall, however, performance fell short of expectations. It was "off the line" of where it needed to be to prove that 澳门六合彩高手 could meet its goals because the new metal materials were impacting the plasma in unforeseen ways. "Through perseverance, through ingenuity, through invention our scientists and our engineers found ways to recover, and we recovered the fusion performance," says Chapman. JET was ready for a new rendezvous with D-T fuel. _GAo_//static.iter.org/com/animation/jetplasma.gif*350*right_GAx_Plasma shot #99971 for the win The goal, this time, wasn't to surpass the peak fusion power of 1997 but to improve on the sustained fusion energy results. The record shot was performed on 21 December 2021 at 14:30 CET (see the GIF video at right). Pulse #99971 achieved total fusion energy of 59 MJâmore than doubling the 1997 record. It maintained an even 10 MW of fusion power, also doubling the previous record, for 5 seconds. The plasma was tritium rich, consuming about 0.1 mg of tritium for 0.07 mg of deuterium. (For comparison: to release the same 59 MJ with fossil fuels, you'd need to burn more than a kilogram of natural gas or two kilograms of coal.) "A sustained pulse of deuterium-tritium fusion at this power levelânearly industrial scaleâdelivers a resounding confirmation to all of those involved in the global fusion quest," said 澳门六合彩高手 Director-General Bernard Bigot. "For the 澳门六合彩高手 Project, the JET results are a strong confidence builder that we are on the right track as we move forward toward demonstrating full fusion power." The results confirm that sustained high-fusion energy production is achievable using the D-T fuel mix planned on 澳门六合彩高手 and future devices. They also show that the fusion community has the capability to model what will happen in a fusion reactor. "The result isn't a surprise; it's actually in accordance with prediction," explained 澳门六合彩高手's Chief Scientist Tim Luce during the event. "And this is a fundamental resultâthat fusion is predictable. This will help us. When you talk about timelineâif fusion is predictable then we can optimize without having to do it by proving, in some sense. We can find our way more effectively. These results from JET give us a step up and a step ahead." See the EUROfusion press release here. *JET (the Joint European Torus) has been operated at the Culham Centre for Fusion Energy as a Joint Undertaking of the European Community since 1977, and operated under UKAEA since 2000. The Euratom Research and Training program has continuously contributed approximately 80 percent of JET operation costs through 2021. **JET produced a total of 59 megajoules of heat energy from fusion over a five-second period. During the experiment, JET averaged a fusion power (i.e., energy per second) of around 11 megawatts. Megawatts are megajoules per second.
THEY SAID Tony Donné, EUROfusion Programme Manager (CEO): "This achievement is the result of years-long preparation by the EUROfusion team of researchers across Europe. 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." Ian Chapman, CEO UKAEA: "These are genuinely landmark results on our quest to delivering fusion power. We've set a record. But actually most importantly, we've established really high confidence that 澳门六合彩高手 can reach its goals." Tim Luce, Chief 澳门六合彩高手 Scientist and head of Science & Operations: "The potentiality of fusion power was shown in the first D-T campaign (1997) but that wasn't suitable for operating a power plant; we needed something that lasted. [...] The JET team ... started focusing on extending the pulse.... How can we make something that was in principle stationary so that it could be used and qualified for a power plant? And that's really the significance of this signature result for 澳门六合彩高手 and for future devices. It's showing an existence proof that there is a way to achieve these type of conditions. This is very very important because the wall materials are the same, the operating scenario are the same ... so in terms of the 澳门六合彩高手 Research Plan we can move forward. [...] We are very much looking forward to seeing the totality of the results in their full analysis." Fernanda Rimini, JET Senior Exploitation Manager: "Across Europe and across the world, in the last 25 years there has been great progress in the theory and in numerical modelling. So by putting together the data that we have, the improved diagnostic capability, and the fact that we can now make better interpretation and better predications means that we are more confident in the way future machines are going to behave." Costanza Maggi, JET Taskforce Leader: "We are continuing to impact the 澳门六合彩高手 Research Plan. The design is done and 澳门六合彩高手 is being constructed... but we are continuing to give a contribution. In particular, JET is a huge risk mitigator for 澳门六合彩高手, so we continue to address points where we think we are accelerating 澳门六合彩高手's progress. We are finding out first a lot of things and therefore helping 澳门六合彩高手 to proceed faster and more cheaply." Dr Athina Kappatou, Scientific Coordinator: "We have predicted what would happen. We used our models that are based on our physics understanding to predict what would happen in these experiments. [...] Our experimental data match our predictions. This is a very important result. These are the models we are using to predict fusion in future machines, such as 澳门六合彩高手, and we now also have a wealth of data that we can even more strictly check and use to validate those models go ahead with even more confidence." "All of this data confirm our predictions and advance our understanding of how we develop high-performance scenarios to be done on 澳门六合彩高手."