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Fusion reactors are not subject to catastrophic meltdown. [121] It requires precise and controlled temperature, pressure and magnetic field parameters to produce net energy, and any damage or loss of required control would rapidly quench the reaction. [122] Fusion reactors operate with seconds or even microseconds worth of fuel at any moment.
Prototype for development of Commercial Fusion Reactors 1.5–2 GW Fusion output. [61] K-DEMO (Korean fusion demonstration tokamak reactor) [62] Planned: 2037? National Fusion Research Institute: 6.8 m / 2.1 m: 7 T: 12 MA ? Prototype for the development of commercial fusion reactors with around 2200 MW of fusion power: DEMO (DEMOnstration Power ...
“Once the energy to a fusion device, also known as a fusion machine, is shut off, the fusion reaction ceases, making the devices much safer and a lower risk than a fission nuclear reactor ...
Once fusion has begun, high-energy neutrons at about 160GK will flood out of the plasma along with X-rays, neither being affected by the strong magnetic fields. Since neutrons receive the majority of the energy from the fusion, they will be the reactor's main source of thermal energy output.
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Fusion reactors use relatively little fuel and cannot be used for nuclear warfare. The core materials — deuterium and tritium — are theoretically plentiful. Deuterium is abundant and can be ...
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.
Nuclear fusion reactors that can generate fusion are usually much larger, like this now-retired Tokamak Fusion Test Reactor at PPPL. Princeton Plasma Physics Laboratory.