Stationeers Community Wiki - User contributions [en]

Filtration

2024-06-28T00:45:56Z

Telarin:

[[Category:Atmospherics]]
<languages/>
<translate>
{{Structurebox
| name = Filtration
| image = [[File:filtration.jpg]]
| power_usage = 5w
| placed_with_item = [[Kit (Atmospherics)]]
| placed_on_grid = Small Grid

| const_with_item1 = 2 x [[Kit (Pipe)]]
| decon_with_tool1 = [[Hand Drill]]
| item_rec1 = [[Kit (Atmospherics)]]

| const_with_tool2 = [[Screwdriver]]
| const_with_item2 = [[Cable Coil]]
| decon_with_tool2 = [[Wrench]]

| decon_with_tool3 = [[Hand Drill]]
}}

=Description=
Used to separate [[Gas|gases]] from one [[Pipes|pipe]] network into another using [[Filter|filters]]. Can filter up to two (2) gases at once. [[Guide (Filtration)]] provides additional information regarding the function, construction, and operation of a Filtration unit.

=Usage=
Once you have placed the Filtration Unit in your desired location, there are 3 separate connections that will need to be made:
# '''Input''' - Starting gas network that you want to filter from
# '''Output''' - Filtered gas
# '''Waste''' - Remaining unfiltered gas from the input
 

Place the appropriate [[filter]](s) in the Filtration unit for the particular [[gas]] that your want to filter. Up to two filters can be placed into a filtration unit. If these are different types of filters, both types of gas will be filtered simultaneously. Placing two of the same type of filter in the unit does not increase filtration speed, it just provides redundancy for when one of the filters runs out.

'''Warning: If run without filters or the filters are exhausted, all input gases will be moved directly to waste!'''

Be aware that the filtration unit unrealistically has an infinitely powerful pump integrated into its output port. That means as long as it is turned on and there is gas to filter out from the input, it will pump that filtered out gas into the output pipe network (no matter how high the pressure in that output pipe network already is!). So eventually that pipe network will burst (around 60 MPa) unless you provide some sort of pop-off valve (e.g. a combination of a back-pressure regulator and a passive vent), use a pipe analyzer and some logic to turn the filtration unit off when a certain amount of pressure is exceeded in the output pipe network, or use the onboard IC10 and a data connection to the output (tank or pipe analyzer) to disable the unit when it reaches a certain threshold. Note that on-board IC10 chips do not execute when the unit is turned off, so an '''on-board''' IC10 is only capable of turning the unit '''off''' if output pressure is too high, it is not capable of turning the unit back '''on''' once output pressure drops.

As of patch [https://steamcommunity.com/app/544550/eventcomments/3812910660676171439 patch 0.2.4218.19726], the filtration system processing speed is based the difference between the pressure of input and '''higher pressure''' of the two outputs. If the higher-pressure output is equal to or higher than the input pressure, the unit will process an amount of input gas equivalent to 10 MPa per litre, per tick, with the amount pushed to the two outputs based on the partial pressure of the gas being filtered in the input. For example, if a unit is set to filter nitrogen, and the input is 20% at 10 MPa, and the higher of the two outputs is at >= 10 MPa (for example, if the waste output is connected back to the input), then the unit will push, per tick, 2 MPa-litres (ie. 200 kPa in a single 10 L pipe segment) to the filtered output, and 8 MPa-litres to the waste output.

If the pressure of the highest-pressure output is less than the input pressure, the unit will process per tick will be equal to 10 MPa*L + (PressureDifferential * 3.16885) MPa*L, where the PressureDifferential is the input pressure minus the output pressure, in MPa. As above, this output is split between the filtered output and the waste output based on the partial pressure of the filtered gas in the input. As an example, if the input pressure is 10 MPa at 20% nitrogen, and the higher-pressure of the outputs is at 2 MPa, the unit will process 1 + (10-2) * 3.16885 = 35.351 MPa*L, which is equivalent to increasing the pressure of a single 10 L pipe segment by 3.5351 MPa. 20% of this, or 7.07 MPa*L, would be pushed to the output (if the output is a single 10 L pipe segment, this would increase its pressure by 707 kPa), and the remaining 80% (28.28 MPa*L) would be pushed to the waste output.

In effect, if the waste output is connected to the input, and the filtered output is a single pipe segment (followed by a pump), the rate of output for the filtered gas will be 10 kPa per tick multiplied by the percentage of gas in the input that matches the filter (ex. if 20% nitrogen, 200 kPa to that single pipe segment per tick). If both the outputs are instead single pipe segments fed into volume pumps, so they remain at 0 pressure at all times, the rate of output of the filtered gas will be the percentage of the gas in the input that matches the filter multiplied by 1 MPa + 31.69% of the pressure of the input (ex. 10 MPa input, 20% nitrogen, the single pipe segment on the filtered output would gain 0.2 * (1 + 3.169) = 834 kPa per tick).

=Characteristics=
* It has a manual power switch.
* It consumes 10W of [[Power]] per [[Tick]] when idle and 44W when active.
* It has a separate [[Power Port]] and [[Data Port]].
* It has an on-board IC10 chip slot.
* It has a pipe port (labelled "Input") for the gas mixture from which the designated gas(es) '''will be''' filtered.
* It has a pipe port (labelled "Filtered") for the designated gas(es) that '''have been''' filtered. (This is in line with and directly opposite of the input)
* It has a pipe port (labelled "Unfiltered") for any remaining unfiltered gases. (This is to the side)
* It can filter up to 2 different gases at once by inserting two different filters.
** Inserting two of the '''same''' type of filter does not increase filtration speed.
Note: When using an I/O slot reader chip, the filter slots are labeled as slot 1, slot 2 and slot 3(IC), with 1 being the slot closer to the inlet.
When using an IC chip, the slots are labeled as slot 0, slot1 and slot 2(IC).

=User Interface=
A Filtration unit provides the following user interface:
{| class="wikitable"
|-
! Name || Type !! Function
|-
| [[Filters|Filter]] (Right) || Slot 0 || Port for a gas filter. If gas of the same type is present in the incoming mixture, it will be redirected out the "Filtered" pipe port.
|-
| Filter (Left) || Slot 1 || Another Port for a gas filter that functions the same as its twin slot. May contain the same or a different filter.
|-
| v || Slot 2 || IC10 placed in filtration unit (has 2 Input/Outputs)
|-
| On || Switch || Switches Filtration unit between turned on or turned off. (On=1/Off=0)
|-
|}

{{Data Network Header}}

{{Data Parameters}}

{| class="wikitable"
|-
! Parameter Name !! Data Type !! Description
|-
| On || Boolean || Powers on the Filtration unit on when set to 1. Powers off when set to 0.
|-
| Open || Boolean ||
|-
| Setting || Integer ||
|-
| Lock || Boolean ||
|-
| Mode || Boolean || 0: idle, 1: Active
|}

{{Data Outputs}}

{| class="wikitable"
|-
! Output Name !! Data Type !! Description
|-
| Power || Boolean || Returns whether the Filtration unit is turned on and receives power. (0 for no, 1 for yes)
|-
| Open || Boolean || Returns whether the Filtration unit IC Slot cover is open or closed. (0 for closed, 1 for open)
|-
| Mode || Boolean || Returns whether the Filtration unit is active or idle (0 for idle, 1 for Active)
|-
| Error || Boolean || Returns whether the Filtration unit is flashing an error. (0 for no, 1 for yes)
|-
| Lock || Boolean || Returns whether the Filtration unit is locked. (0 for no, 1 for yes)
|-
| Setting || Integer ||
|-
| Maximum || Integer ||
|-
| Ratio || Float ||
|-
| On || Boolean || Returns whether the Filtration unit is turned on. (0 for no, 1 for yes)
|-
| RequiredPower || Integer || Returns the current amount of power in Watts required by the Filtration unit.
|-
| PressureInput|| Float || Input pressure in kilopascals
|-
| TemperatureInput || Float || Input temperature in kelvin
|-
| RatioOxygenInput || Float || Percentage of Oxygen in input as ratio between 0 and 1
|-
| RatioCarbonDioxideInput || Float || Percentage of Carbon Dioxide in input as ratio between 0 and 1
|-
| RatioNitrogenInput || Float || Percentage of Nitrogen in input as ratio between 0 and 1
|-
| RatioPollutantInput || Float || Percentage of Pollutant in input as ratio between 0 and 1
|-
| RatioVolatilesInput || Float || Percentage of Volatiles in input as ratio between 0 and 1
|-
| RatioWaterInput || Float || Percentage of Water in input as ratio between 0 and 1
|-
| RatioNitrousOxideInput || Float || Percentage of Nitrous Oxide in input as ratio between 0 and 1
|-
| TotalMolesInput|| Float || Total quantity of gas in input measured in moles
|-
| PressureOutput|| Float || Output pressure in kilopascals
|-
| TemperatureOutput || Float || Output temperature in kelvin
|-
| RatioOxygenOutput || Float || Percentage of Oxygen in output as ratio between 0 and 1
|-
| RatioCarbonDioxideOutput || Float || Percentage of Carbon Dioxide in output as ratio between 0 and 1
|-
| RatioNitrogenOutput || Float || Percentage of Nitrogen in output as ratio between 0 and 1
|-
| RatioPollutantOutput || Float || Percentage of Pollutant in output as ratio between 0 and 1
|-
| RatioVolatilesOutput || Float || Percentage of Volatiles in output as ratio between 0 and 1
|-
| RatioWaterOutput || Float || Percentage of Water in output as ratio between 0 and 1
|-
| RatioNitrousOxideOutput || Float || Percentage of Nitrous Oxide in output as ratio between 0 and 1
|-
| TotalMolesOutput|| Float || Total quantity of gas in output measured in moles
|-
| PressureOutput2|| Float || Waste pressure in kilopascals
|-
| TemperatureOutput2 || Float || Waste temperature in kelvin
|-
| RatioOxygenOutput2 || Float || Percentage of Oxygen in waste as ratio between 0 and 1
|-
| RatioCarbonDioxideOutput2 || Float || Percentage of Carbon Dioxide in waste as ratio between 0 and 1
|-
| RatioNitrogenOutput2 || Float || Percentage of Nitrogen in waste as ratio between 0 and 1
|-
| RatioPollutantOutput2 || Float || Percentage of Pollutant in waste as ratio between 0 and 1
|-
| RatioVolatilesOutput2 || Float || Percentage of Volatiles in waste as ratio between 0 and 1
|-
| RatioWaterOutput2 || Float || Percentage of Water in waste as ratio between 0 and 1
|-
| RatioNitrousOxideOutput2 || Float || Percentage of Nitrous Oxide in waste as ratio between 0 and 1
|-
| TotalMolesOutput2 || Float || Total quantity of gas in waste measured in moles
|-
| CombustionInput || Float ||
|-
| CombustionOutput || Float ||
|-
| CombustionOutput2 || Float ||
|}


==Slot Outputs==
Slot 0 and 1 are the two gas [[filter]]s. Slot 2 is the [[Integrated Circuit (IC10)|programmable chip]]
{| class="wikitable"
|-
! Output Name !! Data Type !! Description
|-
| Occupied || Boolean || Returns whether the slot is occupied. (0 for no, 1 for yes)
|-
| OccupantHash || Integer || Returns the hash of the object in the slot.
|-
| Quantity || Integer || Returns the current quantity, such as stack size, of the item in the slot.
|-
| Damage || Integer || Returns the damage state of the item in the slot.
|-
| Class || Integer || Returns an integer representing the class of object.
|-
| MaxQuanity || Integer || Returns max stack size of the item in the slot.
|-
| PrefabHash || Integer || Returns the hash of the structure in the slot.
|}


=See Also=
* [[Guide (Filtration)]]
* [[Kit (Atmospherics)]]
* [[Kit (Portable Scrubber) Portable Scrubber|Portable Scrubber]]
</translate>

Filtration

2024-06-28T00:45:24Z

Telarin: Update Construction Steps

[[Category:Atmospherics]]
<languages/>
<translate>
{{Structurebox
| name = Filtration
| image = [[File:filtration.jpg]]
| power_usage = 5w
| placed_with_item = [[Kit (Atmospherics)]]
| placed_on_grid = Small Grid

| const_with_item1 = 2 x [[Kit(Pipe)]]
| decon_with_tool1 = [[Hand Drill]]
| item_rec1 = [[Kit (Atmospherics)]]

| const_with_tool2 = [[Screwdriver]]
| const_with_item2 = [[Cable Coil]]
| decon_with_tool2 = [[Wrench]]

| decon_with_tool3 = [[Hand Drill]]
}}

=Description=
Used to separate [[Gas|gases]] from one [[Pipes|pipe]] network into another using [[Filter|filters]]. Can filter up to two (2) gases at once. [[Guide (Filtration)]] provides additional information regarding the function, construction, and operation of a Filtration unit.

=Usage=
Once you have placed the Filtration Unit in your desired location, there are 3 separate connections that will need to be made:
# '''Input''' - Starting gas network that you want to filter from
# '''Output''' - Filtered gas
# '''Waste''' - Remaining unfiltered gas from the input
 

Place the appropriate [[filter]](s) in the Filtration unit for the particular [[gas]] that your want to filter. Up to two filters can be placed into a filtration unit. If these are different types of filters, both types of gas will be filtered simultaneously. Placing two of the same type of filter in the unit does not increase filtration speed, it just provides redundancy for when one of the filters runs out.

'''Warning: If run without filters or the filters are exhausted, all input gases will be moved directly to waste!'''

Be aware that the filtration unit unrealistically has an infinitely powerful pump integrated into its output port. That means as long as it is turned on and there is gas to filter out from the input, it will pump that filtered out gas into the output pipe network (no matter how high the pressure in that output pipe network already is!). So eventually that pipe network will burst (around 60 MPa) unless you provide some sort of pop-off valve (e.g. a combination of a back-pressure regulator and a passive vent), use a pipe analyzer and some logic to turn the filtration unit off when a certain amount of pressure is exceeded in the output pipe network, or use the onboard IC10 and a data connection to the output (tank or pipe analyzer) to disable the unit when it reaches a certain threshold. Note that on-board IC10 chips do not execute when the unit is turned off, so an '''on-board''' IC10 is only capable of turning the unit '''off''' if output pressure is too high, it is not capable of turning the unit back '''on''' once output pressure drops.

As of patch [https://steamcommunity.com/app/544550/eventcomments/3812910660676171439 patch 0.2.4218.19726], the filtration system processing speed is based the difference between the pressure of input and '''higher pressure''' of the two outputs. If the higher-pressure output is equal to or higher than the input pressure, the unit will process an amount of input gas equivalent to 10 MPa per litre, per tick, with the amount pushed to the two outputs based on the partial pressure of the gas being filtered in the input. For example, if a unit is set to filter nitrogen, and the input is 20% at 10 MPa, and the higher of the two outputs is at >= 10 MPa (for example, if the waste output is connected back to the input), then the unit will push, per tick, 2 MPa-litres (ie. 200 kPa in a single 10 L pipe segment) to the filtered output, and 8 MPa-litres to the waste output.

If the pressure of the highest-pressure output is less than the input pressure, the unit will process per tick will be equal to 10 MPa*L + (PressureDifferential * 3.16885) MPa*L, where the PressureDifferential is the input pressure minus the output pressure, in MPa. As above, this output is split between the filtered output and the waste output based on the partial pressure of the filtered gas in the input. As an example, if the input pressure is 10 MPa at 20% nitrogen, and the higher-pressure of the outputs is at 2 MPa, the unit will process 1 + (10-2) * 3.16885 = 35.351 MPa*L, which is equivalent to increasing the pressure of a single 10 L pipe segment by 3.5351 MPa. 20% of this, or 7.07 MPa*L, would be pushed to the output (if the output is a single 10 L pipe segment, this would increase its pressure by 707 kPa), and the remaining 80% (28.28 MPa*L) would be pushed to the waste output.

In effect, if the waste output is connected to the input, and the filtered output is a single pipe segment (followed by a pump), the rate of output for the filtered gas will be 10 kPa per tick multiplied by the percentage of gas in the input that matches the filter (ex. if 20% nitrogen, 200 kPa to that single pipe segment per tick). If both the outputs are instead single pipe segments fed into volume pumps, so they remain at 0 pressure at all times, the rate of output of the filtered gas will be the percentage of the gas in the input that matches the filter multiplied by 1 MPa + 31.69% of the pressure of the input (ex. 10 MPa input, 20% nitrogen, the single pipe segment on the filtered output would gain 0.2 * (1 + 3.169) = 834 kPa per tick).

=Characteristics=
* It has a manual power switch.
* It consumes 10W of [[Power]] per [[Tick]] when idle and 44W when active.
* It has a separate [[Power Port]] and [[Data Port]].
* It has an on-board IC10 chip slot.
* It has a pipe port (labelled "Input") for the gas mixture from which the designated gas(es) '''will be''' filtered.
* It has a pipe port (labelled "Filtered") for the designated gas(es) that '''have been''' filtered. (This is in line with and directly opposite of the input)
* It has a pipe port (labelled "Unfiltered") for any remaining unfiltered gases. (This is to the side)
* It can filter up to 2 different gases at once by inserting two different filters.
** Inserting two of the '''same''' type of filter does not increase filtration speed.
Note: When using an I/O slot reader chip, the filter slots are labeled as slot 1, slot 2 and slot 3(IC), with 1 being the slot closer to the inlet.
When using an IC chip, the slots are labeled as slot 0, slot1 and slot 2(IC).

=User Interface=
A Filtration unit provides the following user interface:
{| class="wikitable"
|-
! Name || Type !! Function
|-
| [[Filters|Filter]] (Right) || Slot 0 || Port for a gas filter. If gas of the same type is present in the incoming mixture, it will be redirected out the "Filtered" pipe port.
|-
| Filter (Left) || Slot 1 || Another Port for a gas filter that functions the same as its twin slot. May contain the same or a different filter.
|-
| v || Slot 2 || IC10 placed in filtration unit (has 2 Input/Outputs)
|-
| On || Switch || Switches Filtration unit between turned on or turned off. (On=1/Off=0)
|-
|}

{{Data Network Header}}

{{Data Parameters}}

{| class="wikitable"
|-
! Parameter Name !! Data Type !! Description
|-
| On || Boolean || Powers on the Filtration unit on when set to 1. Powers off when set to 0.
|-
| Open || Boolean ||
|-
| Setting || Integer ||
|-
| Lock || Boolean ||
|-
| Mode || Boolean || 0: idle, 1: Active
|}

{{Data Outputs}}

{| class="wikitable"
|-
! Output Name !! Data Type !! Description
|-
| Power || Boolean || Returns whether the Filtration unit is turned on and receives power. (0 for no, 1 for yes)
|-
| Open || Boolean || Returns whether the Filtration unit IC Slot cover is open or closed. (0 for closed, 1 for open)
|-
| Mode || Boolean || Returns whether the Filtration unit is active or idle (0 for idle, 1 for Active)
|-
| Error || Boolean || Returns whether the Filtration unit is flashing an error. (0 for no, 1 for yes)
|-
| Lock || Boolean || Returns whether the Filtration unit is locked. (0 for no, 1 for yes)
|-
| Setting || Integer ||
|-
| Maximum || Integer ||
|-
| Ratio || Float ||
|-
| On || Boolean || Returns whether the Filtration unit is turned on. (0 for no, 1 for yes)
|-
| RequiredPower || Integer || Returns the current amount of power in Watts required by the Filtration unit.
|-
| PressureInput|| Float || Input pressure in kilopascals
|-
| TemperatureInput || Float || Input temperature in kelvin
|-
| RatioOxygenInput || Float || Percentage of Oxygen in input as ratio between 0 and 1
|-
| RatioCarbonDioxideInput || Float || Percentage of Carbon Dioxide in input as ratio between 0 and 1
|-
| RatioNitrogenInput || Float || Percentage of Nitrogen in input as ratio between 0 and 1
|-
| RatioPollutantInput || Float || Percentage of Pollutant in input as ratio between 0 and 1
|-
| RatioVolatilesInput || Float || Percentage of Volatiles in input as ratio between 0 and 1
|-
| RatioWaterInput || Float || Percentage of Water in input as ratio between 0 and 1
|-
| RatioNitrousOxideInput || Float || Percentage of Nitrous Oxide in input as ratio between 0 and 1
|-
| TotalMolesInput|| Float || Total quantity of gas in input measured in moles
|-
| PressureOutput|| Float || Output pressure in kilopascals
|-
| TemperatureOutput || Float || Output temperature in kelvin
|-
| RatioOxygenOutput || Float || Percentage of Oxygen in output as ratio between 0 and 1
|-
| RatioCarbonDioxideOutput || Float || Percentage of Carbon Dioxide in output as ratio between 0 and 1
|-
| RatioNitrogenOutput || Float || Percentage of Nitrogen in output as ratio between 0 and 1
|-
| RatioPollutantOutput || Float || Percentage of Pollutant in output as ratio between 0 and 1
|-
| RatioVolatilesOutput || Float || Percentage of Volatiles in output as ratio between 0 and 1
|-
| RatioWaterOutput || Float || Percentage of Water in output as ratio between 0 and 1
|-
| RatioNitrousOxideOutput || Float || Percentage of Nitrous Oxide in output as ratio between 0 and 1
|-
| TotalMolesOutput|| Float || Total quantity of gas in output measured in moles
|-
| PressureOutput2|| Float || Waste pressure in kilopascals
|-
| TemperatureOutput2 || Float || Waste temperature in kelvin
|-
| RatioOxygenOutput2 || Float || Percentage of Oxygen in waste as ratio between 0 and 1
|-
| RatioCarbonDioxideOutput2 || Float || Percentage of Carbon Dioxide in waste as ratio between 0 and 1
|-
| RatioNitrogenOutput2 || Float || Percentage of Nitrogen in waste as ratio between 0 and 1
|-
| RatioPollutantOutput2 || Float || Percentage of Pollutant in waste as ratio between 0 and 1
|-
| RatioVolatilesOutput2 || Float || Percentage of Volatiles in waste as ratio between 0 and 1
|-
| RatioWaterOutput2 || Float || Percentage of Water in waste as ratio between 0 and 1
|-
| RatioNitrousOxideOutput2 || Float || Percentage of Nitrous Oxide in waste as ratio between 0 and 1
|-
| TotalMolesOutput2 || Float || Total quantity of gas in waste measured in moles
|-
| CombustionInput || Float ||
|-
| CombustionOutput || Float ||
|-
| CombustionOutput2 || Float ||
|}


==Slot Outputs==
Slot 0 and 1 are the two gas [[filter]]s. Slot 2 is the [[Integrated Circuit (IC10)|programmable chip]]
{| class="wikitable"
|-
! Output Name !! Data Type !! Description
|-
| Occupied || Boolean || Returns whether the slot is occupied. (0 for no, 1 for yes)
|-
| OccupantHash || Integer || Returns the hash of the object in the slot.
|-
| Quantity || Integer || Returns the current quantity, such as stack size, of the item in the slot.
|-
| Damage || Integer || Returns the damage state of the item in the slot.
|-
| Class || Integer || Returns an integer representing the class of object.
|-
| MaxQuanity || Integer || Returns max stack size of the item in the slot.
|-
| PrefabHash || Integer || Returns the hash of the structure in the slot.
|}


=See Also=
* [[Guide (Filtration)]]
* [[Kit (Atmospherics)]]
* [[Kit (Portable Scrubber) Portable Scrubber|Portable Scrubber]]
</translate>

Ore (Nickel)

2021-06-17T22:42:12Z

Telarin:

<languages />
<translate>

{{Itembox
| name = Ore (Nickel)
| image = [[File:ItemNickelOre.png]]
| stacks = 50x
| usedwith =
*[[Arc Furnace]]
*[[Furnace]]
| hashid = 1830218956
}}
{{Orebox
| name = Ore (Nickel)
| image = [[File:Nickel_ore.jpg]]
}}

== Description == 
[[Ore (Nickel)]] is mined throughout the surface and underground of a planet or an asteroid using a [[Mining Drill]].

== Processed == 
Nickel Ore is one of ingame [https://stationeers-wiki.com/Main_Page#Ores Ores]. It can be turned into [[Nickel Ingot]] by smelting it in the [[Furnace]] or [[Arc Furnace]]. [[Nickel Ore]] can also be combined with equal amounts of [[Copper Ore]] in the [[Furnace]] to create [[Constantan Ingot]]. Additionally, Nickel Ore can be combined with various other ores in the [[Advanced Furnace]] to create [[Ingot (Hastelloy)]], [[Ingot (Inconel)]], and [[Ingot (Waspaloy)]]

Smelting one Nickel Ore produces the following gases:
{|
|1 mol
|[[Pollutant]]
|-
|1 mol
|[[Carbon Dioxide]]
|-
|0.5 mol
|[[Nitrogen]]
|}
</translate>

Ore (Nickel)

2021-06-17T22:41:00Z

Telarin:

<languages />
<translate>

{{Itembox
| name = Ore (Nickel)
| image = [[File:ItemNickelOre.png]]
| stacks = 50x
| usedwith =
*[[Arc Furnace]]
*[[Furnace]]
| hashid = 1830218956
}}
{{Orebox
| name = Ore (Nickel)
| image = [[File:Nickel_ore.jpg]]
}}

== Description == 
[[Ore (Nickel)]] is mined throughout the surface and underground of a planet or an asteroid using a [[Mining Drill]].

== Processed == 
Nickel Ore is one of ingame [https://stationeers-wiki.com/Main_Page#Ores Ores]. It can be turned into [[Nickel Ingot]] by smelting it in the [[Furnace]] or [[Arc Furnace]]. [[Nickel Ore]] can also be combined with equal amounts of [[Copper Ore]] in the [[Furnace]] to create [[Constantan Ingot]]. Additionally, Nickel Ore can be combined with various other ores in the [[Advanced Furnace]] to create [[Hastelloy Ingot]], [[Inconel Ingot]], and [[Waspaloy Ingot]]

Smelting one Nickel Ore produces the following gases:
{|
|1 mol
|[[Pollutant]]
|-
|1 mol
|[[Carbon Dioxide]]
|-
|0.5 mol
|[[Nitrogen]]
|}
</translate>

Atmospherics

2021-06-16T20:46:53Z

Telarin: fixed power usage on filtration

[[Category:Atmospherics]]
{{Itembox
| name = Kit (Atmospherics)
| image = [[File:ItemKitAtmospherics.png]]
| createdwith = [[Hydraulic Pipe Bender]], [[Fabricator]]
| cost = 10g [[Iron]], 5g [[Gold]], 20g [[Copper]]
| stacks = no
}}
=Air Conditioner Unit=
{{Structurebox
| name = Air Conditioner
| image = [[File:Atmospherics front.jpg]]
| power_usage = Up to 7000W based on temperature difference
| placed_with_item = [[Kit (Atmospherics)]]
| placed_on_grid = Small Grid
| decon_with_tool1 = [[Hand Drill]]
| item_rec1 = [[Kit (Atmospherics)]]
}}
==Description==
Used to lower and raise the temperature fed through it from the input pipe. 
It has a range from -200 to 200 Celsius for the output

If the coolant pipe does not have 100kpa pressure it will divert output to coolant waste port to fill its coolant pipe

==Usage==
Place the Kit (Atmospherics) and run some pipes to the place you want to vent the heat. Place a few [[Pipe Radiator]]s on the pipe, fill it with whatever gas mixture you want. 
Make a return loop on the coolant system back to the coolant waste port for slightly better efficiency. 
It will try to draw or expel heat to the coolant mix to make the input match the desired output. 

[[File:Coolant Example.png|frameless|Example A/C Setup]]
 
{{Data Network Header}}

{{Data Parameters}}
{| class="wikitable"
|-
! Parameter Name !! Data Type !! Description
|-
| Open || Boolean || Starts the Air Conditioner Unit, when set to 1. Stops it, when set to 0. (This seems to work only with Batch Writer and not with Logic Writer - tested on game ver: v0.1.1362.6552).
|-
| Mode || Integer || (Unknown) (Judging by the "Mode" output, it accepts values in the range 0-2.)
|-
| Lock || Boolean || Locks the Air Conditioner Unit, when set to 1. Unlocks it, when set to 0.
|-
| On || Boolean || Turns the Air Conditioner Unit on, when set to 1. Turns it off, when set to 0.
|}

{{Data Outputs}}
{| class="wikitable"
|-
! Output Name !! Data Type !! Description
|-
| Power || Boolean || Returns whether the Air Conditioner Unit is turned on and receives power. (0 for no, 1 for yes)
|-
| Open || Boolean || Returns whether the Air Conditioner Unit is running. (0 for no, 1 for yes)
|-
| Mode || Integer || (Unknown) (Returns output in the range 0-2, equivalent to the input of the "Mode" parameter.)
|-
| Error || Boolean || Returns whether the Air Conditioner Unit is flashing an error. (0 for no, 1 for yes)
|-
| Lock || Boolean || Returns whether the Air Conditioner Unit is locked. (0 for no, 1 for yes)
|-
| On || Boolean || Returns whether the Air Conditioner Unit is turned on. (0 for no, 1 for yes)
|-
| RequiredPower || Integer || Returns the current amount of power, required by the Air Conditioner, in Watts.
|}

=Filtration=
{{Structurebox
| name = Filtration
| image = [[File:filtration.jpg]]
| power_usage = 10W
| placed_with_item = [[Kit (Atmospherics)]]
| placed_on_grid = Small Grid
| decon_with_tool1 = [[Hand Drill]]
| item_rec1 = [[Kit (Atmospherics)]]
}}
==Description==
Used to filter out specific gasses and fluids from a mixture. 
it can filter out up to 2 things at once
Pumps filter gasses through itself.

==Usage==
Place the Kit (Atmospherics) and change the variant to Filtration. 
Place [[filter]]s in the machine for what you want to filter out. 
There are three filtration pipe connections. 
Filtration Input is where you connect the incoming atmosphere to be passed through the Filtration Atmospherics. 
Filtration Unfiltered is the remaining mix after extracting whatever the filters did. 
Filtration Filtered is the filtered material for which you placed filters in the machine for.

Be aware that the filtration unit unrealistically has an infinitely powerful pump integrated into its output port. That means as long as it is turned on and there is gas to filter out from the input it will pump that filtered out gas into the output pipe network (no matter how high the pressure in that output pipe network already is!). So eventually that pipe network will burst (around 60 MPa) unless you provide some sort of pop-off valve (e.g. a combination of a back-pressure regulator and a passive vent) or use a pipe analyzer and some logic to turn the filtration unit off when a certain amount of pressure is exceeded in the output pipe network.
The filtration system can handle an input gas flow of just over 2.3L from a volume pump.

{{Data Network Header}}

{{Data Parameters}}
{| class="wikitable"
|-
! Parameter Name !! Data Type !! Description
|-
| On || Boolean || Turns the Filtration Unit on, when set to 1. Turns it off, when set to 0.
|}

{{Data Outputs}}
====Logic====
{| class="wikitable"
|-
! Output Name !! Data Type !! Description
|-
| Power || Boolean || Returns whether the Filtration Unit is turned on and receives power. (0 for no, 1 for yes)
|-
| Error || Boolean || Returns whether the Filtration Unit is flashing an error. (0 for no, 1 for yes)
|-
| On || Boolean || Returns whether the Filtration Unit is turned on. (0 for no, 1 for yes)
|-
| RequiredPower || Integer || Returns the current amount of power, required by the Filtration Unit, in Watts.
|-
| PrefabHash || Integer || The Hash of the structure.
|}

====Logic Slots====
{| class="wikitable"
|-
! Output Name !! Data Type !! Description
|-
| Occupied || Boolean || Returns whether the slot is occupied. (0 for no, 1 for yes)
|-
| OccupantHash || Integer || Returns the hash of the object in the slot.
|-
| Quantity || Integer || Returns the current quantity, such as stack size, of the item in the slot.
|-
| Damage || Integer || Returns the damage state of the item in the slot.
|-
| Class || Integer || Returns an integer representing the class of object.
|-
| MaxQuanity || Integer || Returns max stack size of the item in the slot.
|-
| PrefabHash || Integer || Returns the hash of the structure in the slot.
|}

=Electrolyzer=
{{Structurebox
| name = Electrolyzer
| image = [[File:Electrolyzer front.png]]
| power_usage = 1200W
| placed_with_item = [[Kit (Atmospherics)]]
| placed_on_grid = Small Grid
| decon_with_tool1 = [[Hand Drill]]
| item_rec1 = [[Kit (Atmospherics)]]
}}
==Description==
Used to separate water (H2O) into H2 and O2 in a 2 to 1 ratio (perfect fuel). 

==Usage==
Place the Kit (Atmospherics) and change the variant to Electrolyzer. 
There are two pipe connections. 
Electrolyzer Input is where you connect the incoming water. 
Electrolyzer Output is where the H2 and O2 comes out mixed together.

{{Data Network Header}}

{{Data Parameters}}
{| class="wikitable"
|-
! Parameter Name !! Data Type !! Description
|-
| Lock || Boolean || Locks the Electrolyzer , when set to 1. Unlocks it, when set to 0.
|-
| On || Boolean || Turns the Electrolyzer on, when set to 1. Turns it off, when set to 0.
|}

{{Data Outputs}}
{| class="wikitable"
|-
! Output Name !! Data Type !! Description
|-
| Power || Boolean || Returns whether the Electrolyzer is turned on and receives power. (0 for no, 1 for yes)
|-
| Error || Boolean || Returns whether the Electrolyzer is flashing an error. (0 for no, 1 for yes)
|-
| Lock || Boolean || Returns whether the Electrolyzer is locked. (0 for no, 1 for yes)
|-
| On || Boolean || Returns whether the Electrolyzer is turned on. (0 for no, 1 for yes)
|-
| RequiredPower || Integer || Returns the current amount of power, required by the Electrolyzer, in Watts.
|}

Glass Sheets

2021-06-13T19:32:00Z

Telarin:

{{Itembox
| name = Glass Sheets
| image = [[File:ItemGlassSheets.png]]
| stacks = 50x
| createdwith = [[Autolathe]], [[Fabricator]]
| cost = 2g [[Silicon Ingot]]
}}

Glass sheets are used in the construction of a variety of other objects, including the [[Solar Panel]].

== Item used in == 
x1 for [[Solar Panel]]

{| class="wikitable"
!colspan="3"|'''Recipe'''
|-
! Input
! Manufactured in
! Output
|-
! scope="row" | {{Icon|Silicon|2}}
| {{Icon|Autolathe}} or {{Icon|Fabricator}}
| {{Icon|glass sheets|1}}
|-
|}

Microwave

2021-06-11T17:38:02Z

Telarin:

<languages/>
<translate>

{{Itembox
| name = Microwave
| image = [[File:ApplianceMicrowave.png]]
| createdwith = [[Electronics Printer]], [[Fabricator]]
| cost = 5g [[Iron]], 1g [[Gold]], 2g [[Copper]], 3g [[Steel Ingot|Steel]]* *fabricator only
}}

== Description == 
*Must be attached to a [[Powered Bench]] by using a [[Wrench]].
*Remember that the sounds are not synced to the finish of the microwave yet

== Recipes == 


{| class=wikitable
! Food
| Recipe
| Hunger / item
|-
! [[Cereal Bar]]
| 50g [[Flour]]
| 60% Fill
|-
! [[Cooked Tomato]]
| 1 [[Tomato]]
| ? Fill
|-
! [[Cooked Corn]]
| 1 [[Corn]]
| ? Fill
|-
! [[Cooked Pumpkin]]
| 1 [[Pumpkin]]
| ? Fill

|-
! [[Baked potato]]
| 1 [[Potato]]
| 80% Fill
|-
![[Fries]]
| 5ml [[Soy Oil]], 1 [[Potato]]
| 159% Fill
|-
! [[Muffin]]
| 50g [[Flour]], 1 [[Egg]], 10ml [[Milk]]
| 200% Fill
|-
! [[Pumpkin Pie]]
| 100g [[Flour]], 1 [[Egg]], 10ml [[Milk]], 1 [[Pumpkin]]
| 588% Fill
|-
! [[Bread Loaf]]
| 200g [[Flour]], 5ml [[Soy Oil]]
| 200% Fill
|}

</translate>
[[Category:Appliance]]

Gas Tank Storage

2020-02-27T22:32:37Z

Telarin: Added fabricator for creating Kit (Canister Storage)

[[Category:Atmospherics]]
{{Itembox
| name = Kit (Canister Storage)
| image = [[File:ItemGasTankStorage.png|Gas tank storage laying on a ground]]
| createdwith = [[Hydraulic Pipe Bender]], [[Fabricator]]
| cost = 5g [[Iron]]
}}
{{Structurebox
| name = Gas Tank Storage
| image = [[File:Gas tank storage full empty.jpg|Full and empty gas tank storage]]
| power_usage =
| placed_with_item = [[Kit (Canister Storage)]]
| placed_on_grid = Small Grid, On Frames
| decon_with_tool1 = [[Wrench]]
| item_rec1 = [[Kit (Canister Storage)]]
}}
Gas tank storage is a part of piping that allows [[Gas Canister]] filling and storage.

==Usage==
Mount on an [[Iron Frames|Iron Frame]] connected to the pipe, insert [[Gas Canister]] inside, connect through piping to any gas output (such as [[Furnace]] rear output).

{{Data Network Header}}
{{Data Parameters|empty}}
{{Data Outputs}}
{| class="wikitable"
|-
! Output Name !! Data Type !! Description
|-
| Pressure || Float || Returns the amount of pressure of the Gas Canister in the Gas Tank Storage, in pascal.
|-
| Temperature || Float || Returns the temperature of the gas inside a Gas Canister in the Gas Tank Storage, in kelvin.
|-
| RatioOxygen || Float || Returns a range from 0.0 to 1.0. Returns the percentage ratio of the amount of oxygen in a gas in a Gas Canister in the Gas Tank Storage.
|-
| RatioCarbonDioxide || Float || Returns a range from 0.0 to 1.0. Returns the percentage ratio of the amount of carbon dioxide in a gas in a Gas Canister in the Gas Tank Storage.
|-
| RatioNitrogen || Float || Returns a range from 0.0 to 1.0. Returns the percentage ratio of the amount of nitrogen in a gas in a Gas Canister in the Gas Tank Storage.
|-
| RatioPollutant || Float || Returns a range from 0.0 to 1.0. Returns the percentage ratio of the amount of pollutant in a gas in a Gas Canister in the Gas Tank Storage.
|-
| RatioVolatiles || Float || Returns a range from 0.0 to 1.0. Returns the percentage ratio of the amount of volatiles in a gas in a Gas Canister in the Gas Tank Storage.
|-
| RatioWater || Float || Returns a range from 0.0 to 1.0. Returns the percentage ratio of the amount of water in a gas in a Gas Canister in the Gas Tank Storage.
|-
| Quantity || Float || Returns number of moles of gas in the canister (as of Nov 2019)
|}