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Interior of Alcator C-Mod showing the lower divertor channel at the bottom of the torus Divertor design for K-DEMO, a planned future tokamak experiment Divertor of COMPASS. In magnetic confinement fusion, a divertor is a magnetic field configuration which diverts the heat and particles escaped from the magnetically confined plasma to dedicated plasma-facing components, thus spatially ...
The Divertor Tokamak Test (DTT) is a planned superconducting tokamak currently under construction in Frascati, Italy. [1] It is set to be operated by the Italian government-sponsored research and development agency, ENEA, and will serve as a testbed for the construction of a DEMOnstration Power Plant. [2]
To deliver power to the fusion plasma in ITER, two heating neutral beam injectors will be installed. They are designed to provide the power of 17 MW each, through the 23 m beamlines, up to the four-meter diameter container: in order to deposit sufficient heating power in the plasma core instead of the plasma edges, the beam particle energy shall be about 1 MeV, thus increasing the neutral beam ...
ITER (initially the International Thermonuclear Experimental Reactor, iter meaning "the way" or "the path" in Latin [2] [3] [4]) is an international nuclear fusion research and engineering megaproject aimed at creating energy through a fusion process similar to that of the Sun. It is being built next to the Cadarache facility in southern France.
Bridge gaps between ITER and DEMO, planned fusion power 1000 MW: ST-F1 (Spherical Tokamak - Fusion 1) [56] Planned: 2027? Didcot: Tokamak Energy Ltd: 1.4 m / 0.8 m ? 4 T: 5 MA: Spherical tokamak with Q=3 and hundreds of MW planned electrical output (no longer mentioned by company as of 2024) STX (ST80-HTS) Planned: 2026? 2030? Culham: Tokamak ...
One researcher has described the magnetic confinement problem in simple terms, likening it to squeezing a balloon – the air will always attempt to "pop out" somewhere else. Turbulence in the plasma has proven to be a major problem, causing the plasma to escape the confinement area, and potentially touch the walls of the container.
[8] [9] However, the ITER experience suggests that development of a multi-billion US dollar tokamak-based technology innovation cycle able to develop fusion power stations that can compete with non-fusion energy technologies is likely to encounter the "valley of death" problem in venture capital, i.e., insufficient investment to go beyond ...
Some scenarios emphasized "fusion nuclear science facilities" as a step beyond ITER. [156] [157] However, the economic obstacles to tokamak-based fusion power remain immense, requiring investment to fund prototype tokamak reactors [158] and development of new supply chains, [159] a problem which will affect any kind of fusion reactor. [160]