Buildings
Algae Vat
An advanced biological vat that grows algae. Due to the controlled atmospheric condition, this algae formation produces oxygen more efficiently than the standard terrarium. This unit also uses advanced filter to extract Carbon Dioxide from its surroundings, albeit its not necessery for it to function.
Algae patch needs Water to grow, producing a fair amount of clean Oxygen as result of its biological functions. Excess water is expelled in the form of Polluted Water.
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Dimensions: |
3 wide x 4 high |
| Power Consumption: |
60 W |
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| Research Required: |
Air Systems |
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| Material Costs: |
| Refined Metal | 200 kg | | Cultivable Soil | 300 kg |
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| Building Ports: |
| Inputs: | Outputs: |
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| Water Input Pipe | Liquid Output Pipe | | - | Oxygen Output Pipe |
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Element Conversion
| Inputs: |
Outputs: |
 Algae (75 g/s)
 Water (800 g/s)
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 Oxygen (200 g/s at 30°C)
 Polluted Water (962.5 g/s at 30°C)
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| Inputs: |
Outputs: |
 Carbon Dioxide (8.5 g/s)
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Polluted Water (30 g/s at 30°C)
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Carbon fueled Steam Boiler
An industrial grade boiler that generates thermal energy by burning solid fossil fuels.
Boils Water to Steam at 200 °C.
This particular boiler uses Combustustable Solids as fuel.
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Dimensions: |
3 wide x 4 high |
| Power Consumption: |
- |
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| Research Required: |
Fossil Fuels |
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| Material Costs: |
| Refined Metal | 1200 kg | | Ceramic | 1000 kg |
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| Storage Capacity: |
10 t |
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| Building Ports: |
| Inputs: | Outputs: |
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| Water Input Pipe | Steam Output Pipe |
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Element Conversion
| Inputs: |
Outputs: |
 Combustible Solid (1500 g/s)
Water (4000 g/s)
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 Steam (4000 g/s at 200°C)
Carbon Dioxide (200 g/s at 110°C)
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CO2 Filter
A fancy pump capable to detects Carbon Dioxide and pump it.
Automatically detects trace of Carbon Dioxide and extract it out of the surroudings.
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Dimensions: |
1 wide x 1 high |
| Power Consumption: |
10 W |
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| Research Required: |
Agriculture |
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| Material Costs: |
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| Building Ports: |
| Inputs: | Outputs: |
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| - | Gas Output Pipe |
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Coral Vat
An advanced biological vat that grows a special colony of marine invertebrates, engineered from the Earth species of the class Anthozoa. This unit also uses advanced filter to extract Chlorine Gas from its surroundings, albeit its not necessery for it to function.
Coral colony needs Salt Water or Brine to grow, producing a fair amount of clean Water as result of its biological functions. The coral colony will also excreate tiny particles of Bleach Stone, which are filtered from the water and later released as a solid mass.
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Dimensions: |
3 wide x 4 high |
| Power Consumption: |
360 W |
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| Research Required: |
Liquid-Based Refinement Processes |
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| Material Costs: |
| Refined Metal | 200 kg | | Filtration Medium | 300 kg |
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| Building Ports: |
| Inputs: | Outputs: |
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| Water Based Input Pipe | Liquid Output Pipe |
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Element Conversion
| Inputs: |
Outputs: |
 Salt Water (2000 g/s)
 Sand (50 g/s)
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Water (1860 g/s at -273.15°C)
 Bleach Stone (22.4 g/s at -273.15°C)
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| Inputs: |
Outputs: |
 Brine (2000 g/s)
Sand (50 g/s)
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Water (1400 g/s at 40°C)
Bleach Stone (96 g/s at 40°C)
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| Inputs: |
Outputs: |
 Chlorine Gas (50 g/s)
Sand (100 g/s)
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Bleach Stone (8 g/s at 30°C)
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Ethanol Polymer Press
A custom polymerization press capable of producing polymer from Ethanol.
Special modifications allows the polymerization of Ethanol into raw Plasticwith the addition of Chlorine Gas.
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Dimensions: |
3 wide x 3 high |
| Power Consumption: |
240 W |
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| Research Required: |
Plastic Manufacturing |
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| Material Costs: |
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| Building Ports: |
| Inputs: | Outputs: |
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| Ethanol Input Pipe | Gas Output Pipe | | Chlorine Gas Input Pipe | - |
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Element Conversion
| Inputs: |
Outputs: |
 Ethanol (2500 g/s)
Chlorine Gas (100 g/s)
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 Plastic (500 g/s at 75°C)
Steam (250 g/s at 200°C)
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Ethanol Stil
A solid metal still capable of distillation by selective temperature.
Distills Ethanol from a fermented mixture of Sucrose and Water. The fermenting process occurs with Slime bacterias by the degradation of organic nutrients anaerobically.
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Dimensions: |
4 wide x 5 high |
| Power Consumption: |
120 W |
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| Research Required: |
Distillation |
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| Material Costs: |
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| Building Ports: |
| Inputs: | Outputs: |
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| Water Input Pipe | Liquid Output Pipe |
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Element Conversion
| Inputs: |
Outputs: |
 Sucrose (200 g/s)
Water (1000 g/s)
 Slime (50 g/s)
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Ethanol (800 g/s at 74°C)
Carbon Dioxide (200 g/s at 42°C)
 Polluted Mud (200 g/s at 54°C)
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Flocculation Sieve
A dedicated industrial sieve that flocculates colloidal particles out of suspension to sediment under the form of floc. Strong filter media further improves the cleaning process of liquids.
Treat Polluted Water or Toxic Slurry using special filter and chemicals. Sieve process also completely removesGerms.
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Dimensions: |
4 wide x 3 high |
| Power Consumption: |
240 W |
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| Research Required: |
Liquid-Based Refinement Processes |
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| Material Costs: |
| Steel or Hardened Alloy | 200 kg | | Plastics | 100 kg |
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| Building Ports: |
| Inputs: | Outputs: |
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| Chlorine Gas Input Pipe | Liquid Output Pipe | | Polluted Water Input Pipe | - | | Toxic Slurry Input Pipe | - |
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Element Conversion
| Inputs: |
Outputs: |
Polluted Water (5 kg/s)
Chlorine Gas (2500 mg/s)
 Crushed Rock (24 g/s)
 Refined Carbon (34 g/s)
Sand (42 g/s)
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Water (4900 g/s at -273.15°C)
 Clay (110 g/s at -273.15°C)
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| Inputs: |
Outputs: |
 Toxic Slurry (5 kg/s)
Chlorine Gas (2500 mg/s)
Crushed Rock (24 g/s)
Refined Carbon (34 g/s)
Sand (42 g/s)
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Water (2000 g/s at -273.15°C)
 Slag (3100 g/s at -273.15°C)
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Gas-fueled Steam Boiler
An industrial grade boiler that generates thermal energy by burning Combustible Gases.
Boils Water to Steam at 200 °C. This particular boiler uses Combustible Gases as fuel, but may as well work with other combustible gases.
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Dimensions: |
3 wide x 4 high |
| Power Consumption: |
- |
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| Research Required: |
Fossil Fuels |
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| Material Costs: |
| Refined Metal | 1200 kg | | Ceramic | 1000 kg |
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| Storage Capacity: |
10 t |
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| Building Ports: |
| Inputs: | Outputs: |
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| Water Input Pipe | Steam Output Pipe | | Combustible Gas Input Pipe | - |
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Element Conversion
| Inputs: |
Outputs: |
 Combustible Gas (101.3 g/s)
Water (4000 g/s)
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Steam (4000 g/s at 200°C)
Carbon Dioxide (200 g/s at 110°C)
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Salt Water Mixer
A simple device capable of producing high-quality salt water.
Produces Salt Water using provided Water and Salt.
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Dimensions: |
1 wide x 4 high |
| Power Consumption: |
90 W |
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| Research Required: |
Distillation |
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| Material Costs: |
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| Building Ports: |
| Inputs: | Outputs: |
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| Water Input Pipe | Liquid Output Pipe |
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Element Conversion
| Inputs: |
Outputs: |
Water (4650 g/s)
 Salt (350 g/s)
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Salt Water (5 kg/s at 27°C)
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Slime Vat
An advanced biological vat that grows a culture of mucopolysaccharides and multicelular fungi mould. This unit also uses advanced filter to extract Polluted Oxygen from its surroundings, albeit its not necessery for it to function.
Slime Vat needs Water and Mush Bar to grow, producing Slime outgrowth that is collected from the botton. Due to its nature, the slime its produce will be contaminated with Slimelung.
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Dimensions: |
3 wide x 4 high |
| Power Consumption: |
360 W |
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| Research Required: |
Liquid-Based Refinement Processes |
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| Material Costs: |
| Refined Metal | 800 kg | | Cultivable Soil | 400 kg |
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| Building Ports: |
| Inputs: | Outputs: |
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| Water Input Pipe | - |
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Element Conversion
| Inputs: |
Outputs: |
 Mush Bar (10 g/s)
Water (50 g/s)
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Slime (60 g/s at -273.15°C)
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| Inputs: |
Outputs: |
 Polluted Oxygen (25 g/s)
Mush Bar (5 g/s)
 Dirt (50 g/s)
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Slime (50 g/s at -273.15°C)
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Wood-fueled Steam Boiler
An industrial grade boiler that generates thermal energy by burning wood.
Boils Water to Steam at 200 °C. This particular boiler uses Wood as fuel.
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Dimensions: |
3 wide x 4 high |
| Power Consumption: |
- |
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| Research Required: |
Fossil Fuels |
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| Material Costs: |
| Refined Metal | 1200 kg | | Ceramic | 1000 kg |
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| Storage Capacity: |
10 t |
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| Building Ports: |
| Inputs: | Outputs: |
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| Water Input Pipe | Steam Output Pipe |
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Element Conversion
| Inputs: |
Outputs: |
 Wood (3600 g/s)
Water (4000 g/s)
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Steam (4000 g/s at 200°C)
Carbon Dioxide (500 g/s at 110°C)
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