Difference between revisions of "Seawater"

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{{Infobox material
{{Infobox material
| Name          = Seawater
| Name          = Seawater
| Description  =
| Type1        = Natural resource
| Type1        = Natural resource
| State        = Fluid
| State        = Fluid
}}
}}
{{stub}}
 
{{under construction}}
'''Seawater''' is a liquid which is mainly used to get {{infoicon|Water}} and {{infoicon|Brine}}. It can also be used to get rid of {{infoicon|Carbon Dioxide}}, by combining it with {{infoicon|Limestone}} in a [[Gas Injection Pump]]. Seawater can also be directly turned into {{infoicon|Salt}} in an [[Evaporation Pond]]. 
==Buildings comparison==
In the early game only the [[Basic Distiller]] is available. However, in the mid/end game, the [[Thermal Desalinator]] becomes available. Considering both buildings one will be more efficient then the other. When comparing, the total cost is used, thus for the [[Thermal Desalinator]], the [[Boiler (Coal)]] costs are also taken into consideration. Also the recipe with the {{infoicon|Steam Hi}} is used, since this is the easiest to setup. In terms of coal, the [[Basic Distiller]] uses 6 {{infoicon|Coal}} per 60 Seawater, the [[Thermal Desalinator]] uses 4,5 {{infoicon|Coal}} per 60 Seawater. The net gain of {{infoicon|Water}} in the [[Basic Distiller]] is 36 {{infoicon|Water}}, for the [[Thermal Desalinator]] the net gain of {{infoicon|Water}} is also 36. It produces 48 {{infoicon|Water}}, but also consumes 12 {{infoicon|Water}} for the production of {{infoicon|Steam Hi}}. Also in terms of {{infoicon|Brine}} both buiding produce the same amount. In the end when comparing both buildings, the [[Thermal Desalinator]] is more effecient, because it uses less coal.
 
When Brine is the desired output, the [[Evaporation Pond]] is the best building, since it produces 32 {{infoicon|Brine}} per 60 Seawater. When Salt is desired the recipes chosen don't really matter for the cost of sea water. It all depends on the desired setup of buildings.
 
{{Footer Infobox}}

Latest revision as of 14:49, 5 May 2023

Seawater is a liquid which is mainly used to get Water and Brine. It can also be used to get rid of Carbon Dioxide, by combining it with Limestone in a Gas Injection Pump. Seawater can also be directly turned into Salt in an Evaporation Pond.

Buildings comparison

In the early game only the Basic Distiller is available. However, in the mid/end game, the Thermal Desalinator becomes available. Considering both buildings one will be more efficient then the other. When comparing, the total cost is used, thus for the Thermal Desalinator, the Boiler (Coal) costs are also taken into consideration. Also the recipe with the Steam (High) is used, since this is the easiest to setup. In terms of coal, the Basic Distiller uses 6 Coal per 60 Seawater, the Thermal Desalinator uses 4,5 Coal per 60 Seawater. The net gain of Water in the Basic Distiller is 36 Water, for the Thermal Desalinator the net gain of Water is also 36. It produces 48 Water, but also consumes 12 Water for the production of Steam (High). Also in terms of Brine both buiding produce the same amount. In the end when comparing both buildings, the Thermal Desalinator is more effecient, because it uses less coal.

When Brine is the desired output, the Evaporation Pond is the best building, since it produces 32 Brine per 60 Seawater. When Salt is desired the recipes chosen don't really matter for the cost of sea water. It all depends on the desired setup of buildings.

Recipes

Below are all the recipes, which contain this item. Note, that some of them may be locked behind Research, and not immediately available in your game.

Production

Seawater Pump.png
:
PROVIDES
18
Seawater.png
108
/ 10 Clock.png

/ 60 Clock 60s.png
Seawater Pump (Tall).png
:
PROVIDES
18
Seawater.png
108
/ 10 Clock.png

/ 60 Clock 60s.png

Consumption

Basic Distiller.png
:
10
Seawater.png
60
Plus.png
1
Coal.png
6
10 Clock.png
Transform.png
60 Clock 60s.png
6
Water.png
36
Plus.png
4
Brine.png
24
Plus.png
2
Exhaust.png
12
Evaporation Pond.pngStandard
:
30
Seawater.png
45
40 Clock.png
Transform.png
60 Clock 60s.png
16
Brine.png
24
Evaporation Pond.pngStandard
:
30
Seawater.png
22.5
80 Clock.png
Transform.png
60 Clock 60s.png
8
Salt.png
6
Evaporation Pond (Heated).pngHeated
:
30
Seawater.png
90
20 Clock.png
Transform.png
60 Clock 60s.png
16
Brine.png
48
Evaporation Pond (Heated).pngHeated
:
30
Seawater.png
45
40 Clock.png
Transform.png
60 Clock 60s.png
8
Salt.png
12
Gas Injection Pump.png
:
ACCEPTS
12
Carbon Dioxide.png
72
Plus.png
4
Seawater.png
24
/ 10 Clock.png

/ 60 Clock 60s.png
Liquid Dump.png
:
ACCEPTS
2
Seawater.png
60
/ 2 Clock.png

/ 60 Clock 60s.png
Thermal Desalinator.png
:
5
Seawater.png
15
Plus.png
8
Steam Depleted.png
24
20 Clock.png
Transform.png
60 Clock 60s.png
11
Water.png
33
Plus.png
2
Brine.png
6
Thermal Desalinator.png
:
12
Seawater.png
72
Plus.png
4
Steam (Low).png
24
10 Clock.png
Transform.png
60 Clock 60s.png
12
Water.png
72
Plus.png
4
Brine.png
24
Thermal Desalinator.png
:
18
Seawater.png
108
Plus.png
2
Steam (High).png
12
10 Clock.png
Transform.png
60 Clock 60s.png
13
Water.png
78
Plus.png
7
Brine.png
42
Thermal Desalinator.png
:
18
Seawater.png
108
Plus.png
1
Steam (Super).png
6
10 Clock.png
Transform.png
60 Clock 60s.png
12
Water.png
72
Plus.png
7
Brine.png
42