The use of underclocks also reduces the overall power usage. This setup works for me because it's clean, easy to move around in, easy to build, and, most importantly, it doesn't fluctuate your power usage. Outputs are connected to storages, with overflow being sunk: Third Floor Assemblers belting out RIPs and Rotors:įourth Floor Assemblers belting out Modular Frames: Factory outputs are funneled down a shaft at one corner of the facility, and there is enough space around the outside of the factory interior for catwalks and staircases.Īs an example of this, here is my RIP/Rotor/Modular Frame factory: Smelters are fed via manifold and saturated as needed prior to initializing the factory. The third floor is RIP assemblers underclocked to 66%, the second floor is inward facing constructor pairs of 100% iron plates and 80% cast screws feeding directly up to their dedicated RIP assembler, and the first floor is outward facing pairs of smelters feeding 100% to the dedicated iron plates constructor and 33% to the cast screws constructor. So, if I am building a standard reinforced plates factory, the chokepoint is iron plates, and everything is adjusted to that output. This creates a standard layout for my factories that I can easily duplicate. I prefer the always build up method via dedicated suppliers, with machines being underclocked to the supply chokepoint and the whole factory scaled to the available resources.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |