Reactor Class: All reactor designs can be a class like "Mark-I-O ED" or "Mark-III EB" which gives an indication of how well a design will perform.The maximum heat storage is 10,000, but it can be increased with Reactor Chambers and Integrated Reactor Plating. Reactor Efficiency: The average number of pulses per Uranium Cell. ![]() Breeder Reactor: A type of reactor design that produces little energy.(efficiency = pulses/cells) The more Uranium Cells that are placed next to each other, the higher the efficiency, but also the higher the risk. Reactor Chamber: Not an internal component.Its purpose is to recharge Depleted Isotope Cells into full Uranium Cells.Ī list of the various components that can be used within a reactor. ![]() Uranium Cell: The key part of a reactor.These are placed adjacent to the reactor block in order to increase the number of slots within a reactor, increase the strength of the hull (+1000), and add a small amount of cooling (2/tick plus additional effect). Each cell will pulse one or more times per tick, producing some heat and 200 EU. On its own, a cell will only pulse once (10 EU/t) per tick, but each adjacent Uranium Cell will add an additional pulse per tick, producing additional heat and packets of 200 EU. ![]() One Uranium Cell will generate anywhere between 2,000,000 to 10,000,000 EU in its lifetime, depending on the efficiency of the design. Coolant Cell: A single cell can store up to 10,000 heat away from the reactor hull any more heat will cause the cell to melt.Uranium Cells have a 10% chance to turn into Near-Depleted Uranium Cells when they are used up. The cell will also cool 1 point of its stored heat each reactor tick.
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