Nuclearcraft fission reactor simulator12/7/2023 ![]() *Note: The ratios are approximations, in game it takes slightly more fuel to get a product. ![]() Version 2. The max output rate will now scale with the size in the same way as the capacity. Products and Ratio (Fuel Cells:Product) * And by the way, for those who have built, or are planning to build, very large fission reactors, v2.8c fixes the bug where the maximum output of the fission reactor was stuck at 64 kRF/t. The Fuel Variables are used to determine the amount of Fuel used up per tick:įuelUsage = (sqrt(efficiency)/10)*size*fuelVariable Where size is the Size of the Fusion Reactor and fusionRF is the Fusion Reactor's Power Generation config value PowerGen = efficiency*fusionRF*size*powerVariable/200 The Power Variables are used to determine the amount of RF generated per tick: For information on the usage of Reactor Casings, see the article on Fission Reactor. An opaque Reactor Casing is also available. This version of the reactor casing is transparent, allowing the inside of the reaction chamber to be viewed. Reactor Casings form the reaction chamber of a Fission Reactor. Where 't' is the current Reactor Temperature and 'h' is the fuel combo's Heat Variable. The Transparent Reactor Casing is a block added by NuclearCraft. For information on the use of this block, see the article on Fission Reactors. It is placed inside the reaction chamber of a Fission Reactor. The Heat Variables are used in the Efficiency Equation:Įfficiency = 100*e^(-((heatVariable - ln(t))^2)/2)/(t*e^(0.5 - heatVariable)) The Reactor Cell is a machine added by NuclearCraft. The table below lists the variables used in the heat, power, and fuel consumption equations. They work rather on the combination between two different fuels that fuse together creating many different unique combinations. These can be arranged in any order you want as long as you have 4 oxides, 4 non-oxides and one fuel isotope.įusion fuels don't work nearly the same as Fission fuels. Low-Enriched Uranium-235 (LEU-235) consists of the following: Uranium-238 (x4), Uranium-238 Oxide (x4), Uranium-235 (x1). TIP: A typical Low-Enriched fuel consists of 4 oxide and 4 normal parts of the same isotope with the addition of a second isotope, which is that determines the isotope of the fuel. By putting depleted cells into a Reprocessing Plant, you will be able to craft other fission fuels from the Isotopes of depleted cells. To increase the size, input Reactor Upgrades into the Reactor Controller, one for every block in radius there is in the reactor interior from the. Here is an example where you can see the insides and the outsides of the 5x5x5 reactor. Basically if you build a 24x24x24 and you put an extra layer on each side, but not larger, thats what it should be. They can range from a core of 1x1x1 (roughly 3x3x3 exterior) to a whopping 17x17x17 core with a 19x19x19 exterior. When you remove the edges, the left is 24x24 in one plane, as the inside should be. They are very versatile and can generate vast amounts of power. When a Fission fuel's fuel cycle has run its course, they will turn into a Depleted Fuel Cell. The Fission Reactor is a good way of making power using Nuclear Fuels.
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