Difference between revisions of "Pipes"
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| cost = 0.5g [[Iron]] | | cost = 0.5g [[Iron]] | ||
| stacks = Yes, 20 | | stacks = Yes, 20 | ||
− | | volume = | + | | volume = 10L, 60Mpa |
| createdwith = [[Hydraulic Pipe Bender]] | | createdwith = [[Hydraulic Pipe Bender]] | ||
}} | }} | ||
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| cost = 1g [[Silicon]], 1g [[Steel]] | | cost = 1g [[Silicon]], 1g [[Steel]] | ||
| stacks = Yes, 20 | | stacks = Yes, 20 | ||
− | | volume = | + | | volume = 10L, 60Mpa |
| createdwith = [[Hydraulic Pipe Bender]] | | createdwith = [[Hydraulic Pipe Bender]] | ||
}} | }} | ||
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Pipes are used to transport gas. Pipes are one of the possible types of inputs/outputs from a structure (the others being [[Cables]], [[Chutes]], and [[Kit (Liquid Pipe)]]). | Pipes are used to transport gas. Pipes are one of the possible types of inputs/outputs from a structure (the others being [[Cables]], [[Chutes]], and [[Kit (Liquid Pipe)]]). | ||
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* Pipes can store some gas inside of them, which can be used with small airlocks to store gas when depressurizing | * Pipes can store some gas inside of them, which can be used with small airlocks to store gas when depressurizing | ||
− | * Pipes will burst if the pressure differential between the inside pressure and outside atmosphere is greater than 60, | + | * Pipes will burst if the pressure differential between the inside pressure and outside atmosphere is greater than 60,795 kPa (60 MPa) (plus a random check to allow for short bursts over this limit) |
− | * Pipes will be stressed (make a noise) when the pressure difference between inside and outside the pipe is greater than 48, | + | * Pipes will be stressed (make a noise) when the pressure difference between inside and outside the pipe is greater than 48,636 kPa. This equals to 80% of the burst pressure. |
+ | * Pipes will also be stressed if a Liquid enters them. <code>Stress in % = 5000 x "liters of liquid" / "pipe network volume"</code> | ||
* A contiguous pipe (not interrupted by valves, regulators, pumps etc.) of any length, will always have the same pressure, temperature and mixture over its entire length. No matter at what point of the pipe you're introducing new gases into the pipe, they will instantly and evenly "average out" over the entire pipe. | * A contiguous pipe (not interrupted by valves, regulators, pumps etc.) of any length, will always have the same pressure, temperature and mixture over its entire length. No matter at what point of the pipe you're introducing new gases into the pipe, they will instantly and evenly "average out" over the entire pipe. | ||
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===Insulated=== | ===Insulated=== | ||
− | Insulated pipes | + | Insulated pipes stop the exchange of heat between the pipe and it's surrounding environment |
Pipes: | Pipes: |
Latest revision as of 08:14, 13 September 2024
Volume | 10L, 60Mpa |
---|---|
Properties | |
Stacks | Yes, 20 |
Recipe | |
Created With | Hydraulic Pipe Bender |
Cost | 0.5g Iron |
Volume | 10L, 60Mpa |
---|---|
Properties | |
Stacks | Yes, 20 |
Recipe | |
Created With | Hydraulic Pipe Bender |
Cost | 1g Silicon, 1g Steel |
Pipes are used to transport gas. Pipes are one of the possible types of inputs/outputs from a structure (the others being Cables, Chutes, and Kit (Liquid Pipe)).
Tips[edit]
- Pipes can store some gas inside of them, which can be used with small airlocks to store gas when depressurizing
- Pipes will burst if the pressure differential between the inside pressure and outside atmosphere is greater than 60,795 kPa (60 MPa) (plus a random check to allow for short bursts over this limit)
- Pipes will be stressed (make a noise) when the pressure difference between inside and outside the pipe is greater than 48,636 kPa. This equals to 80% of the burst pressure.
- Pipes will also be stressed if a Liquid enters them.
Stress in % = 5000 x "liters of liquid" / "pipe network volume"
- A contiguous pipe (not interrupted by valves, regulators, pumps etc.) of any length, will always have the same pressure, temperature and mixture over its entire length. No matter at what point of the pipe you're introducing new gases into the pipe, they will instantly and evenly "average out" over the entire pipe.
Variations[edit]
Can be painted individually or by the stack with Spray Can. (consumes a single 'use' of the can either way, far more efficient to paint a full stack)
Insulated[edit]
Insulated pipes stop the exchange of heat between the pipe and it's surrounding environment
Pipes:
Insulated Pipes: