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This page is about the Fusion from GregTech 5 Unofficial. For other uses, see Fusion.
Fusion Computer



ModGregTech 5 Unofficial
TypeMachine
Fusion Coil

ModGregTech 5 Unofficial
TypeSolid block
Fusion Casing


ModGregTech 5 Unofficial
TypeSolid block

The Fusion Control Computer is the core of a Fusion Reactor in GregTech 5 Unofficial. They come in 3 variants, Mark I, II, and III. The Fusion Reactor is a complex multiblock. It has 32 Coils in its core, surrounded by 79–120 casing blocks. The Mark I fusion reactor uses Superconducting Coil Blocks surrounded by LuV Casings. The Mark II and III fusion reactors use Fusion Coils surrounded by Fusion Casings (regular Fusion Casings for a Mark II fusion reactor, and the Fusion Casing MK II for a Mark III fusion reactor). All fusion reactors require at least two Input Hatches, one Output Hatch, and 4-16 Energy Hatches depending on the used fusion recipe.


Recipe[]

Building the multiblock[]

FusionMK1

A complete Mark I fusion reactor

Fusion Top Bottom Layer

The top and bottom layers look like this.

FusionMK2

A complete Mark II fusion reactor

Fusion Middle Layer

The middle layer looks like this.

FusionMK3

A complete Mark III fusion reactor

Fusion Cuts

The used blocks of all tiers of fusion reactors.

Fusion Control Computer

Possible positions for Fusion Control Computers. Only one per reactor allowed.

Fusion Energy Hatch

Possible positions for Energy Hatches. 1-16 needed.

Fusion Input Hatch

Possible positions for Input Hatches. 2 needed, up to 16 allowed.

Fusion Output Hatch

Possible positions for Output Hatches. 2 needed, up to 16 allowed.

The Fusion Reactor gains 10mio(MK1), 20mio(MK2) or 40mio(MK3) EU storage capacity per energy hatch built in. A Mark I fusion reactor needs LuV, ZPM, or UV Hatches. A Mark II fusion reactor needs ZPM or UV Hatches. A Mark III fusion reactor needs UV Hatches.

Fusion recipes[]

Input #1 Input #2 Output Cycle time in ticks Running cost Startup cost (EU) Reactor tier Effective output (EU/t)



16 4096 EU/t 40,000,000 Mark 1 32,000 



16 2048 EU/t 60,000,000 Mark 1 32,000



32 4096 EU/t 80,000,000 Mark 1 64,000



32 10,240 EU/t 240,000,000 Mark 2 128,000



16 16,384 EU/t 180,000,000 Mark 2 179,200



32 8192 EU/t 360,000,000 Mark 3 224,000



16 32,768 EU/t 480,000,000 Mark 3 464,000



64 8,192 EU/t 120,000,000 Mark 1 ?



32 24,576 EU/t 380,000,000 Mark 3 ?



16 24,576 EU/t 140,000,000 Mark 1 ?



32 32,768 EU/t 150,000,000 Mark 1 ?



60 24,578 EU/t 150,000,000 Mark 1 ?



32 32,768 EU/t 300,000,000 Mark 2 ?



16 24,576 EU/t 200,000,000 Mark 2 ?



64 32,768 EU/t 200,000,000 Mark 2 ?



64 49,152 EU/t 240,000,000 Mark 2 ?



64 49,152 EU/t 240,000,000 Mark 2 ?



128 49,152 EU/t 480,000,000 Mark 3 ?



64 24,576 EU/t 150,000,000 Mark 1 ?



96 49,152 EU/t 200,000,000 Mark 2 ?



64 32,768 EU/t 300,000,000 Mark 2 ?



64 49,152 EU/t 400,000,000 Mark 3 ?



1200 98,304 EU/t 600,000,000 Mark 3 ?

Total build costs[]

Mark I[]

  • 1024 Chrome
  • 544 1x Superconductor Wire (342 LV Pump, 342 Tiny Tungstensteel Pipes, 342 Nitrogen/Helium, 512 1x LuV Wires)
  • 16 Energy Flow circuits
  • 1 Pu-241
  • 3 Netherstar
  • 72 Osmium
  • 8 Iridium
  • 2 Industrial Diamonds
  • 8 Advanced Alloys
  • 16 Industrial TNT
  • 16 Beryllium
  • 64 Copper
  • 256 Coal Dust
  • 256 Tin Dust
  • 32 Tungsten

Mark II[]

The Mark I costs and...

  • Casing number * 6 Tungstensteel
  • Hatch number * (8 Iridium + 4 Osmium)
  • 2 Europium
  • 2 Netherstars
  • 140 Energy Flow Circuits
  • 320 Osmium
  • 256 Good Circuits
  • 64 Eye of Ender
  • 256 Iridium
  • 512 Industrial TNT
  • 256 Advanced Alloy
  • 64 Industrial Diamond
  • 1024 Berillyum
  • 2048 Copper
  • 8192 Coal Dust
  • 8192 Tin

Mark III[]

The Mark II costs and...

  • Casing number * 6 Americium
  • Hatch number * 16 Osmium
  • 2 Americium
  • 12 Energy Flow Circuits
  • 2 Netherstars
  • 64 Osmium

Trivia[]

  1. Producing 1 Neutronium Ingot in a Mark III Fusion Reactor takes 2h24min, 16 Americium Ingots, 16 Naquadria Ingots and 17,586,931,200EU.
16 Americium need 16 Chrome + 16 Lutetium(64 Depleted Thorium Fuel Rods) + 879,477,248EU.
When missing Naquadah ore, 1280 Naquadah must be created with fusion and centrifuged using 1,600,000,000EU into 16 Naquadria.
The production of 1280 Naquadah by fusion needs 1280 Thorium, 1280 Plutonium and 24,159,191,040EU.
Complete: 44,225,599,488EU
Full fusion running time: 7h36min
  1. It takes 14 32768 eu/t Plasma generators to run a Mk3 Fusion reactor at max efficiency, with nickel plasma as the fuel.


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