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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.
In 2012, European Fusion Development Agreement (EFDA) presented a roadmap to fusion power with a plan showing the dependencies of DEMO activities on ITER and IFMIF. [30] Conceptual design to be complete in 2020 [30]: 63 Engineering design complete, and decision to build, in 2030; Construction from 2031 to 2043
ITER, an international experiment involving 35 countries, seeks to prove the viability of fusion energy by building a fusion device at St-Paul-lès-Duranc Jacobs Engineering To Design Key Safety ...
PPPL manages the U.S. ITER project activities together with Oak Ridge National Laboratory and Savannah River National Laboratory. The lab delivered 75% of components for the fusion energy experiment's electrical network in 2017 and has been leading the design and construction of six diagnostic tools for analyzing ITER plasmas.
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 ...
Full-fledged fusion reactor with tritium breeding and up to 500 MW output: CFETR (China Fusion Engineering Test Reactor) [57] Planned: ≥2024: 2030? Institute of Plasma Physics, Chinese Academy of Sciences: 7.2 m / 2.2 m ? 6.5 T ? 14 MA ? Bridge gaps between ITER and DEMO, planned fusion power 1000 MW: ST-F1 (Spherical Tokamak - Fusion 1) [58 ...
The assembly of ITER, the largest international fusion facility, began in 2020 in France, marking a crucial step toward demonstrating fusion energy's viability. With experiments set to start in the latter half of this decade and full-power experiments slated for 2036, ITER aims to pave the way for DEMO power plants, which experts believe could ...
The fusion took place in a 2.5 metres (8 ft 2 in) target chamber that was surrounded by 40 short tons (36,000 kg) of unenriched fission fuel, or alternately about 7 short tons (6,400 kg) of Pu or highly enriched uranium from weapons. The fusion system was expected to produce Q on the order of 25 to 30, resulting in 350 to 500 MW of fusion energy.