Fast breeder reactor that useis a nuclear reactor in which the fission chain reaction is sustained by fast neutrons. This process needs highly enriched fuel toand produce heat using fast neutronss large amounts of heat. The core (containing the enriched fuel) is surrounded withby 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 overheated (with nothe core is overheated and no emergency cooling is available), the reactor will automatically shut off, but all itsy 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.
When enabled, this consumer will work only onbecome a surplus consumer and will only be using power made by generators that allow to supply surplus consumers (e.g. solar panels). Also, in case this is enabled, lack of power is not reported as an issue.
Presses loose items into compact units for easier transportation. A shreddedr can be used to restore compacted products back to their uncompacted state.
that useis a nuclear reactor in which the fission chain reaction is sustained by fast neutrons. This process needs highly enriched fueltoand produceheat using fast neutronss large amounts of heat. The core(containingtheenriched fuel)is surroundedwithby 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). Ifoverheated (with nothe core is overheated and no emergency cooling is available), the reactor will automatically shut off,but all itsy 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.