Difference between revisions of "Electrolyzer"

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{{Infobox machine
{{Infobox machine
| Name          = Electrolyzer
| Name          = Electrolyzer
| Description  = Decomposes a product into simpler substances by passing an electric current through it.
| Recipe        =  
| Recipe        =  
   {{Machine Recipe
   {{Machine Recipe
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The '''Electrolyzer''' is the sole machine capable of creating {{infoicon|Chlorine}} for the processing of {{infoicon|Waste Water}} in [[Wastewater Treatment]] facilities and the production of {{infoicon|Plastic}} in [[Polymerization Plant]]s.
The '''Electrolyzer''' is the sole machine capable of creating {{infoicon|Chlorine}} for the processing of {{infoicon|Waste Water}} in [[Wastewater Treatment]] facilities and the production of {{infoicon|Plastic}} in [[Polymerization Plant]]s.


It is also the only machine able to make {{infoicon|Hydrogen}} without additional byproducts that cause [[Pollution]], making it a critical component in [[Heavy Oil Cracking]] systems, {{infoicon|Fuel Gas}} [[Fuel Gas Synthesis|synthesis]], the production of {{infoicon|Silicon (Poly)}} for {{infoicon|Electronics}}, and {{infoicon|Uranium Pellets}} for creating {{infoicon|Uranium Rod}}s to power [[Nuclear Reactor]]s. This machine is capable of breaking down {{infoicon|Ammonia}} into {{infoicon|Nitrogen}} and {{infoicon|Hydrogen}} which allows for Pollution-free [[Flare|flaring]]/[[Smoke Stack|venting]] of the constituent parts.
It is also the only machine able to make {{infoicon|Hydrogen}} without additional byproducts that cause [[Pollution]], making it a critical component in [[Heavy Oil Cracking]] systems, {{infoicon|Fuel Gas}} [[Fuel Gas Synthesis|synthesis]], the production of {{infoicon|Silicon (Poly)}} for {{infoicon|Electronics}}, and {{infoicon|Uranium Pellets}} for creating {{infoicon|Uranium Rod|plural=s}} to power [[Nuclear Reactor]]s. This machine is capable of breaking down {{infoicon|Ammonia}} into {{infoicon|Nitrogen}} and {{infoicon|Hydrogen}} which allows for Pollution-free [[Flare|flaring]]/[[Smoke Stack|venting]] of the constituent parts.


==Comparison to the Air Separator==
==Comparison to the Air Separator==

Revision as of 07:22, 29 January 2022

General Machines.png
Electrolyzer
Electrolyzer.png
Construction
Construction Parts III.png
40
WorkersWorker.png 3
ElectricityElectricity.png 150 KW
MaintenanceMaintenance I.png 2.0 / 60 Clock.png
Footprint5x4
Required ResearchElectrolysis
DesignationGeneral Machines General Machines.png

The Electrolyzer is the sole machine capable of creating Chlorine for the processing of Waste Water in Wastewater Treatment facilities and the production of Plastic in Polymerization Plants.

It is also the only machine able to make Hydrogen without additional byproducts that cause Pollution, making it a critical component in Heavy Oil Cracking systems, Fuel Gas synthesis, the production of Silicon (Poly) for Electronics, and Uranium Pellets for creating Uranium Rods to power Nuclear Reactors. This machine is capable of breaking down Ammonia into Nitrogen and Hydrogen which allows for Pollution-free flaring/venting of the constituent parts.

Comparison to the Air Separator

The Electrolyzer is capable of generating Oxygen by splitting Water, though it is vastly outclassed by the Air Separator, which can create it directly from the atmosphere, in nearly every metric. Comparatively, it requires nearly double the Electricity requirement (150 KW vs 80 KW), produces a fraction of the output (1.5 /60s vs 24 /60s), and requires both Steel and Construction Parts III production lines (or trading) to erect. However, the Electrolyzer carries a smaller footprint (5x4 vs 9x6) when input piping is not considered, which makes it potentially viable for this Oxygen generation in niche cases where very both low output is acceptable and build space is very limited.

Recipes

12
Brine.png
72
10 Clock.png
Transform.png
60 Clock 60s.png
2
Chlorine.png
12
1
Water.png
1.5
40 Clock.png
Transform.png
60 Clock 60s.png
1
Oxygen.png
1.5
Plus.png
2
Hydrogen.png
3
2
Ammonia.png
12
10 Clock.png
Transform.png
60 Clock 60s.png
4
Nitrogen.png
24
Plus.png
4
Hydrogen.png
24