Here a 2×2 reactor config gets the output of 4 from the reactors PLUS an extra 8 output because of the neighbor bonuses, resulting in an equivalence of 12 reactors, using only 4 reactors! The goal is to get the highest number/bonus with the same number of reactors. Here I made several little diagrams where each square represents one reactor, and in each square is the bonus that reactor receives. Therefore, the greatest output a reactor could have is with 3 neighbors and an open side for automated refueling. Because the reactor has 4 sides, a single reactor can have at most 200MW power output, or 5x its 40MW output, but the greatest flaw with this is that fuel must be inserted manually since there is no space around the reactor. This neighbor bonus, in essence, adds the power of each neighbor to itself. Then add the output of the other reactor and the power increased exponentially with a total of 160MW compared to the original 40MW. When two powered reactors are side-by-side, that same single nuclear reactor is now 80MW, or 8 exchangesand 14 turbines respectively. Power OutputĪs of this writing, power output for a single nuclear reactor is 40MW, which equates to approximately 4 heat exchanges and 7 turbines at full output. In this guide I will show how the power output works and what configurations I use in order to maximize my own power output using nuclear reactors. however, every reactor can be buffed to create even more power when placed next to other reactors, which tiling your nuclear reactor setup is a great way to harness large amounts of power in a small amount of space. The nuclear reactor has an incredible power output by itself. Bonus III: Uranium-235 Enrichment Configurations.Bonus: Throttling Your Fuel Consumption.
0 Comments
Leave a Reply. |