Fusion energy pushed back beyond 2050 – BBC News

http://www.bbc.com/news/science-environment-40558758?SThisFB

It seems that using fusion energy will be promising looking “around the corner” technology for quite many years according to a new version of a European “road map”. The road map drawn up by scientists and engineers at EUROfusion lays out the technological hurdles to be overcome.

We will have to wait until the second half of the century for fusion reactors to start generating electricity, experts have announced.

The setback has been caused largely by delays to ITER.

117 Comments

  1. Tomi Engdahl says:

    It’s Confirmed! Laser Fusion Experiment Hit a Critical Milestone in Power Generation
    https://www.sciencealert.com/its-confirmed-laser-fusion-experiment-hit-a-critical-milestone-in-power-generation

    In December 2022, scientists at the US National Ignition Facility announced a historic milestone: for the first time, their laser-powered fusion reaction had ‘broken even’, producing more energy than it consumed.

    But advances as big as this need to be rigorously checked – and that can take some time.

    “This achievement is the culmination of more than five decades of research and gives proof that laboratory fusion, based on fundamental physics principles, is possible,” the team members of the Indirect Drive ICF (inertial confinement fusion) Collaboration write in the first of five papers.

    Reply
  2. Tomi Engdahl says:

    South Korean ‘artificial sun’ reaches 7 times the Sun’s core temperature
    The KSTAR fusion reactor has set a new H-mode record by sustaining 100 million degrees for over 100 seconds.
    https://interestingengineering.com/energy/south-korea-artificial-sun-new-record?utm_source=facebook&utm_medium=article_image

    For the first time, the Korea Institute of Fusion Energy’s (KFE) Korea Superconducting Tokamak Advanced Research (KSTAR) fusion reactor has reached temperatures seven times that of the Sun’s core.

    Achieved during testing between December 2023 and February 2024, this sets a new record for the fusion reactor project.

    Furthermore, it maintained the high confinement mode (H-mode) for over 100 seconds. H-mode is a stable plasma state that is better confined than low confinement mode.

    KSTAR: 7 times hotter than Sun
    Fusion is a process that mimics the same process that generates light and heat from stars. It involves fusing hydrogen and other light elements to release tremendous power that experts in the field hope to harness for unlimited, zero-carbon electricity. This is often called the ‘Holy Grail’ of the energy transition.

    According to Korea’s National Research Council of Science & Technology (NST), creating technology that can maintain high-temperature and high-density plasmas where the fusion reactions occur most effectively for extended periods is crucial

    According to NST, the secret behind these major achievements is tungsten divertors. These are vital components located at the bottom of the vacuum vessel in a magnetic fusion device.

    They play a crucial role in expulsing waste gases and impurities from the reactor while enduring substantial surface heat loads. The KSTAR team recently switched to using tungsten instead of carbon in its diverters.

    Tungsten has the highest melting point of all metals

    The success of tungsten diverters can provide invaluable data for the International Thermonuclear Experimental Reactor (ITER) project. ITER is a $21.5bn international fusion megaproject being developed in France by dozens of countries, including Korea, China, the US, the EU, and Russia.

    Reply
  3. Tomi Engdahl says:

    https://hackaday.com/2024/04/21/the-muse-permanent-magnet-stellarator-fusion-reactor-with-off-the-shelf-parts/

    When you think of a fusion reactor like a tokamak or stellarator, you are likely to think of expensive projects requiring expensive electromagnets made out of exotic alloys, whether superconducting or not. The MUSE stellarator is an interesting study in how to take things completely in the opposite direction. Its design and construction is described in a 2023 paper by [T.M. Qian] and colleagues in the Journal of Plasma Physics. The theory is detailed in a 2020 Physical Review Letters paper by [P. Helander] and colleagues. As the head of the Stellarator Theory at the Max Planck Institute, [P. Helander] is well-acquainted with the world’s most advanced stellarator: Wendelstein 7-X.

    Reply
  4. Tomi Engdahl says:

    A Tungsten Miracle Happened in the Heart of a Fusion Reactor
    This breakthrough in plasma stability brings the dream of endless energy even closer.
    https://www.popularmechanics.com/science/green-tech/a60738829/fusion-reactor-tungsten-breakthrough/

    Reply
  5. Tomi Engdahl says:

    Niek Lopes Cardozo: ‘Nuclear fusion is no longer 30 years away’
    MAY 17, 2024
    Nuclear fusion – a method that could produce a significant amount of the energy we’ll need and use in the future – looks destined for great things, according to retiring full Professor Niek Lopes Cardozo.
    https://www.tue.nl/en/news-and-events/news-overview/17-05-2024-niek-lopes-cardozo-nuclear-fusion-is-no-longer-30-years-away

    Reply
  6. Tomi Engdahl says:

    World’s largest nuclear fusion reactor is finally completed. But it won’t run for another 15 years.
    News
    By Ben Turner published 3 days ago
    ITER, a $28 billion fusion reactor in France, has finally had its last magnetic coil installed. But the reactor itself won’t fire up fully until 2039 at the earliest.
    https://www.livescience.com/physics-mathematics/worlds-largest-nuclear-reactor-is-finally-completed-but-it-wont-run-for-another-15-years

    Reply
  7. Tomi Engdahl says:

    The world’s largest experimental tokamak nuclear fusion reactor is up and running
    Located north of Tokyo, the six-story high JT-60SA could spur advancements towards the ‘Holy Grail’ of renewable energy.
    https://www.popsci.com/technology/japan-jt60sa-fusion-reactor/?fbclid=IwZXh0bgNhZW0CMTEAAR1d52HDo3y8j6L9fMw4sw8SE_eKwft8CBv14CYKkMKs_sqJu0nfwusbfEA_aem_ojMQ0PBBGaD9Oo8TazgxvA

    Reply
  8. Tomi Engdahl says:

    Marathon Fusion aims to optimize deuterium and tritium recycling in fusion reactors. https://ie.social/V5lnQ

    Reply
  9. Tomi Engdahl says:

    Nuclear fusion game-changer: New method can cut reactor design time by decade
    The team replaced a portion of the traditional thermal hydraulic and neutronics simulations with a trained machine learning model.
    https://interestingengineering.com/innovation/nuclear-fusion-method-cuts-reactor-design-time

    Researchers at Brigham Young University (BYU) have demonstrated a way to cut nuclear reactor development time by a decade or more.

    Currently, the designing and licensing processes for modern nuclear reactors take a long time. Licensing a new nuclear reactor design in the United States can take around 20 years and cost about $1 billion.

    Reply
  10. Tomi Engdahl says:

    Fusion reactor built at home in 4 weeks, neon transformer used to achieve plasma
    The undergrad’s experiment achieved plasma in the fourth week.
    https://interestingengineering.com/energy/fusion-reactor-built-at-home-plasma

    When the world is racing to develop a working fusion reactor, a student appears to have joined the race to meet the demand for clean and limitless energy. The University of Waterloo student has developed a fusion reactor in his bedroom in a few weeks.

    Hudhayfa Nazoordeen used a 12kV neon sign transformer that successfully produced plasma. To establish a vacuum and measurement system, the math student decided to use the MKS-901p transducer, which combines both absolute and differential pressure measurement technologies to provide superior performance and functionality.

    Without any hardware experience, the math student took just four weeks to complete this project. The first week was dedicated to design and sourcing parts from McMaster-Carr for his experiment.

    Reply
  11. Tomi Engdahl says:

    A fusion reactor was built at home in just four weeks, using a neon sign transformer to achieve plasma: https://link.ie.social/ajzOQv

    Fusion reactor built at home in 4 weeks, neon transformer used to achieve plasma
    The undergrad’s experiment achieved plasma in the fourth week.
    https://interestingengineering.com/energy/fusion-reactor-built-at-home-plasma?fbclid=IwY2xjawFCdbhleHRuA2FlbQIxMQABHX-k4jaxrhAQtcc92e3fQaqrMGJYA2wTDdGQ4ovqo9mFQI-1MgfjefV1jg_aem_WBiMz-nV4Ca1RJzFLKCiNQ

    The University of Waterloo student has developed a fusion reactor in his bedroom in a few weeks.

    Hudhayfa Nazoordeen used a 12kV neon sign transformer that successfully produced plasma. To establish a vacuum and measurement system, the math student decided to use the MKS-901p transducer, which combines both absolute and differential pressure measurement technologies to provide superior performance and functionality.

    Reply
  12. Tomi Engdahl says:

    Japan’s tokamak sets world record, achieves plasma volume of 160 cubic meters
    JT-60SA uses extremely powerful magnets cooled to nearly -452 degrees Fahrenheit to hold plasma that reaches 212 million degrees Fahrenheit.

    Updated: Oct 05, 2024 06:11 AM EST
    https://interestingengineering.com/energy/world-largest-tokamak-jt-60sa-plasma

    Reply
  13. Tomi Engdahl says:

    The world’s newest stellarator, a type of nuclear fusion reactor from the Princeton Plasma Physics Laboratory, was built in less than a year and cost just $640,000. The invention stands in contrast to more prominent stellarators like Germany’s Wendelstein 7-X, which took $1.1 billion and more than 20 years to construct.

    Feature
    Nuclear Fusion’s New Idea: An Off-the-Shelf Stellarator
    Fast prototyping
    https://spectrum.ieee.org/the-off-the-shelf-stellarator?share_id=8482512&socialux=facebook&utm_campaign=RebelMouse&utm_content=IEEE+Spectrum&utm_medium=social&utm_source=facebook&fbclid=IwZXh0bgNhZW0CMTEAAR2fdMNLCBF3uXOU7wC6Ye7NyTG2K-06gci7SEcbbhND71L2Ju6G0RiQpl4_aem_LfxkRhATcz0dvbXVpwvGHw

    Reply

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