For a burn rate of one 1 mB/t, the heating rate is: The actual value depends on the burn rate. The heating rate represents how much coolant is heated up per tick. The theoretical maximum burn rate is 1 mB/t per Fission Fuel Assembly in the reactor, but the effective maximum burn rate depends on a number of factors (see #Safe operation). It can be changed in the reactor's statistics tab. For a newly formed reactor, it is automatically set to 0.1 mB/t. The burn rate is the rate at which the reactor will burn Fissile Fuel. Output ports must be configured to the proper output type by crouching and right-clicking them with a Configurator. Some example control rod setups as seen from the top (C is for Fission Reactor Casing or Reactor Glass, R is for a control rod):Ī fission reactor requires at least 4 Fission Reactor Ports: Maximum control rod density can be achieved by placing them in a checkerboard pattern. Control rods must not touch each other.A control rod is formed by a 1x1 block wide column made of 1 to 15 Fission Fuel Assembly and a single Control Rod Assembly at the top.The interior of the cube can be either air or fission control rods:.The faces of the outer shell can be either Fission Reactor Casing, Reactor Glass, Fission Reactor Port or Fission Reactor Logic Adapter.The edges of the outer shell must be made of Fission Reactor Casing.The structure must be a cuboid of minimum outside size 3x4x3 (along X, Y and Z), up to 18x18x18.4.2.1 Optimal turbine size and boiler size vs.
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