Difference between revisions of "Cryotube"
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| name = Kit (Cryotube) | | name = Kit (Cryotube) | ||
| createdwith = [[Hydraulic Pipe Bender]] '''MK2''' | | createdwith = [[Hydraulic Pipe Bender]] '''MK2''' | ||
| − | | cost = 10g [[Gold]], 10g [[Copper]], | + | | cost = 10g [[Gold]], 10g [[Copper]], 35g [[Steel]], 5g [[Silver]] |
}} | }} | ||
{{Structurebox | {{Structurebox | ||
| name = Cryotube | | name = Cryotube | ||
| image = [[File:Cyrotube.jpg|133KBpx|frameless|center|Cyrotube]] | | image = [[File:Cyrotube.jpg|133KBpx|frameless|center|Cyrotube]] | ||
| − | | power_usage = | + | | power_usage = 10W |
| placed_with_item = [[Kit (Cryotube)]] | | placed_with_item = [[Kit (Cryotube)]] | ||
| placed_on_grid = Small Grid | | placed_on_grid = Small Grid | ||
| Line 18: | Line 18: | ||
}} | }} | ||
== Description == | == Description == | ||
| − | + | A Cryotube can heal players and organs as well as revive dead players, the cryotube also functions as a [[sleeper]]; has one gas input, one power input, and one data input. | |
| − | + | When opened the cryotube will expel its gas from the tube into the room it is in, it does not appear to backflow. | |
| − | |||
| − | |||
| − | |||
| − | |||
| − | + | === Healing Players === | |
| + | For healing, feed the cryotube any breathable air mix (Pure 02, O2/N2 mix etc.) at room temperature (0-30C). this will heal a player and repair damaged lungs. Be sure to have a system to filter out the C02. | ||
| − | + | === Reviving Dead Players === | |
| + | To Revive a player, the cryotube must be fed more than 80Kpa of [[Nitrogen]] at a temperature of less than -150C, other gasses can be included so long as there is at least a partial pressure of 80kpa Nitrogen.<ref>[https://discord.com/channels/276525882049429515/811149668729356350/1138252121377079367 Discord] it's expecting 80 kPa of N2 at -150C - Risu</ref> | ||
| + | |||
| + | == Practical considerations == | ||
| + | |||
| + | The pipe connection on the unit is for gas pipes. Avoid conditions that lead to significant build-up of liquid or ice inside the pipe. | ||
| + | |||
| + | The stationeer must remove their pressure suit to get into the cryotube so it should be in a room with a breathable atmosphere. | ||
| + | |||
| + | When the cryotube is opened gas is exchanged with the surrounding atmosphere. When it is closed gas is exchanged with the connected gas pipe. Ideally the connected gas supply will be similar to the room gas mix (i.e. 81% N2, 19% O2 at 100kPa) . However, since the stationeer will be exhaling CO2 this will end up in the connected gas supply. When used as a resurrection chamber the CO2 that ends up in the cryogenic gas will freeze, and when too much crystalizes in the pipe, the pipe will fail. | ||
| + | |||
| + | === Suggestion === | ||
| + | |||
| + | One strategy for providing cryogenic gas to the chamber is to pressurize a pipe to 101 kPa with a breathable atmosphere (perhaps imported from the room containing the cryotube). Connect that pipe to the heat exchange connection of an [[Evaporation Chamber]] which is supplied with liquid nitrogen and is set for 800 kPa. This should (when supplied with cold enough liquid nitrogen) stabilize below -150C. This keeps the cryotube gas separate from the pure liquid nitrogen, and can be scrubbed of problematic gasses using [[Filtration]]. | ||
| + | |||
| + | Remember that as the gas in the pipe cools the pressure diminishes, so a [[Pressure Regulator]] may be of use to load more gas from the room. | ||
{{Data Network Header}} | {{Data Network Header}} | ||
Latest revision as of 09:36, 25 June 2025
| Recipe | |
|---|---|
| Created With | Hydraulic Pipe Bender MK2 |
| Cost | 10g Gold, 10g Copper, 35g Steel, 5g Silver |
 | |
| Operation | |
|---|---|
| Power Usage | 10W |
| Construction | |
| Placed with | Kit (Cryotube) |
| Placed on | Small Grid |
| Stage 1 | |
| Deconstruction | |
| Deconstructed with | Hand Drill |
| Item received | Kit (Cryotube) |
Contents
Description[edit]
A Cryotube can heal players and organs as well as revive dead players, the cryotube also functions as a sleeper; has one gas input, one power input, and one data input.
When opened the cryotube will expel its gas from the tube into the room it is in, it does not appear to backflow.
Healing Players[edit]
For healing, feed the cryotube any breathable air mix (Pure 02, O2/N2 mix etc.) at room temperature (0-30C). this will heal a player and repair damaged lungs. Be sure to have a system to filter out the C02.
Reviving Dead Players[edit]
To Revive a player, the cryotube must be fed more than 80Kpa of Nitrogen at a temperature of less than -150C, other gasses can be included so long as there is at least a partial pressure of 80kpa Nitrogen.[1]
Practical considerations[edit]
The pipe connection on the unit is for gas pipes. Avoid conditions that lead to significant build-up of liquid or ice inside the pipe.
The stationeer must remove their pressure suit to get into the cryotube so it should be in a room with a breathable atmosphere.
When the cryotube is opened gas is exchanged with the surrounding atmosphere. When it is closed gas is exchanged with the connected gas pipe. Ideally the connected gas supply will be similar to the room gas mix (i.e. 81% N2, 19% O2 at 100kPa) . However, since the stationeer will be exhaling CO2 this will end up in the connected gas supply. When used as a resurrection chamber the CO2 that ends up in the cryogenic gas will freeze, and when too much crystalizes in the pipe, the pipe will fail.
Suggestion[edit]
One strategy for providing cryogenic gas to the chamber is to pressurize a pipe to 101 kPa with a breathable atmosphere (perhaps imported from the room containing the cryotube). Connect that pipe to the heat exchange connection of an Evaporation Chamber which is supplied with liquid nitrogen and is set for 800 kPa. This should (when supplied with cold enough liquid nitrogen) stabilize below -150C. This keeps the cryotube gas separate from the pure liquid nitrogen, and can be scrubbed of problematic gasses using Filtration.
Remember that as the gas in the pipe cools the pressure diminishes, so a Pressure Regulator may be of use to load more gas from the room.
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 |
|---|---|---|
| Open | Boolean | Opens the CryoTube, when set to 1. Closes it, when set to 0. |
| On | Boolean | Turns the CryoTube on, when set to 1. Turns it off, when set to 0. |
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 |
|---|---|---|
| Power | Boolean | Returns whether the CryoTube is turned on and receives power. (0 for no, 1 for yes) |
| Open | Boolean | Returns whether the CryoTube is open. (0 for no, 1 for yes) |
| Error | Boolean | Returns whether the CryoTube is flashing an error. (0 for no, 1 for yes) |
| On | Boolean | Returns whether the CryoTube is turned on. (0 for no, 1 for yes) |
| RequiredPower | Integer | Returns the current amount of power, required by the CryoTube, in watts. |