A complex facility which reprocesses radioactive material by isolating fission products (material that is no longer fissile and would slow down reaction if left in a reactor). Isolated waste decays faster, allowing it to be disposed of in a reasonable time span. The isolated waste is vitrified using molten glass into a solid form for easier storage.
Advanced thermal reactor that provides increased throughput. This reactor is also able to utilize MOX fuel. It can also regulate its power level automatically (if computing is provided). This plant can be set up to effectively provide up to {0} MW of electricity when running on full power.
If enabled, the reactor will regulate the target power based on the heat demand. The automated regulation will never go above the target power level (selected on the slider above). It also can't go below the first level (shutting the reactor down). The automation relies on the cooling loop; without it a rapid change in reactor's heat could lead to a meltdown. This regulation requires computing in order to operate.
Fast breeder reactor is a nuclear reactor in which the fission chain reaction is sustained by fast neutrons. This process needs highly enriched fuel and produces large amounts of heat. The core containing enriched fuel is surrounded by a blanket of fissionable material which is bombarded by the fast neutrons and transformed into fissile fuel. This process also allows to burn transuranic isotopes which would normally take thousands of years to decay. This reactor does not use solid fuel rods, instead, its fuel is dissolved in molten salt. It runs under higher operating temperatures to produce super pressurized steam (800 °C). If the core is overheated and no emergency cooling is available, the reactor will automatically shut off by draining its molten fuel out of the reactor, all fuel will be lost, and the reactor will be damaged. This plant can be set up to effectively provide up to {0} MW of electricity when running on full power.
There are many products that can be dumped. If you are ever curious if a product can be dumped, open the <b>Recipes screen</b> {0} by clicking on the icon in the bottom right (1), navigate to the product (2), and check if dumping is an option for consumption (3).
The {0} key will toggle the designation tool between a sloped designation (1) for placing terrain in an ascending / descending ramp and flat designation (2).
This machine is connected to a shaft that allows exchange of mechanical power. All machines connected to one shaft contribute to its inertia - stored mechanical power. When shaft is turning too slow, machines cannot use its power (denoted by red marker) and it needs to be charged up first. When inertia is low, the maximum output is limited and connected machines might not get all the power they need. Similarly, when inertia is too high, the maximum input to the shaft is limited and connected machines may not be able to deliver all produced power to the shaft. The shaft has a maximum throughput of {0}.
Collects recyclables from the attached settlement. Recyclables are generated only from products that you provide to the settlement (e.g. {0}). If a settlement does not have this module built, all recyclables end up in general waste.
Most of the transports (except {0}) <b>can go up/down</b> by pressing {1} keys during the design process. This is handy when trying to make space for vehicles to go under.
メクハイブ
))を分離することにより、放射性物質を再処理する複合施設のこと。分離された廃棄物は崩壊が早く、合理的な期間で処分する事が出来る。分離された廃棄物は、保管しやすいように溶融ガラスで固形化されます。