Buildings

Advanced Kiln

Adress a wide range of industrial and chemical applications.

An advanced insulated electrical kiln in which the heat is applied by induction heating of metal.
The advantage of the induction kiln is a clean, energy-efficient and well-controllable heating process compared to most other means of fuel heating.

	Dimensions:	3 wide x 3 high
	Power Consumption:	800 W	⁠
	Research Required:	Smelting	⁠
Material Costs:	Refined Metal 200 kg		⁠

Recipes

Ingredients:	Time:	Products:
Coal (500 kg)	30s	Refined Carbon (500 kg)
Wood (800 kg)	30s	Refined Carbon (500 kg)
Peat (1200 kg)	30s	Refined Carbon (500 kg)
Clay (300 kg) Sand (200 kg)	30s	Ceramic (500 kg)
Oil Shale (500 kg)	40s	Cement (350 kg) Crude Oil (25 kg) Low-Grade Metallic Sand (50 kg)
Clay (300 kg) Sand (200 kg)	30s	Brick (500 kg)

Advanced Metal Refinery

An improved refinery capable of bulk smelting process, as well exclusive metal production.

An advanced method for production of Refined Metals from raw Metal Ore.

Significantly Heats and exclusively uses Super Coolant piped into it.

Duplicants will not fabricate items unless recipes are queued.

	Dimensions:	3 wide x 5 high
	Power Consumption:	3 kW	⁠
	Research Required:	Superheated Forging	⁠
Material Costs:	Steel or Hardened Alloy 1000 kg Ceramic 600 kg		⁠
Building Ports:	Inputs: Outputs: Super Coolant Input Pipe Liquid Output Pipe		⁠

Recipes

Ingredients:	Time:	Products:
Copper Ore (400 kg)	40s	Copper (400 kg)
Cobalt Ore (400 kg)	40s	Cobalt (400 kg)
Wolframite (400 kg)	40s	Tungsten (400 kg)
Silver Ore (400 kg)	40s	Silver (400 kg)
Aluminum Ore (400 kg)	40s	Aluminum (400 kg)
Gold Amalgam (400 kg)	40s	Gold (400 kg)
Zinc Ore (400 kg)	40s	Zinc (400 kg)
Nickel Ore (400 kg)	40s	Nickel (400 kg)
Thermium (400 kg)	40s	Niobium (400 kg)
Iron Ore (400 kg)	40s	Iron (400 kg)
Cinnabar Ore (400 kg)	40s	Mercury (400 kg)
Electrum (400 kg)	40s	Gold (250 kg) Copper (150 kg)
Pyrite (400 kg)	40s	Iron (300 kg) Sulfur (100 kg)
Abyssalite (400 kg) Refined Carbon (100 kg) Lime (20 kg)	40s	Tungsten (50 kg) Refined Phosphorus (100 kg) Sand (350 kg)
Iron (280 kg) Refined Carbon (80 kg) Lime (40 kg)	40s	Steel (400 kg)

Ball Crusher Mill (Mechanical Separation)

A large sized industrial mill that crushes raw ores using steel balls and special vibrating separation device to sort out possible useful resources.

Crush down Raw Minerals in to useful materials and industrial ingredients.

	Dimensions:	5 wide x 3 high
	Power Consumption:	800 W	⁠
	Research Required:	Superheated Forging	⁠
Material Costs:	Steel or Hardened Alloy 1000 kg		⁠

Recipes

Ingredients:	Time:	Random Products:
Sandstone (500 kg)	50s	Crushed Rock Sand Copper Ore Electrum Fertilizer
Sedimentary Rock (500 kg)	50s	Crushed Rock Clay Gold Amalgam Pyrite Cobalt Ore Salt
Shale (500 kg)	50s	Crushed Rock Clay Gold Amalgam Pyrite Cobalt Ore Salt
Igneous Rock (500 kg)	50s	Crushed Rock Sand Pyrite Sulfur Iron Ore Obsidian
Granite (500 kg)	50s	Crushed Rock Sand Aluminum Ore Iron Ore Obsidian
Mafic Rock (500 kg)	50s	Crushed Rock Sand Aluminum Ore Electrum Refined Phosphorus
Abyssalite (500 kg)	50s	Wolframite Tungsten Refined Phosphorus Obsidian Diamond Crushed Rock Sand

Basic Oil Refinery

A basic oil refinery that uses burning solids as heat source.

Refines Crude Oil to Petroleum using Coal as heat source.
The refinement process produces Natural Gas and Carbon Dioxide.

IMPORTANT: The Gases output ports piping is optional. If no Gas Pipe is attached to them, the output gases will be released directly on the environment.

	Dimensions:	3 wide x 4 high
	Power Consumption:	90 W	⁠
	Research Required:	Fossil Fuels	⁠
Material Costs:	Metal Ore 200 kg		⁠
Building Ports:	Inputs: Outputs: Crude Oil Input Pipe Liquid Output Pipe - Carbon Dioxide Output Pipe - Natural Gas Output Pipe		⁠

Element Conversion

Inputs:	Outputs:
Crude Oil (5 kg/s) Combustible Solid (100 g/s)	Petroleum (2500 g/s at 98°C) Carbon Dioxide (50 g/s) Natural Gas (90 g/s at 115°C)

Glass Foundry

A plasma arc furnace uses low-temperature plasma flow created by an electric arc heater (plasmatron).

This techlogical advanced glass foundry is capable more than melt Sand in to Molten Glass, but a wide range of other applications.

	Dimensions:	3 wide x 3 high
	Power Consumption:	2.4 kW	⁠
	Research Required:	Superheated Forging	⁠
Material Costs:	Ceramic 500 kg Refined Metal 200 kg		⁠
Building Ports:	Inputs: Outputs: - Liquid Output Pipe		⁠

Recipes

Ingredients:	Time:	Products:
Sand (300 kg)	30s	Molten Glass (100 kg)
Crushed Ice (500 kg)	10s	Water (500 kg)
Brine Ice (500 kg)	10s	Brine (500 kg)
Snow (500 kg)	10s	Water (500 kg)
Ice (500 kg)	10s	Water (500 kg)
Packed Snow (500 kg)	10s	Water (500 kg)
Polluted Ice (500 kg)	10s	Polluted Water (500 kg)

Jaw Crusher Mill

A jaw crusher uses compressive force for breaking of stone and other raw minerals.

Crush down Raw Minerals in to useful materials and industrial ingredients.

	Dimensions:	3 wide x 2 high
	Power Consumption:	120 W	⁠
	Research Required:	Brute-Force Refinement	⁠
Material Costs:	Metal Ore 200 kg		⁠

Recipes

Ingredients:	Time:	Products:
Egg Shell (5 kg)	20s	Lime (5 kg)
Pokeshell Molt (1000 g)	20s	Lime (10 kg)
Oakshell Molt (5 kg)	20s	Wood (500 kg)
Fossil (100 kg)	40s	Lime (5 kg) Crushed Rock (70 kg) Sand (25 kg)
Salt (100 kg)	40s	Borax (5 kg) Sand (95 kg) Table Salt (50 g)
Phosphate Nodules (100 kg)	40s	Refined Phosphorus (70 kg) Crushed Rock (30 kg)
Crushed Rock (100 kg)	30s	Sand (100 kg)
Obsidian (100 kg)	30s	Sand (100 kg)
Shale (100 kg)	40s	Crushed Rock (100 kg)
Ceramic (100 kg)	40s	Crushed Rock (100 kg)
Igneous Rock (100 kg)	40s	Crushed Rock (100 kg)
Brick (100 kg)	40s	Crushed Rock (100 kg)
Granite (100 kg)	40s	Crushed Rock (100 kg)
Sedimentary Rock (100 kg)	40s	Crushed Rock (100 kg)
Sandstone (100 kg)	40s	Crushed Rock (100 kg)
Copper Ore (100 kg)	40s	Copper (50 kg) Sand (50 kg)
Cobalt Ore (100 kg)	40s	Cobalt (50 kg) Sand (50 kg)
Wolframite (100 kg)	40s	Tungsten (50 kg) Sand (50 kg)
Silver Ore (100 kg)	40s	Silver (50 kg) Sand (50 kg)
Aluminum Ore (100 kg)	40s	Aluminum (50 kg) Sand (50 kg)
Gold Amalgam (100 kg)	40s	Gold (50 kg) Sand (50 kg)
Zinc Ore (100 kg)	40s	Zinc (50 kg) Sand (50 kg)
Nickel Ore (100 kg)	40s	Nickel (50 kg) Sand (50 kg)
Thermium (100 kg)	40s	Niobium (50 kg) Sand (50 kg)
Iron Ore (100 kg)	40s	Iron (50 kg) Sand (50 kg)
Cinnabar Ore (100 kg)	40s	Mercury (50 kg) Sand (50 kg)
Electrum (100 kg)	40s	Gold (25 kg) Copper (15 kg) Sand (50 kg)
Pyrite (100 kg)	40s	Iron (30 kg) Sand (70 kg)
Slag (100 kg) Crushed Rock (20 kg)	40s	Cement (80 kg) Base-Grade Metallic Sand (12.5 kg) High-Grade Metallic Sand (7.5 kg)

Plasma Furnace

An advanced pyrometallurgical furnace that uses an extremely hot thermal plasma generated by a carrier gas jet. The high energy consumption is compensated by the quality and the yield of the refining process.

An advanced method for the refinement of Metal Ores and other Raw Minerals.

Produces significant amounts of Heat and consumes carrier gases during manufacturing.

Main products are dispensed in molten state directly in the floor below the building while the liquid waste is released in a separated port.

	Dimensions:	5 wide x 5 high
	Power Consumption:	5 kW	⁠
	Research Required:	Catalytics	⁠
Material Costs:	Ceramic 2000 kg Tungsten 1000 kg		⁠
Building Ports:	Inputs: Outputs: Carrier Gas Input Pipe Glass Output Pipe - Glass Output Pipe		⁠

Element Conversion

Inputs:	Outputs:
Carrier Gas (100 g/s)	Carbon Dioxide (25 g/s at 75°C)

Recipes

Ingredients:	Time:	Products:
Sand (150 kg) Salt (10 kg)	10s	Molten Glass (150 kg)
Copper Ore (500 kg)	10s	Molten Copper (500 kg)
Cobalt Ore (500 kg)	10s	Molten Cobalt (500 kg)
Wolframite (500 kg)	10s	Molten Tungsten (500 kg)
Silver Ore (500 kg)	10s	Molten Silver (500 kg)
Aluminum Ore (500 kg)	10s	Molten Aluminum (500 kg)
Gold Amalgam (500 kg)	10s	Molten Gold (500 kg)
Zinc Ore (500 kg)	10s	Molten Zinc (500 kg)
Nickel Ore (500 kg)	10s	Molten Nickel (500 kg)
Thermium (500 kg)	10s	Molten Niobium (500 kg)
Iron Ore (500 kg)	10s	Molten Iron (500 kg)
Electrum (500 kg)	10s	Molten Gold (300 kg) Molten Copper (200 kg)
Pyrite (500 kg)	10s	Molten Iron (400 kg) Liquid Sulfur (100 kg)
Iron (425 kg) Refined Carbon (50 kg) Lime (25 kg)	10s	Molten Steel (500 kg)
Abyssalite (500 kg) Lime (20 kg)	20s	Molten Tungsten (120 kg) Magma (380 kg)

Pyrolysis Kiln

A basic kiln that uses pyrolysis process to convert woodlogs to usable coal.

Cook Wood to Coal.

	Dimensions:	1 wide x 2 high
	Power Consumption:	-	⁠
	Research Required:	Brute-Force Refinement	⁠
Material Costs:	Metal Ore 200 kg		⁠

Element Conversion

Inputs:	Outputs:
Wood (1000 g/s)	Coal (330 g/s at 39°C) Carbon Dioxide (100 g/s at 97°C)

Soil Mixer

A mixer designed for uniform blending of a wide variety of solid materials, while treating them with chemicals.

A solid material mixer designed for agricultural purpose, mainly for the production of Dirt and Fertilizer.

	Dimensions:	4 wide x 4 high
	Power Consumption:	480 W	⁠
	Research Required:	Agriculture	⁠
Material Costs:	Refined Metal 400 kg		⁠
Building Ports:	Inputs: Outputs: Polluted Water Input Pipe - Water Input Pipe - Ammonia Input Pipe -		⁠

Recipes

Ingredients:	Time:	Products:
Refined Phosphorus (50 kg) Crushed Rock (40 kg) Water (10 kg)	60s	Phosphate Nodules (100 kg)
Phosphate Nodules (50 kg) Dirt (40 kg) Water (10 kg)	60s	Phosphorite (100 kg)
Crushed Rock (40 kg) Polluted Dirt (20 kg) Coal (20 kg) Water (20 kg)	60s	Dirt (100 kg)
Crushed Rock (40 kg) Polluted Dirt (20 kg) Peat (20 kg) Water (20 kg)	60s	Dirt (100 kg)
Crushed Rock (40 kg) Polluted Dirt (20 kg) Wood (20 kg) Water (20 kg)	60s	Dirt (100 kg)
Wood (60 kg) Crushed Rock (30 kg) Polluted Water (10 kg)	60s	Polluted Dirt (100 kg)
Compressed Biomass (40 kg) Crushed Rock (50 kg) Water (10 kg)	60s	Dirt (100 kg)