![]() Presence of blocks between player and reactor is irrelevant: it doesn't protect from radiation. Higher radiation increases the range at which you will get sick (maximum of 16 tiles around the placement point). You will then get radiation sickness & get damage from it. ![]() If radiation is high enough, all entities close to the Fission Reactor will be hit by radiation projectiles every second. The only way to transform this heat into power is to inject 'fresh' coolant into the reactor and use the. How much heat is generated depends on the rate at which it burns Fissile Fuel. Radiation is reduced by 5 units per second if the Fission Reactor is turned off (by wiring Off signal to its left Input) or contains no fuel. A Fission Reactor is a multiblock structure that generates massive amounts of heat but does not produce power on its own. When a fuel item decays, radiation increases by another 5 units for each filled waste slot (10 if both slots are filled) in the case that the slot containing Toxic Waste cannot hold any more items, additional Toxic Waste items will drop onto the ground and raise radiation by another 5 units. If the stack of Toxic Waste in the Waste slot is 75 units or larger, radiation increases by another 5 units per second (regardless of whether the reactor is running). While the Fission Reactor is running, a hidden value called radiation, which always falls within the number range, increases by 2*(total power - 4) units per second. Total reactor power is the sum of the power outputs of all fuel slots (for example, if one slot has Solarium Stars and another has Uranium Rods, then the total power is 100W). The Fission Reactor accepts the following inputs: If a slot decays, then one fuel item in that slot is consumed, a piece of Toxic Waste appears in a Waste slot, and a rod of Tritium has a 50% chance of appearing in the other Waste slot (if Tritium is created, a second piece of Toxic Waste is generated). ![]() While fuel is inside the reactor, each slot has a chance to decay every second with the chance depending on the fuel type. If you have information we can use to flesh out or correct. This physics video explains the concept of nuclear fission reaction by illustrating an example of nuclear fission of Uranium 235 atom. This description of a site outside SERC has not been vetted by SERC staff and may be incomplete or incorrect. The first four slots on the top, labelled Fuel Slots, are where fuel for the Fission Reactor is inserted, while the other two slots below, labelled Waste, are where Toxic Waste and Tritium Rod produced by the reactor are stored. This is a simple animation of nuclear fission, showing atomic nuclei splitting apart, neutrons being emitted, and other atoms splitting as a result of being hit by a neutron. The Fission Reactor's interface has six slots. It can generate from 10W up to a maximum of 360W with all four fuel slots used. Fission Reactor uses radioactive materials to generate power.
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