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Difference between revisions of "Ice Crusher"

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(Updating Cost/ Building Stages/Overall Cost Added)
(Removing ambiguity on which output is used for which type of pipe)
 
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  | name            = Ice Crusher
 
  | name            = Ice Crusher
 
  | image            = [[File:StructureIceCrusher.png]]
 
  | image            = [[File:StructureIceCrusher.png]]
  | power_usage      = 10W standby + 40W crushing
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  | power_usage      = 10W standby + 1.0kW crushing
 
  | build states    = Three
 
  | build states    = Three
 
  | placed_with_item = [[Kit (Ice Crusher)]]
 
  | placed_with_item = [[Kit (Ice Crusher)]]
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==Description==
 
==Description==
This kit is used to crush ice into liquids and/or gases. The Ice Crusher has two outputs at the back, which can be connected to [[Pipes]] (yellow) and [[Liquid Pipe]] (blue) to extract the products. The top output is for Gas outputs, and the bottom output is for Liquids. Different kinds of Ice can be crushed:
+
This kit is used to crush ice into liquids and/or gases. The Ice Crusher has two outputs at the back. The top port can be connected to [[Pipes]] (yellow) and the bottom port can be connected to [[Liquid Pipe]] (blue) to extract the products. The top output is for Gas outputs, and the bottom output is for Liquids. Different kinds of Ice can be crushed:
 
:[[Ice (Water)]] produces liquid Water and [[Nitrogen]] gas (80% water, 20% nitrogen)
 
:[[Ice (Water)]] produces liquid Water and [[Nitrogen]] gas (80% water, 20% nitrogen)
 
:[[Ice (Oxite)]] produces [[Oxygen]] and [[Nitrogen]] gas (90% Oxygen, 10% nitrogen)
 
:[[Ice (Oxite)]] produces [[Oxygen]] and [[Nitrogen]] gas (90% Oxygen, 10% nitrogen)
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| Lock || Boolean || One(1) is locked, where as zero(0) is not locked
 
| Lock || Boolean || One(1) is locked, where as zero(0) is not locked
 
|-
 
|-
| Setting || Integer ||  
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| Setting || Integer || Temperature of the output in degrees kelvin
 
|-
 
|-
 
| On || Boolean || One(1) is On, where as zero(0) is off
 
| On || Boolean || One(1) is On, where as zero(0) is off
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| Activate ||  
 
| Activate ||  
 
|-
 
|-
| Setting || Integer ||
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| Setting || Integer || Temperature of the output in degrees kelvin
 
|-
 
|-
 
| RequiredPower || Integer ||
 
| RequiredPower || Integer ||
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* It is not insulated, so the gases and/or liquids it contains will equalize temperature with the environment.
 
* It is not insulated, so the gases and/or liquids it contains will equalize temperature with the environment.
 
* Must be kept turned on to release the liquids and/or gases it contains.
 
* Must be kept turned on to release the liquids and/or gases it contains.
 +
* Has an internal capacity of 200L.
 +
* Will not explode from overpressure of its internal capacity, but will stop crushing ice and flash an error if its internal pressure exceeds 125 MPa.  It will resume crushing once its internal pressure drops below approximately 121 MPa.
 +
* Outputs gas at a maximum rate of 9.231 MPa per tick into a single pipe segment (exactly 20 MPa into 6 pipe segments every 13 ticks), stopping once its internal pressure equals the pressure of the output port.  This drops its internal pressure by 0.4615 MPa per tick.
 +
* Can generate gas from crushing ice substantially faster than its maximum gas output rate, at a rate of approximately 5 MPa to its internal capacity per tick spent crushing ice.
 +
* Changing the 'Setting' Value (represented in degrees kelvin) with IC/Logic circuits can dramatically speed up crushing times. For example, I changed my volatiles crusher from the default value to 200k and was able to process a stack of 50 volatiles in only 5 seconds.

Latest revision as of 12:30, 18 October 2024


Kit (Ice Crusher)
ItemKitIceCrusher.png
Recipe
Created With Hydraulic Pipe Bender
Cost 3g Iron Ingot, 1g Gold Ingot, 1g Copper Ingot
Ice Crusher
StructureIceCrusher.png
Operation
Power Usage 10W standby + 1.0kW crushing
Construction
Placed with Kit (Ice Crusher)
Placed on Small Grid
Stage 1
Next Stage Construction
Constructed with tool Welding Torch
Constructed with item 1x Iron Sheets
Stage 2
Next Stage Construction
Constructed with item 2x Cable Coil


Overall Ice Crusher Cost/Requirements
StructureIceCrusher.png
Recipe
Created With Hydraulic Pipe Bender, Autolathe
Cost 1g Gold Ingot, 2g Copper Ingot, 5g Iron Ingot


Description[edit]

This kit is used to crush ice into liquids and/or gases. The Ice Crusher has two outputs at the back. The top port can be connected to Pipes (yellow) and the bottom port can be connected to Liquid Pipe (blue) to extract the products. The top output is for Gas outputs, and the bottom output is for Liquids. Different kinds of Ice can be crushed:

Ice (Water) produces liquid Water and Nitrogen gas (80% water, 20% nitrogen)
Ice (Oxite) produces Oxygen and Nitrogen gas (90% Oxygen, 10% nitrogen)
Ice (Volatiles) produces Hydrogen gas (100% Hydrogen)
Ice (Nitrice) produces Nitrogen and Nitrous_Oxide gas (90% Nitrogen, 10% Nitrous Oxide)

Refilling Water Bottles Early Game[edit]

The ice crusher can be used to get drinkable water early on, by connecting it to a Water Bottle Filler using Liquid Pipe and piping the Nitrogen out with a pump or an Active Vent to avoid blocking the ice crusher. Note however that if done inside, this could lead to pressure accumulating over time, which could be dangerous if not eventually upgraded to a more robust gas handling system.

Ice Crusher Front View (Caution: Water pipe should be connected to bottom output, not as shown here)

Data Network Properties[edit]

These are all Data Network properties of this device.

Data Parameters[edit]

These are all parameters that can be written with a Logic Writer, Batch Writer, or Integrated Circuit (IC10).


Parameter Name Data Type Description
Lock Boolean One(1) is locked, where as zero(0) is not locked
Setting Integer Temperature of the output in degrees kelvin
On Boolean One(1) is On, where as zero(0) is off

Data Outputs[edit]

These are all parameters, that can be read with a Logic Reader or a Slot Reader. The outputs are listed in the order a Logic Reader's "VAR" setting cycles through them.

Output Name Data Type Description
Maximum Integer
Lock Boolean One(1) is locked, where as zero(0) is not locked
ImportCount Integer
Error
Activate
Setting Integer Temperature of the output in degrees kelvin
RequiredPower Integer
Ratio Integer
Prefabhash - 443849486
Power Boolean One(1) is on, where as zero (0) is off
On Boolean One(1) is on, where as zero (0) is off

Notes[edit]

  • It can be safely used in higher temperature environments if the ice is transferred instantly into the crusher from the mining belt.
  • When using it for crushing Ice (Water), 20% Nitrogen gas is still produced, and care must be taken to avoid overpressurization over time.
  • It is not insulated, so the gases and/or liquids it contains will equalize temperature with the environment.
  • Must be kept turned on to release the liquids and/or gases it contains.
  • Has an internal capacity of 200L.
  • Will not explode from overpressure of its internal capacity, but will stop crushing ice and flash an error if its internal pressure exceeds 125 MPa. It will resume crushing once its internal pressure drops below approximately 121 MPa.
  • Outputs gas at a maximum rate of 9.231 MPa per tick into a single pipe segment (exactly 20 MPa into 6 pipe segments every 13 ticks), stopping once its internal pressure equals the pressure of the output port. This drops its internal pressure by 0.4615 MPa per tick.
  • Can generate gas from crushing ice substantially faster than its maximum gas output rate, at a rate of approximately 5 MPa to its internal capacity per tick spent crushing ice.
  • Changing the 'Setting' Value (represented in degrees kelvin) with IC/Logic circuits can dramatically speed up crushing times. For example, I changed my volatiles crusher from the default value to 200k and was able to process a stack of 50 volatiles in only 5 seconds.