I'm still working on the balance ideas, but I'm specifically trying to figure something to do with charcoal while not being unbalanced (renewable and all...).
Charcoal -> Extractor = Carbon Dust
Carbon Chunk-
CarbonDust - CarbonDust
CarbonDust - CarbonDust
(might work on changing to all 9 slots)
Carbon Chunk -> Compressor = Carbon Ball
Carbon Ball -> Electro Furnace (none others) = Carbon Nanotubes (CNt)
(work with a more controlled environment of temperature with a higher end furnace, but not the induction furnace so it also requires some more time on purpose)
Carbon Nanofiber (CNf)-
CNt - CNt - CNt
Carbon Nanotube Cable (CNt Cable)-
CNf - Rubber
(this currently works at 12 charcoals to one rubber for a single cable, but with 9 carbon dusts for a chunk, this goes up to 27 to 1)
Nanotube Flywheel-
N/A - CNf - N/A
CNf - CNf - CNf
N/A - CNf - N/A
(N/A is nothing)
Steel Flywheel-
(Nano Saber is nothing)
Vacuum Pump-
(Again, Nano Saber is nothing)
Air Line (x2)-
(you get the pattern by now)
Vacuum Machine-
Refined Iron - Electronic Circuit - Refined Iron
Air Line - Vacuum Pump - Air Line
Refined Iron - Machine Block - Refined Iron
Vacuum Containment Unit (VCU)-
Adv Alloy - Adv Alloy - Adv Alloy
Adv Alloy - N/A - Adv Alloy
Adv Alloy - Adv Alloy - Adv Alloy
Magnetic Vacuum Flywheel Electric Storage Unit (MVFE)-
Machine Block - Magnetizer - Machine Block
Vacuum Machine - VCU - CNt Cable
Machine Block - Iron - Machine Block
Carbon Nanotube Cable loses 1 EU per 2.86 blocks (loss of 0.35/block) at a maximum EU of 64 EU/packet. Trying for something balanced between copper and gold, so hopefully this works just right. Will change if the balance works better for something else.
MVFE can store 45000EU with Steel Flywheel (takes 55000EU to power to this) and stores 90000EU with Nanotube Flywheel (takes 100k EU to power to this). Yes, this means you lose 10k EU either way. It also can take a maximum of 64 EU/packet and outputs at that as well.
