Setting up a planetary colony
The Planetary Interaction feature of the Tyrannis expansion allows players to utilize planetary industries. Below is a general overview of what can be exploited with this new feature.
Contents
Resources
Each Planet has a set of 5 raw resources available to it, which in turn each produce one base good when processed by a planetside production plant. These resources and baseline products are as follows:
| Resource (0.02 m³) (R) | Product (0.04 m³) (P1) | Planet Types |
|---|---|---|
| Autotrophs | Industrial Fibers | Temperate |
| Aqueous Liquids | Water | Barren, Gas, Ice, Oceanic, Storm, Temperate |
| Base Metals | Reactive Metals | Barren, Gas, Ice, Lava, Plasma, Storm |
| Carbon Compounds | Biofuels | Barren, Oceanic, Temperate |
| Complex Organisms | Proteins | Oceanic, Temperate |
| Felsic Magma | Silicon | Lava |
| Heavy Metals | Toxic Metals | Ice, Lava, Plasma |
| Ionic Solutions | Electrolytes | Gas, Ice, Storm |
| Micro Organisms | Bacteria | Barren, Oceanic, Temperate |
| Noble Gas | Oxygen | Gas, Storm |
| Noble Metals | Precious Metals | Barren, Ice, Plasma |
| Non-CS Crystals | Chiral Structures | Lava, Plasma |
| Planktic Colonies | Biomass | Oceanic |
| Reactive Gas | Oxidizing Compound | Gas |
| Suspended Plasma | Plasmoids | Lava, Plasma, Storm |
| 6000 units | 20 units |
Products
First Tier Products
| Output Product (P2) | Input Product 1 (P1) | Input Product 2 (P1) |
|---|---|---|
| Biocells | Biofuels | Precious Metals |
| Construction Blocks | Reactive Metals | Toxic Metals |
| Consumer Electronics | Toxic Metals | Chiral Structures |
| Coolant | Electrolytes | Water |
| Enriched Uranium | Precious Metals | Toxic Metals |
| Fertilizer | Bacteria | Proteins |
| Gen. Enhanced Livestock | Proteins | Biomass |
| Livestock | Proteins | Biofuel |
| Mechanical Parts | Reactive Metals | Precious Metals |
| Microfiber Shielding | Industrial Fibers | Silicon |
| Miniature Electronics | Chiral Structures | Silicon |
| Nanites | Bacteria | Reactive Metals |
| Oxides | Oxidizing Compound | Oxygen |
| Polyaramids | Oxidizing Compound | Industrial Fibers |
| Polytextiles | Biofuels | Industrial Fibers |
| Rocket Fuel | Plasmoids | Electrolytes |
| Silicate Glass | Oxidizing Compound | Silicon |
| Super Conductors | Plasmoids | Water |
| Supertensile Plastics | Oxygen | Biomass |
| Synthetic Oil | Electrolytes | Oxygen |
| Test Cultures | Bacteria | Water |
| Transmitter | Plasmoids | Chiral Structures |
| Viral Agent | Bacteria | Biomass |
| Water-Cooled CPU | Reactive Metals | Water |
| 5 units (3600s) | 40 units | 40 units |
Second Tier Products
| Output Product (0.1 m³) (P3) | Input Product 1 (P2) | Input Product 2 (P2) | Input Product 3 (P2) |
|---|---|---|---|
| Biotech Research Reports | Nanites | Livestock | Construction Blocks |
| Camera Drones | Silicate Glass | Rocket Fuel | |
| Condensates | Oxides | Coolant | |
| Cryoprotectant Solutions | Test Cultures | Synthetic Oil | Fertilizer |
| Data Chips | Supertensile Plastics | Microfiber Shielding | |
| Gel-Matrix Biopaste | Oxides | Biocells | Super Conductors |
| Guidance Systems | Water-Cooled CPU | Transmitter | |
| Hazmat Detection Systems | Polytextiles | Viral Agent | Transmitter |
| Hermetic Membranes | Polyaramids | Gen. Enhanced Livestock | |
| High-Tech Transmitter | Polyaramids | Transmitter | |
| Industrial Explosives | Fertilizer | Polytextiles | |
| Neocoms | Biocells | Silicate Glass | |
| Nuclear Reactors | Microfiber Shielding | Enriched Uranium | |
| Planetary Vehicles | Supertensile Plastics | Mechanical Parts | Miniature Electronics |
| Robotics | Mechanical Parts | Consumer Electronics | |
| Smartfab Units | Construction Blocks | Miniature Electronics | |
| Supercomputers | Water-Cooled CPU | Coolant | Consumer Electronics |
| Synthetic Synapses | Supertensile Plastics | Test Cultures | |
| Transcranial Microcontroller | Biocells | Nanites | |
| Ukomi Super Conductor | Synthetic Oil | Super Conductors | |
| Vaccines | Livestock | Viral Agent | |
| 3 units (3600s) | 10 units | 10 units | 10 units |
Third Tier Products
| Output Product (0.1 m³) (P4) | Input Product 1 (P3 or P1) | Input Product 2 (P3) | Input Product 3 (P3 or P1) |
|---|---|---|---|
| Biotech Prototype | Camera Drones | Nuclear Reactors | Hermetic Membranes |
| Cerebrographic Catalyst | Gel-Matrix Biopaste | Hazmat Detection Systems | Planetary Vehicles |
| Cybergenetic Composits | Condensates | Robotics | Bacteria * |
| Medtekk Recursion Pump | Water * | Smartfab Units | Vaccines |
| Nano-Factory | Industrial Explosives | Ukomi Super Conductor | Reactive Metals * |
| Neural Interface | Synthetic Synapses | Guidance Systems | Transcranial Microcontroller |
| Psychosocial Telemetrics | Neocoms | Data Chips | High-Tech Transmitter |
| Wetware Mainframe | Supercomputers | Biotech Research Reports | Cryoprotectant Solution |
| 1 unit | 6 units (* 40 units) | 6 units | 6 units (* 40 units) |
Colonies
Production Ratios
Output Product Cycle = Input Product 1 + Input Product 2 + Input Product 3
20 P1 = 6000 R
5 P2 = 40 P11 + 40 P12
5 P2 = 12000 R1 + 12000 R2
3 P3 = 10 P21 + 10 P22 + 10 P23
3 P3 = 80 P11 + 80 P12 + 80 P13
3 P3 = 24000 R1 + 24000 R2 + 24000 R3
1 P4 = 6 P31 + 6 P32 + 6 P33
1 P4 = 20 P21 + 20 P22 + 20 P23
1 P4 = 160 P11 + 160 P12 + 160 P13
1 P4 = 48000 R1 + 48000 R2 + 48000 R3
or
1 P4 = 6 P31 + 6 P32 + 40 P13
1 P4 = 6 P31 + 6 P32 + 12000 R3
1 P4 = 20 P21 + 20 P22 + 40 P13
1 P4 = 20 P21 + 20 P22 + 12000 R3
1 P4 = 160 P11 + 160 P12 + 40 P13
1 P4 = 160 P11 + 160 P12 + 12000 R3
1 P4 = 48000 R1 + 48000 R2 + 12000 R3
At a glance:
20 P1 = 6000 R
5 P2 = 80 P1
5 P2 = 24000 R
3 P3 = 30 P2
3 P3 = 240 P1
3 P3 = 72000 R
1 P4 = 18 P3
1 P4 = 60 P2
1 P4 = 480 P1
1 P4 = 144000 R
or
1 P4 = 12 P3 + 40 P1
1 P4 = 12 P3 + 12000 R
1 P4 = 40 P2 + 40 P1
1 P4 = 40 P2 + 12000 R
1 P4 = 360 P1
1 P4 = 320 P1 + 12000 R
1 P4 = 108000 R
