![]() Needs tons of water, especially on hot plasma.Requires lots of external Industrial Turbines due to the obscene amount of steam produced.Self-sustainment is dependent on your setup.Requires expensive blankets, which will eventually need replacing.Plasma inside the reactor dissipates if it is turned off, making up to 16,000mb of plasma potentially wasted.The plasma heater is a separate machine.Doesn't need fusion cores to jumpstart plasma heaters.For example, Deuterium - Tritium plasma only provides 1 HEAT for breeding lithium into tritium, while Xenon - Mercury can provide 3 HEAT, and Balefire provides 4 HEAT. Hotter plasmas translate to more breeding HEAT. The fusion reactor has a small internal breeding reactor in the top left corner of the GUI. Neither of these events will ever happen if you know what you're doing. It will outright explode in a small Balefire Explosion, destroying most of the structure. ![]() However, if the reactor is running on Balefire plasma, the meltdown is much more severe. If you're lucky, none of the magnets will be destroyed and you can just pick up their item form and quickly repair it. And that's it, no radiation, no extreme damage, just a few magnets blown out. If run without a blanket or running out of power for the confinement magnets, a small explosion will occur, breaking some of the blocks. It produces Thermonuclear ashes as a byproduct. The most expensive and the hottest plasma, it is a whopping 8,500℃ (~15,332℉). It requires at least Desh for its blanket. It produces Chlorophyte powder as a byproduct, which makes this plasma type necessary if you want to use Balefire plasma. It produces ionized particles as a byproduct.Ī more expensive and hot plasma, it is 4,250℃ (~7,682℉). It produces ionized particles as a byproduct.Īnother cooler plasma, but a bit hotter than Deuterium-Hydrogen. It's also infinite.Ī plasma that is slightly cooler than the Deuterium - Tritium plasma with a temperature of 3,480℃ (~6,296℉). It produces ionized particles as a byproduct. It produces ionized particles as a byproduct.Ī cooler plasma, it is only 2,500℃ (~4,532℉). It will produce ~36 GHE, as compared to the old reactor's 51.2 GHE. The default plasma is Deuterium - Tritium plasma, which is 3,500℃ (~6,332℉). 1 large tank of deuterium and 1 large tank of tritium) and it does not take into consideration the power needed for the magnets and plasma heater. It is calculated using 1 large tank of both fuels (e.g. Has a nice vaporwave blue color in the reactor.ĭifferent plasmas give different heats. It requires 16 Tungsten blocks, 16 High-Speed Steel blocks, 48 neutron reflectors, and 48 Chlorophyte powders. It has a 4,500℃ (~8,132℉) melting point and 2,160,000 durability, twice as much as tungsten. It requires 16 Desh blocks, 16 Cobalt blocks, and 96 Saturnite plates. It requires 32 Tungsten Blocks and 96 neutron reflectors. They give the internals of the reactor different colors. Stronger ones have higher melting points and (usually) higher durabilities. ![]() The Fusion Reactor needs 4 things in order to run: Power for the magnetic containment, water (an obscene amount of it), a reactor blanket (think the tungsten lining from the old fusion reactor), and of course plasma.įusion reactor blankets essentially act as heat shielding for the reactor internally. Unlike most other multiblock machines, you don't need the Multiblock Marker, the core component itself creates the hologram. If you constructed the machine correctly, it will turn into a 3D model and function similarly to the Assembly Machine or Chemical Plant. 1 Fusion Reactor Core Component (The control computer).To construct the reactor properly, you will need: 3.2.6 Balefire (Antimatter - BF Rocket Fuel).
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