Build and run large multiblock nuclear reactors to generate power. Feed them fuel and coolant, then extract RF from a power port. Use the Reactor Builder to automate construction, the Melter to turn items into fluids, and Heating Coils to supply heat.
A reactor is a hollow box made of reactor casing and reactor glass. Inside you place reactor rods (they hold the fuel) and coolant: either blocks (e.g. diamond blocks, water blocks) or liquids (e.g. water). The better the coolant, the more power and efficiency you get.
You need fuel (e.g. uranium-based) and a way to keep the reactor cool. The controller screen shows you if the reactor is valid and how much power it produces.
The Reactor Builder automates building the reactor multiblock. You set the size (width, depth, height), choose a rod pattern, and fill its inventory with casing, glass, reactor rods, rod controllers, and optionally coolant blocks or a tank of coolant fluid.
When you start the build, it places the frame, then rod controllers and rods, then coolant (liquid from the tank or blocks from inventory) according to the coolant type you selected in the builder. It will not place blocks where you already have liquid coolant, and it only places the coolant type you chose (e.g. only diamond blocks if you selected that option).
Use it to build colossal reactors quickly and consistently.
The Melter turns items into fluids (e.g. ingots into molten metal). It has a single item slot and a fluid tank. It does not work alone: it needs a heat source on at least one of its sides (up, down, or the four horizontals). Valid heat sources are lava, campfires, torches, or Heating Coils. Heating Coils give the best heat and are the intended way to run the Melter; lava and campfires work too. More heated sides mean faster melting.
Place the Melter, put heat next to it (e.g. Heating Coils, or lava, or campfires), feed it the right items and it will produce the corresponding fluid. You can pull the fluid out with pipes from the front face.
Heating Coils are what make the Melter work. They must be placed next to the Melter (any of the six sides). Each coil type “burns” something to produce heat:
So you can run the Melter with steam and fuel (resource coil) or with pure power (energy coil). Coils have a simple interface on the front to configure input and, for the resource coil, what to consume.