Planetary Commodities are the resources and products of Planetary Industry. There are several tiers available with the end-products becoming larger and more complicated each tier.
Inspiration drawn from https://spreadsheets.google.com/ccc?key=0ArlHEr5t26lndDN3QVhBODJ3YnF5MWVMcUQ0bHdxQXc&hl=en
Potential todo: Sort tables by the combination result?
Tier 1 - Processed Materials (P1)
Planetary Resources (P0) can be processed into Basic Commodities (P1) in Basic Industry Facilities. See the Planet page for more information on Resources. Planets listed are where the Resource can be found and thus which planets can create the appropriate P1 component without importing anything.
Planets |
Resource |
P1 result |
Immediate Uses |
Component in
|
|
Aqueous Liquids |
Water |
None known |
Coolant, Sterile Conduits, Super Conductors, Test Cultures, Water-Cooled CPU |
|
|
Autotrophs |
Industrial Fibers |
None known |
Microfiber Shielding, Polyaramids, Polytextiles |
|
|
Base Metals |
Reactive Metals |
None known |
Construction Blocks, Mechanical Parts, Nanites, Nano-Factory, Water-Cooled CPU |
|
|
Carbon Compounds |
Biofuels |
None known |
Biocells, Livestock, Polytextiles |
|
|
Complex Organisms |
Proteins |
None known |
Fertilizer, Lifestock, Genetically Enhanced Livestock |
|
|
Felsic Magma |
Silicon |
None known |
Microfiber Shielding, Miniature Electronics, Silicate Glass |
|
|
Heavy Metals |
Toxic Metals |
None known |
Construction Blocks, Consumer Electronics, Enriched Uranium |
|
|
Ionic Solutions |
Electrolytes |
None known |
Coolant, Rocket Fuel, Synthetic Oil |
|
|
Micro Organisms |
Bacteria |
None known |
Fertilizer, Nanites, Organic Mortar Applicators, Test Cultures, Viral Agent |
|
|
Noble Gas |
Oxygen |
POS Fuel |
Oxides, Supertensile Plastics, Synthetic Oil |
|
|
Noble Metals |
Precious Metals |
None known |
Biocells, Enriched Uranium, Mechanical Parts |
|
|
Non-CS Crystals |
Chiral Structures |
None known |
Consumer Electronics, Miniature Electronics, Transmitter |
|
|
Planktic Colonies |
Biomass |
None known |
Genetically Enhanced Livestock, Supertensile Plastics, Viral Agent |
|
|
Reactive Gas |
Oxidizing Compound |
None known |
Oxides, Polyaramids, Silicate Glass |
|
|
Suspended Plasma |
Plasmoids |
None known |
Rocket Fuel, Super Conductors, Transmitter |
|
|
3000 x 0.01 m³ |
20 x 0.38 m³ |
|
One processed batch turns 30 m³ of a P0 material into 7.6 m³ of a P1 material, resulting in a reduction to 25% of original volume
Tier 2 - Refined Commodities (P2)
Basic Commodities (P1) can be turned into Processed Materials (P2) in Advanced Industry Facilities. It takes two different P1 items to create one P2 item.
Planets |
Input 1: P1 |
Input 2: P1 |
P2 result |
Immediate Uses |
Component in
|
|
Precious Metals |
Biofuels |
Biocells |
None known |
Gel-Matrix Biopaste, Neocoms, Transcranial Microcontroller |
|
|
Toxic Metals |
Reactive Metals |
Construction Blocks |
None known |
Biotech Research Reports, Smartfab Units |
|
|
Chiral Structures |
Toxic Metals |
Consumer Electronics |
None known |
Robotics, Supercomputers |
|
|
Water |
Electrolytes |
Coolant |
POS Fuel |
Condensates, Supercomputers |
|
|
Toxic Metals |
Precious Metals |
Enriched Uranium |
POS Fuel |
Nuclear Reactors |
|
|
Proteins |
Bacteria |
Fertilizer |
None known |
Cryoprotectant Solution, Industrial Explosives |
|
|
Biomass |
Proteins |
Gen. Enhanced Livestock |
None known |
Hermetic Membranes |
|
|
Biofuels |
Proteins |
Livestock |
None known |
Biotech Research Reports, Vaccines |
|
|
Precious Metals |
Reactive Metals |
Mechanical Parts |
POS Fuel |
Planetary Vehicles, Robotics |
|
+ |
Silicon |
Industrial Fibers |
Microfiber Shielding |
None known |
Data Chips, Nuclear Reactors |
|
|
Silicon |
Chiral Structures |
Miniature Electronics |
None known |
Planetary Vehicles, Smartfab Units |
|
|
Reactive Metals |
Bacteria |
Nanites |
None known |
Biotech Research Reports, Transcranial Microcontroller |
|
|
Oxygen |
Oxidizing Compound |
Oxides |
None known |
Condensates, Gel-Matrix Biopaste |
|
+ |
Industrial Fibers |
Oxidizing Compound |
Polyaramids |
None known |
Hermetic Membranes, High-Tech Transmitter |
|
|
Industrial Fibers |
Biofuels |
Polytextiles |
None known |
Hazmat Detection Systems, Industrial Explosives |
|
|
Electrolytes |
Plasmoids |
Rocket Fuel |
None known |
Camera Drones |
|
+ |
Silicon |
Oxidizing Compound |
Silicate Glass |
None known |
Camera Drones, Neocoms |
|
|
Water |
Plasmoids |
Super Conductors |
None known |
Gel-Matrix Biopaste, Ukomi Super Conductor |
|
|
Biomass |
Oxygen |
Supertensile Plastics |
None known |
Data Chips, Planetary Vehicles, Synthetic Synapses |
|
|
Oxygen |
Electrolytes |
Synthetic Oil |
None known |
Cryoprotectant Solution, Ukomi Super Conductor |
|
|
Water |
Bacteria |
Test Cultures |
None known |
Cryoprotectant Solution, Synthetic Synapses |
|
|
Chiral Structures |
Plasmoids |
Transmitter |
None known |
Guidance Systems, Hazmat Detection Systems, High-Tech Transmitter |
|
|
Biomass |
Bacteria |
Viral Agent |
None known |
Hazmat Detection Systems, Vaccines |
|
|
Water |
Reactive Metals |
Water-Cooled CPU |
None known |
Guidance Systems, Supercomputers |
|
|
40 x 0.38 m³ |
40 x 0.38 m³ |
5 x 1.5 m³ |
|
One processed batch turns a combined 30.4 m³ of two P1 materials into 7.5 m³ of a P2 material, again resulting in reduction to approximately 25% of original volume
Tier 3 - Specialized Commodities (P3)
It takes two or three different Processed Materials (P2) to create Refined Commodities (P3) in Advanced Industry Facilities
Planets |
Input 1: P2 |
Input 2: P2 |
Input 3: P2 |
P3 result |
Immediate Uses |
Component in
|
++ |
Nanites |
Livestock |
Construction Blocks |
Biotech Research Reports |
None known |
Wetware Mainframe |
|
+ |
Silicate glass |
Rocket Fuel |
- |
Camera Drones |
None known |
Self-Harmonizing Power Core |
|
|
Oxides |
Coolant |
- |
Condensates |
None known |
Organic Mortar Applicators |
|
+ |
Test Cultures |
Synthetic Oil |
Fertilizer |
Cryoprotectant Solution |
None known |
Wetware Mainframe |
|
++ |
Supertensile Plastics |
Microfiber Shielding |
- |
Data Chips |
None known |
Broadcast Node |
|
++ |
Oxides |
Biocells |
Superconductors |
Gel-Matrix Biopaste |
None known |
Integrity Response Drones |
|
+ |
Water-Cooled CPU |
Transmitter |
- |
Guidance systems |
None known |
Recursive Computing Module |
|
++ |
Polytextiles |
Viral Agent |
Transmitter |
Hazmat Detection Systems |
None known |
Integrity Response Drones |
|
++ |
Polyaramids |
Genetically Enchanced Livestock |
- |
Hermetic Membranes |
None known |
Self-Harmonizing Power Core |
|
++ |
Polyaramids |
Transmitter |
- |
High-Tech Transmitters |
None known |
Broadcast Node |
|
|
Fertilizer |
Polytextiles |
- |
Industrial Explosives |
None known |
Nano Factory |
|
++ |
Biocells |
Silicate Glass |
- |
Neocoms |
None known |
Broadcast Node |
|
++ |
Microfiber Shielding |
Enriched Uranium |
- |
Nuclear Reactors |
None known |
Self-Harmonizing Power Core |
|
++ |
Supertensile Plastics |
Mechanical Parts |
Miniature electronics |
Planetary Vehicles |
None known |
Integrity Response Drones |
|
|
Mechanical Parts |
Consumer Electronics |
N/A |
Robotics |
POS Fuel |
Organic Mortar Applicators |
|
|
Construction Blocks |
Miniature Electronics |
- |
Smartfab Units |
None known |
Shield Conduits |
|
+ |
Water-Cooled CPU |
Coolant |
Consumer Electronics |
Supercomputers |
None known |
Wetware Mainframe |
|
|
Supertensile Plastics |
Test Cultures |
- |
Synthetic Synapses |
None known |
Recursive Computing Module |
|
|
Biocells |
Nanites |
- |
Transcranial Microcontrollers |
None known |
Recursive Computing Module |
|
|
Synthetic Oil |
Superconductors |
- |
Ukomi Super Conductors |
None known |
Nano-Factory |
|
|
Livestock |
Viral Agent |
- |
Vaccines |
None known |
Sterile Conduits |
|
|
10 x 1.5 m³ |
10 x 1.5 m³ |
10 x 1.5 m³ |
3 x 6 m³ |
|
One processed batch turns a combined 30 or 45 m³ of two or three P2 materials into 18 m³ of a P3 material, with volume reduction now only to 40% or 60%
Tier 4 - Advanced Commodities (P4)
Advanced Commodities (P4) are created in High Tech Production Plants and take either three Refined Commodities (P3) each or two P3s and one P1.
Planets |
Input 1: P3 |
Input 2: P3 |
Input 3: P1/3 |
P4 result |
Immediate Uses |
Component in
|
++++ |
Neocoms |
Data Chips |
High-Tech Transmitters |
Broadcast Node |
None known |
? |
|
++++ |
Gel-Matrix Biopaste |
Hazmat Detection Systems |
Planetary Vehicles |
Integrity Response Drones |
None known |
? |
|
+ |
Industrial Explosives |
Ukomi Super Conductors |
Reactive Metals |
Nano-Factory |
None known |
? |
|
++ |
Condensates |
Robotics |
Bacteria |
Organic Mortar Applicators |
None known |
? |
|
++ |
Synthetic Synapses |
Guidance Systems |
Transcranial Microcontrollers |
Recursive Computing Module |
None known |
? |
|
++++ |
Camera Drones |
Nuclear Reactors |
Hermetic Membranes |
Self-Harmonizing Power Core |
None known |
? |
|
++ |
Smartfab Units |
Vaccines |
Water |
Sterile Conduit |
None known |
? |
|
++ |
Supercomputers |
Biotech Research Reports |
Cryoprotectant Solution |
Wetware Mainframe |
None known |
? |
|
|
6 x 6 m³ |
6 x 6 m³ |
6 x 6 m³ or 40 x 0.38 m³ |
1 x 100 m³ |
|
One processed batch turns a combined 108 or 87.2 m³ of three P3 materials or two P3s + one P1 into one 100 m³ P4 item, making volume reduction insignificant at this point, or in the odd case when a P1 material is involved, actually increases the volume beyond the components! Yes, somebody appears to have allowed that guy talking about Perpetual Motion Devices to touch the P4 production chain.