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Title |
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01 Oct 2018 |
ITER toroidal field coils ITER's 18 powerful toroidal field magnets will generate a magnetic field of 11.8 T (approximately one million times stronger than that of the Earth). In this poster, the European Domestic Agency for ITER, Fusion for Energy, shows how the D-shaped coils are manufactured. |
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05 Nov 2018 |
ITER worksite (with labels) The European Domestic Agency, Fusion for Energy (F4E), is responsible for the construction of the 39 buildings of the ITER scientific installation plus infrastructure. This F4E poster will give you a guided tour of site layout. |
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08 Apr 2019 |
ITER worksite (without labels) The European Domestic Agency, Fusion for Energy (F4E), is responsible for the construction of the 39 buildings of the ITER scientific installation plus infrastructure. Here's how the installation will look when it's completed. |
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05 Feb 2021 |
ITER construction (updated January 2021) The ITER Organization entered an important phase of its history in August 2010, when construction began on the first of 39 buildings and technical areas of the ITER scientific installation. Today, work is accelerating on the Tokamak Complex and ancillary buildings. Format: A1 (23.39" x 33.11", 300dpi RGB) |
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05 Feb 2021 |
ITER assembly (updated January 2021) The ITER Organization has the responsibility of integrating and assembling the components delivered to the ITER site by the seven ITER Members. Machine assembly was launched in May 2020; five years will be necessary to complete first-phase assembly tasks. Format: A1 (23.39" x 33.11", 300dpi RGB) |
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25 Oct 2016 |
ITER Tokamak and plant systems, 2016 (A1) The most recent rendition of the Tokamak and plant systems. Format: A1 (23.39" x 33.11") |
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25 Oct 2016 |
ITER Tokamak and plant systems, 2016 (300 dpi) The most recent rendition of the Tokamak and plant systems. Format: 300dpi - 1022x500mm (40.24"x 19.69") |
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05 Feb 2016 |
The ITER Tokamak ITER will be the world's largest tokamak (from a Russian acronym meaning "toroidal chamber with magnetic coils"). The 23,000-tonne, 30-metre-tall machine will be the first fusion machine to produce net energy. Format: A1 (23.39" x 33.11") |
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03 Oct 2018 |
The ITER cryostat The stainless steel cryostat surrounds the ITER vacuum vessel and superconducting magnets and ensures an ultra-cool, high-vacuum environment. With a volume of 16,000 m³ it will be the world's largest stainless steel high-vacuum pressure chamber. Format: A1 (23.39" x 33.11") |
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05 Feb 2016 |
The ITER divertor Positioned at the bottom of the vacuum vessel, the divertor controls the exhaust of waste gas and impurities from the reactor and withstands the highest surface heat loads of the ITER machine. Format: A1 (23.39" x 33.11") |
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05 Feb 2016 |
Assembly tools The ITER Organization has overall responsibility for the integration and assembly of components delivered to the ITER site by the seven ITER Members. In order to successfully pre-assemble and manoeuvre hundreds of large components, a made-to-order set of 128 tools will be required. Format: A1 (23.39" x 33.11") |
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