The Arc Furnace can make ingots directly from ores (which are doubled), or it can do it from grits (which smelt in half the time). This can be alleviated by providing sufficient power, spreading stacks out, and crushing ores into grits before smelting them. This is a flat rate while operating, so taking more time to smelt than needed causes excessive wear on the electrodes. 021%/second (providing 4760 seconds of runtime). While the furnace is smelting, electrodes slowly wear down at a rate of. The furnace needs three Graphite Electrodes before working. For the furnace to be capable of full speed, there need to be 2–3 connectors on both the machine and whatever's supplying the power. Supplying too little power doesn't cost extra energy, but it does strain the Graphite Electrodes for longer. If its power supply can't meet the demand, the furnace slows down. With 12 simultaneous jobs, the furnace's demand maxes at 6144 Flux/t. Power demand scales up linearly with how many items are smelting at once. Each operation demands up to 512 Flux/tick, and there is no idle cost: Power is only drawn while the machine is smelting. Most operations cost 51,200 Flux, and smelting ores cost twice that much. The Arc Furnace accepts power at three large plugs behind the machine. The furnace slows down if the power supply can't meet the demand, but energy is not lost. Smelting 12 items at once demands a large amount of power, but it's also easiest on the Graphite Electrodes. After slotting in three Graphite Electrodes using the GUI, the Arc Furnace is ready for use. The Arc Furnace accepts power in the form of Immersive Flux (IF) or any other RF-equivalent system. For the machine to be capable of full speed, it needs power through 2–3 connectors.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |