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Alternate Recipe Analysis
Item Recipe Name Resource
Saving
Power
Saving
Space
Saving
Less
Complex
Combo Recipes / Remarks
Iron Ingot  Iron Alloy Ingot No No Yes No
Iron Ingot  Pure Iron Ingot Yes No No No
Iron Rod  Steel Rod Yes Yes Yes No Steeled Frame or default Screw
Iron Plate  Coated Iron Plate Yes Yes Yes No Plastic Smart Plating
Iron Plate  Steel Coated Plate Yes Yes Yes No Plastic Smart Plating
Portable Miner  Automated Miner NA NA NA NA The only way to automate this recipe.
Copper Ingot  Copper Alloy Ingot Yes Yes Yes No
Copper Ingot  Pure Copper Ingot Yes No No No
Wire  Caterium Wire No Yes Yes NA Caterium Ingot
Wire  Fused Wire No Yes Yes No
Wire  Iron Wire Yes Yes No NA Stitched Iron Plate
Cable  Coated Cable No No Yes No
Cable  Insulated Cable No Yes Yes No
Cable  Quickwire Cable No No Yes No
Concrete  Fine Concrete Yes No No No
Concrete  Rubber Concrete Yes No No No Heavy Flexible Frame
Concrete  Wet Concrete Yes No Yes No
Screw  Cast Screw NA Yes Yes Yes Pure Iron Ingot
Screw  Steel Screw No Yes Yes No
Reinforced Iron Plate  Adhered Iron Plate Yes Yes Yes No
Reinforced Iron Plate  Bolted Iron Plate No Yes Yes NA
Reinforced Iron Plate  Stitched Iron Plate Yes Yes Yes NA Iron Wire
Copper Sheet  Steamed Copper Sheet Yes No Yes No
Rotor  Copper Rotor Yes Yes Yes Yes
Rotor  Steel Rotor No Yes Yes No Default Stator, Default Motor
Modular Frame  Bolted Frame No Yes Yes No
Modular Frame  Steeled Frame No Yes Yes No Steel Rod
Smart Plating  Plastic Smart Plating Yes Yes Yes No Coated Iron Plate
Coal  Biocoal NA NA NA NA This recipe can never be fully automated.
Coal  Charcoal NA NA NA NA This recipe can never be fully automated.
Caterium Ingot  Pure Caterium Ingot Yes No No No
Quickwire  Fused Quickwire Yes No No No
Silica  Cheap Silica Yes No No No
Quartz Crystal  Pure Quartz Crystal Yes No No No
Beacon  Crystal Beacon No Yes Yes No Infused Uranium Cell, Uranium Fuel Unit
Crystal Oscillator  Insulated
Crystal Oscillator
Yes Yes Yes No
Compacted Coal  Compacted Coal NA NA NA NA The only way to produce this item.
Black Powder  Fine Black Powder Yes Yes Yes No
Steel Ingot  Coke Steel Ingot Yes No Yes No Heavy Oil Residue
Steel Ingot  Compacted Steel Ingot No No No No
Steel Ingot  Solid Steel Ingot Yes No No No Pure Iron Ingot
Versatile Framework  Flexible Framework Yes No No No
Encased Industrial Beam  Encased Industrial Pipe Yes Yes Yes NA
Stator  Quickwire Stator No Yes Yes NA
Motor  Electric Motor Yes Yes Yes No
Motor  Rigour Motor Yes Yes Yes No
Automated Wiring  Automated Speed Wiring No Yes Yes No
Heavy Modular Frame  Heavy Encased Frame Yes Yes Yes Yes Encased Industrial Pipe
Heavy Modular Frame  Heavy Flexible Frame Yes Yes Yes No Rubber Concrete
Fuel  Diluted Fuel Yes Yes No No These recipes form a cycle for improving oil product yield. Once Blender is unlocked at Tier 7, switch over from Diluted Packaged Fuel to Diluted Fuel to simplify the process.
Heavy Oil Residue  Heavy Oil Residue NA NA NA NA
Plastic  Recycled Plastic Yes No No No
Rubber  Recycled Rubber Yes No No No
Packaged Fuel  Diluted Packaged Fuel Yes No Yes No
Fabric  Polyester Fabric NA NA NA NA The only way to automate this recipe.
Polymer Resin  Polymer Resin NA NA NA NA The only way to mass-produce Polymer Resin.
Circuit Board  Caterium Circuit Board Yes Yes Yes NA Caterium Computer (allows production of Computers without Copper)
Circuit Board  Electrode Circuit Board No No No NA
Circuit Board  Silicon Circuit Board No Yes Yes NA Crystal Computer, default Crystal Oscillator (allows production of Computers without oil)
Computer  Caterium Computer Yes Yes Yes Yes Caterium Circuit Board (allows production of Computers without Copper)
Computer  Crystal Computer No Yes Yes Yes Silicon Circuit Board, default Crystal Oscillator (allows production of Computers without oil)
Empty Canister  Coated Iron Canister Yes No No No
Empty Canister  Steel Canister No No No No
Turbofuel  Turbofuel NA NA NA NA The first recipe unlocked for this item.
Turbofuel  Turbo Blend Fuel Yes Yes Yes Yes Diluted Fuel, Heavy Oil Residue
Turbofuel  Turbo Heavy Fuel No Yes Yes Yes Heavy Oil Residue
High-Speed Connector  Silicon
High-Speed Connector
No Yes Yes NA
Aluminum Scrap  Instant Scrap No No No No
Alumina Solution  Sloppy Alumina No No No Yes Sloppy Alumna and Electrode-Aluminum Scrap produce the most efficient Bauxite conversion rate. Pure Ingot has an inferior conversion rate but allows the process to proceed without involving Silica.
Aluminum Scrap  Electrode-Aluminum
Scrap
Yes No No No
Aluminum Ingot  Pure Aluminum Ingot Yes Yes Yes Yes
Aluminum Casing  Alclad Casing Yes No No No
Radio Control Unit  Radio Connection Unit No No No NA
Radio Control Unit  Radio Control System No Yes Yes Yes
Battery  Classic Battery Yes No No No
Supercomputer  OC Supercomputer No No No NA
Supercomputer  Super-State Computer Yes Yes Yes Yes
Electromagnetic Control Rod  Electromagnetic
Connection Rod
No No No No Quickwire Stator (1:1 production:demand). Recipe allows Control Rods to be made without AI Limiters.
Encased Uranium Cell  Infused Uranium Cell Yes No No No Paired, produce Uranium Fuel Rods with much higher efficiency, as well as eliminating the need to recycle waste Sulphuric Acid.
Uranium Fuel Rod  Uranium Fuel Unit Yes Yes Yes No
Heat Sink  Heat Exchanger Yes Yes Yes No
Cooling System  Cooling Device Yes No No No
Fused Modular Frame  Heat-Fused Frame Yes Yes Yes No
Turbo Motor  Turbo Electric Motor Yes Yes Yes NA
Turbo Motor  Turbo Pressure Motor Yes Yes Yes No
Non-fissile Uranium  Fertile Uranium No Yes Yes NA
Encased Plutonium Cell  Instant Plutonium Cell Yes No Yes Yes Most efficient way to produce Plutonium Fuel Rods if using them for power. Undesirable if only using Plutonium to dispose of Uranium Waste.
Plutonium Fuel Rod  Plutonium Fuel Unit Yes Yes Yes No

Detailed analysis and powerful combinations[]

Diluted Packaged Fuel cycle[]

This combination uses Heavy Oil Residue -> Diluted Packaged Fuel to increase the Crude Oil -> Fuel conversion ratio by 4.5x. Combining this fuel conversion with Compacted Coal to yield Turbofuel greatly improves energy generation, allowing a single oil node to supply over 11x as many Fuel Generators at maximum usage, compared to the normal Crude Oil to Fuel recipe. Even relative to directly using the Fuel produced by the Diluted Fuel combination, Turbofuel increases the number of generators that can be supplied by 2.78x, at the cost of requiring Coal and Sulfur input for the Compacted Coal. The final ratio is 148.15 Fuel Generators (22,222 MW) for 300 Crude Oil and 480 Sulfur and Coal per minute, which can be accomplished, via overclocking, off of a single Oil node of normal or pure quality, and a single node each of Sulfur and Coal at pure quality, or two each at normal quality, using Miner Mk.2s.

The Blender's Diluted Fuel recipe skips the packaging-unpackaging steps, making the process simpler and more energy saving.

Recycled Plastic/Rubber[]

In addition to power generation, combining the above recipe with Recycled Plastic and Recycled Rubber will improve your ratio per crude oil. The idea is to have half the output of Recycled Plastic feeding the Recycled Rubber production, and vice versa. This does require the system to be "primed" which can be sped up by sending the full output of one side to the other initially. With the system equalized you can achieve 12 resources per crude oil ( [2.667 recycled plastic + 3.333 residual plastic] x 2 for the rubber ). The original recipes yield 0.667 resources per crude oil, and no Heavy Oil Residue is wasted, thus no longer require continuous removal of the Heavy Oil Residue.

A major benefit of this recipe: If one resource of the combined recycler system is not fully utilized, the usable output of the other will increase as the unused side overflows. Thus, there is no need to build the system asymmetrically.

Nuclear Power[]

Uranium Fuel[]

The base conversion rate of Uranium to Uranium Fuel Rods is 100:1. Uranium Ore converts to Encased Uranium Cells at 2:1 and Encased Uranium Cells convert to Uranium Fuel Rods at 50:1. In total, this allows a single normal Uranium node (600/min using a Miner Mk.3 at 250%) to supply 30 Nuclear Power Plants, for a total of 75,000 MW of power. The alternate recipes Infused Uranium Cell and Uranium Fuel Unit drastically improve this ratio. Infused Uranium Cells convert Uranium ore to Encased Uranium Cells at a 5:4 ratio, and Uranium Fuel Unit converts Encased Uranium Cells to Uranium Fuel Rods at a 100:3 ratio. This increases the number of fuel rods generated by 2.4x, allowing a single normal Uranium node to supply 72 Nuclear Power Plants, for a total of 180,000 MW of power. This increases the maximum uranium power output from 262.5 GW to 630 GW (as of Update 4, there are 3 normal and 1 impure Uranium nodes on the map for a total of 2100 Uranium per minute).

Plutonium Fuel[]

The base conversion rate of Uranium Waste to Plutonium Fuel Rods is 225:1. The standard recipes for Non-fissile Uranium and Plutonium Pellets both consume Uranium Waste in a 3:1 ratio, meaning to fully convert all Uranium Waste, 75% should be allocated for Non-fissile Uranium and 25% should be allocated for Plutonium Pellets. Uranium Waste produces Non-fissile Uranium in a 3:4 ratio, Plutonium Pellets are produced in a 10:3 ratio (consuming 25% of the initial input Uranium Waste), Encased Plutonium Cells are produced in a 2:1 ratio, and Plutonium Fuel Rods are produced in a 30:1 ratio. When fully utilized, a single normal Uranium node produces between 300 Uranium Waste/min on the standard recipe chain or 720 Uranium Waste/min on the most efficient recipe chain, which respectively produce 1.5 and 3.6 Plutonium Fuel Rods/min.

The standard recipe chain maximizes the use of Uranium Waste and minimizes other resources required to create Plutonium Rods. This makes this recipe chain ideal for creating a zero-waste Nuclear Power setup (meaning all Plutonium Fuel Rods are deposited in an Awesome Sink and not used in Nuclear Power Plants). The alternate recipe chain for Plutonium Fuel is more oriented towards maximizing the production of Plutonium Fuel Rods.

Using all of the alternate recipes ("Fertile Uranium", "Instant Plutonium", and "Plutonium Fuel Unit") the conversion rate of Uranium Waste to Plutonium Fuel Rods is 75:2. However, "Fertile Uranium" requires input Uranium, which means some of the original Uranium harvested must be withheld without being refined into Uranium Fuel Rods. This fact, along with the limited amount of Uranium available on the map currently, makes this recipe sub-optimal for maximizing power. Using all of the alternate recipes for Plutonium Fuel Rods and Uranium Fuel Rods, except for "Fertile Uranium" produces the most Uranium waste-free Nuclear power possible, at 340 GW for a single normal Uranium node (160 GW of additional power from Plutonium) or 1190 GW (630 GW from Uranium and 560 GW from Plutonium) for all of the Uranium on the map. This recipe chain has a conversion rate of Uranium Waste to Plutonium Fuel Rods of 225:2.

This is as compared to a maximum of 1050 GW (286.4 GW from Uranium and 763.6 GW from Plutonium) for all of the Uranium on the map if "Fertile Uranium" is used in combination with all other alternative recipes. Fertile Uranium also produces more permanent Plutonium Waste then the standard recipe.

Solid Steel Ingots[]

Using the normal recipe, one Steel Ingot is produced per Iron Ore and Coal input. Using Solid Steel Ingot combined with Pure Iron Ingot can increase this yield to 39 Steel Ingots for 14 Iron Ore and 26 Coal input. This is 2.79x as efficient with regards to Iron Ore, and 1.5x as efficient with regards to Coal.

Compacted Steel Ingot combined with Compacted Coal can be used instead to ease the demand on Coal at the cost of overall yield (relative to the Solid Steel Ingot recipe) and Sulfur. It provides 10 Steel Ingots for six Iron Ore, three Coal, and three Sulfur. Relative to the normal Steel Ingot recipe, this is 1.67x as efficient on Iron Ore, and 3.33x as efficient on Coal. Relative to the Solid Steel Ingot recipe, this produces only ~60% as many Steel Ingots per Iron Ore input, but requires only 45% as much Coal *per Ingot* at the cost of requiring an equal amount of Sulfur.

As part of the Heavy Encased Frame chain, use Pure Iron Ingot -> Solid Steel Ingot -> Encase Industrial Pipes -> Heavy Encased Frame to see the cascading effect of resource-saving. See Heavy Modular Frame#Tips for more info.

Iron Wire[]

Best paired with Stitched Iron Plate.

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