In the worst case, such a fully loaded reactor surrounded by 5x5x5 cube of reinforced stone would only be a threat to anything within 14 blocks in the direction of the switch or wire. For example, a reactor with 6 chambers and a uranium cell in every slot, surrounded by a 5x5x5 cube of reinforced stone (minus a block beneath), upon overheating, will: explode upwards creating approximately a 4x4x4 cavity in the north east direction, explode downwards 14 blocks in a 7x7 teardrop fashion in the north east direction, as well as 4 cavities on the sides of, at worst, 4x4x5 in each cardinal direction. These reactors use both plutonium and thorium, available from centrifuging re-enriched uranium (8 re-enriched gets 1 plutonium, 4 thorium, and 3 depleted cells).Įxplosions are entirely predictable and follow a particular universal pattern. High Speed Breeder Link Hybrid Reactor Setup The speed of re-enriching depends on the heat of the reactor. In order to make this work, a depleted isotope cell must be charged by being next to an operating nuclear fuel cell. Video Made by DuhWynning Breeder Reactor Setup īreeder reactors are nuclear reactors with a purpose of turning Depleted Isotope Cells into Re-Enriched Uranium Cells. Then Place the 26 Overclocked Heat Vents, 12 Component Heat Vents, 8 Components Heat Exchangers, 4 60k Coolant Cells, and the 4 Quad Uranium Cells according to this diagram.īest Nuclear Reactor Setup Feed The Beast Tutorial - Ep. Then Place the remaining 5 chambers around the Nuclear Reactor. This is necessary to place one of the 6 chambers beneath it. Once you have the Needed Resources place a dirt block down, then the Nuclear Reactor. Large Amount of Glass Fibre/4x Ins HV Cable If you want the least risk, and safest amount of power follow these steps.
There are many different setups you can use for the Nuclear Reactor with endless possibilities. You may fill up the empty spots with Heat capacity platings, but they won't do anything.īasic Reactor Link Advanced Reactor Setup
The addition of Dual Uranium Cells and Quad Uranium Cells can further increase energy output and efficiency, again at the expense of increased heat.Īlso, this is a more advanced basic setup, however it is sustainable and produces 360EU/t. Placing an additional uranium cell in the reactor, next to the first, will quadruple the energy output of the reactor without decreasing the lifetime of the fuel cells, although it will produce more heat. While a single uranium cell produces only 5 EU/t, it will produce 1 million EU over its 2 hour 47 minute lifetime. The heat vent will transfer up to 6 units of heat from surrounding components and since the uranium cell produces less than 6 units of heat per tick, it will be effectively cooled by the single heat vent. In this basic reactor design, the uranium cell produces 4 units of heat per tick. The cell and vent must be adjacent horizontally or vertically if placed on a diagonal, the vent will not cool the cell and the reactor will heat up and explode. This will produce 5 EU/t when a redstone current is applied to the reactor. The simplest reactor consists of a single Uranium Cell placed directly next to a Heat Vent. Neutron reflectors increase the efficiency of adjacent nuclear cells by increasing the energy produced per tick They must be actively cooled by heat exchangers and heat vents, else they will eventually deplete. Plating is useful in maximizing the efficiency of a reactor by allowing for a higher maximum operating temperature.Ĭoolant cells accept heat from any adjacent Uranium Cells, Thorium Cells or Plutonium Cells. In addition, plating decreases the radius of nuclear explosion caused by the failure of the reactor. Plating increases the maximum temperature that the reactor can tolerate.
These cells have special properties that allow them to help your reactor operate.