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==Introduction==
==Introduction==
The Supermatter Engine is not as simple as a Singularity or Tesla engine. It is far more complicated, and it requires regular upkeep and checking to maintain optimum performance. It is also much more adaptable, with many settings and tweakable options to improve, or ruin, your engine.
In comparison to the other three power options, ([[solars]]|[[tesla]]|[[singulo]]), the Supermatter Engine is by far the most complex power method. It is recommended that the engine be checked regularly to upkeep and maintain its top performance. However this engine will provide a surplus of power if done right and offers plenty of tweaking to be done for even the most experienced crewmember.
 
[[File:supermatterftlwhisp.png|800px|thumb|center|It's not as complex as it looks.]]
 
Aboard the ship, the Supermatter Crystal will be the primary power source. In addition a Supermatter shard can be bought from a station using [[Cargo]] when docked to a station, the only difference - The shard can be moved around without ending in a horrible death. Both Crystals produce radiation when inert and will cause hallucinations if stared at. When the engine is inert, the shard will produce oxygen and plasma and heat the atmosphere around it. Without any filter the shard will either explode or turn into a Tesla that will destroy the entire ship and kill all crew subject to it. In addition to the thermoelectric loop, the shard will fuel radiation collectors.
 
== Words of Warning ==
# The Supermatter is EXTREMELY DANGEROUS. In any case you should NEVER activate the Supermatter before you're 100% sure that every single step is finished any you are happy with the pipe layout. If you bought a Supermatter Shard from [[Cargo]] leave it locked inside of the crate till everything is prepared!
# You require safety gear. You'll find a full radiation suit and mesons in the engine room's airlocks - If the engine is on, these are required to protect yourself from both radiation and hallucination. You'll also find hardsuits in engineering that block radiation in the equipment room.
# Most of "Setting up the Supermatter" involves a gas loop that is designed to cool down the Supermatter chamber. While not required, please have at least basic knowledge of engineering and atmospherics.
# Anything which comes in contact with the Supermatter is fundamentally annihilated. Don't touch it. You should never open the doors to the Supermatter unless there is a DIRE threat to the engine and it cannot be ejected via the mass driver.
# The Chief Engineer should know how to set up the Supermatter. Failure to set up the Supermatter by the Chief engineer will result in a note which can lead to a job ban.
# If you are the only engineer on the ship and you need help setting up the Supermatter, you can make an adminhelp asking for assistance. Since the round hinges on power, you can expect a quick response from any online staff. <strike> If any of them tell you to use hydrogen don't trust them.</strike><br>
 
== Mechanics ==
The Supermatter is an EXTREMELY unstable crystal with particular properties. Here's how it behaves:
 
=== Power ===
The crystal's power determines how much energy is produced each tick, and also the range and amount of radiation and hallucinations generated. (a 'tick' usually takes around 1-5 seconds depending on server delay)
 
* Power decays over time.
* Hitting the crystal with a non-physical bullet (usually emitters) will increase its power.
* Power is increased every tick depending on the gas mix. This scales with the gas' temperature.
* Consuming an object or mob will increase the power by a significant amount, independently from the object's size.
* Power decay can be lowered or even completely prevented with CO2.
* Too much power will result in dangerous sideeffects, like arcs of lightning or anomalies.


[[File:Engine bay annotated.png|600px|thumb|center|It's not as complex as it looks.]]
=== Instability ===
The crystal must be kept stable if you don't want it to explode.


===Legend===
* Stability does not change by itself.
#'''Thermoelectric Generator''': The Thermoelectric generator (TEG) is a machine which creates power based on the temperature difference between the hot loop and the cold loop - the greater the difference, the more energy is generated. The hot loop is on the left in yellow pipes, the cold loop is on the right in blue.
* The crystal grows unstable if the gas mix is hotter than 310K. It will instead stabilize when it is cooler than 310K.
#'''Coolant valves''': These valves can be opened to mix the hot and cold loops with each other. It's a decent idea to open it if the hot loop overheats, as that allows the hot loop to cool.
* Physical bullets will destabilize the crystal, depending on the damage they do.
#'''N₂ Canister Ports''': Two ports for you to wrench in the nitrogen canisters from canister storage.
* Large amounts of power will destabilize the crystal.
#'''Waste gas canister port''': A port for you to put an empty canister to filter out waste gases - namely, oxygen.
* Large amounts of moles will not only destabilize the crystal but also prevent the stabilizing effect of cold gases.
#'''Gas filter''': This is used to filter out the oxygen in the hot loop, and prevent the gas mix in the core from catching fire.
#'''Emitter''': The emitter fires a beam that energizes the Supermatter Shard.
#'''Engine Cooling Unit''': This computer controls the input and output of gases in the core.
#'''Power Monitor Unit''': This computer shows you the load and distribution of power on the ship's power grid.
#'''SMES cell''': Essentially a large battery, it starts with a small charge - enough for you to start the engine.
#'''Heat Exchanger Gas Pump''': This pump regulates the flow of air from the heat exchanger back into the cold loop's pipes. It should be on 450 kPa when you're starting the engine, but can be tweaked as necessary.  
#'''Heat Exchanger''': A series of pipes that allow the gas to be cooled down by space. This is necessary for the cold loop to be cold. (Space doesn't really work that way, but just go with it.)
#'''Gas Injector''': Injects the gas from the hot loop into the core to be heated.
#'''Supermatter Shard''': This supermatter shard (SM) is the source of heat for our hot loop. When hit by energy, such as lasers from the emitter or by a laser rifle, it emits heat, plasma and oxygen. In a pinch, you can throw objects into it to get it to emit energy, but this isn't recommended if you can avoid it. ''You should not look at the shard without meson scanners on, as it may be harmful.''
#'''Vent pump''': This pumps the gas heated by the shard back into the hot loop, so it can power the TEG.
#'''Core eject button''': This button jettisons the shard out the back of the ship. If the shard cannot be saved, you should press this before engineering blows up.
#'''Canister storage''': This is where the N₂ and empty canisters are stored prior to setup.
#'''N₂ Gas Pump''': These feed the hot and cold loops with N₂. These should be set to maximum.
#'''PACMAN Generator''': A portable generator that can be used to power the emitter and computers if the SMES cell runs completely dry.


=== Gas Interactions ===
Each gas has a different effect when it surrounds the supermatter crystal. The strenght of each effect depends on the percentage of it in the gasmix in the supermatter chamber.


===Supermatter Theory===
The supermatter engine produces power via a Thermoelectric Generator, or TEG. This large white device has two inputs for pipes. It generates power based on the difference in temperature between the two inputs. This means that you want the cold side to be very cold, and the hot side to be very hot. The larger the difference, the more power you will make.
The cold loop (or blue loop) is fairly simple. It leads up to heat exchanging pipes in space. The gas runs through the pipes and becomes very cold. Then it flows back down into the right (cold) side of the TEG.  This requires next to no maintenance and will run on its own.
The second loop is the hot loop, also known as the yellow loop. This is where things get complicated. The yellow loop runs to the top of the room, and enters into the reactor core. The reactor contains the Supermatter Shard (the yellow crystal thing). It is EXTREMELY IMPORTANT that you do not interact with the shard in any way, as it is both highly radioactive and will kill you instantly if you touch it. If you are the CE or AI it is a good idea to bolt the hatches leading into the core to prevent any accidents.
Now, the Supermatter Shard is aligned with a Emitter. This emitter fires a beam of energy that will hit the supermatter shard and energize it. The beam will also hurt, a lot, so don’t stand in front of it. When the shard is hit by the energy beam, it will produce 3 things: heat, plasma, and pure oxygen. The heat is the important part, because this will heat the gas that flows into the chamber via the Coolant Injector. Don’t be fooled by the name, this is very hot gas. The air will sit in the chamber and be heated by the shard, then be pumped out by Engineering Vent Pump 2 (coders rename these to logical names please). This superheated gas then flows into the hot side of the TEG and repeats the cycle.
The TEG should now be generating power. The amount of power is based of the difference in temperature in the hot and cold loop. We will discuss how to maximize this power later in the module.


==Setup==
[[File:Cold.png]]<strike>Freon
'''Safety: Extremely Safe'''


[[File:Engine Guide Step 1.PNG]]
BZ is an extremely cold gas that instantly freezes anything it touches into solid ice. This is perfect for stabilizing an unstable supermatter crystal.</strike>


The first thing you should do is don a radiation suit and some Meson Scanners. These will allow you to work safely without being irradiated. Side effects of radiation poisoning is hair loss, hallucinations, and death. Next follow these steps to startup the engine.
[[File:n2.png]]N<sub>2</sub>
'''Safety: Very Safe'''


#Take two of the red nitrogen canisters, and attach them to the two lower connector ports with a wrench. One supplies gas to the cold loop and the other to the hot loop.
N2 is a good safety gas. It actively lowers the temperature and the amount of waste gases that the supermatter crystal produces.
#Take a yellow canister and attach it to the top port with a wrench. This will hold your waste gasses.
#Walk up to the gas filter above the TEG, and make sure it is set-up to filter O2 (Oxygen) at max pressure. If this step is forgotten then the high oxygen concentration will start a fire in the core chamber. You (probably) don’t want that.
#At the top of the room near the radiation lockers are the cold loop Heat Exchange Pipes that run through space. There is a gas pump here - set it to 450kPa.
#To your right is the blue Engine Cooling Control computer, or ECC. This monitors the reactor chamber and provides lots of useful information. You want to turn on the output regulator. This value will tell the vent pump in the core to pump out air until the pressure in the core is equal to that value. Set the value to 100 wgith the button below.
#Return to the lower part of the room and activate the gas pumps connected to the canisters. Make sure the gas pumps at are the maximum pressure, so all of the N2 is moved into the loops. This will drain the canister very quickly. Do not worry, this is normal. You do not need to add more N2 than this.
#Turn on the emitter. HURRAY! You are now generating power!
#As soon as you hit about 200k power on the TEG, turn the emitter off for a while, turning it back on once the power starts decreasing again. This prevents the hot loop from overheating.


==Maintenance==
[[File:n20.png]]N<sub>2</sub>O
The supermatter engine is not like the Singularity or Tesla, you have to monitor it. For the most part it will continue running on its own, but throughout the round you can make changes and optimize it to produce more power. Here are some steps to follow when monitoring the core.
'''Safety: Safe'''
Verify that there are no fires in the core chamber. If so follow the steps in the emergency section of this guide.
Check power output and adjust the valves and pressures as needed.
Verify the SMES is sending enough power.


Many of the settings can be tweaked to change performance. You can adjust the gas filter to increase the O2 content in the reactor core. You can adjust the output pump to change the temperature of the gas leaving the chamber. A higher value will let the air stay in the chamber longer, allowing for higher temperatures. Experiment! Most likely you will not mess anything up too bad, as you can revert any issues that might arise if you act quickly enough.
N2O reinforces the heat resistance of the supermatter crystal, allowing for much hotter setups than usual.


==Emergency Procedures==
[[File:h2.png]]H<sub>2</sub>
Things have gone horribly wrong and the crew is shouting at you to fix it. Don’t panic! This guide should help you fix most of your issues.
'''Safety: Normal'''


H2 Is the only stable gas that has zero effect in reaction to the engine chamber, Its usually a good gas to inject into the cooling line <strike>or heating line</strike> as it holds heat well without the danger of side-effects.


===Core Delamination===
[[File:o2.png]]O<sub>2</sub>
Core delamination is caused by overheating. This can be caused by a variety of reasons, and the end result is the same: A big boom. Often times delamination happens without warning and can quickly go from 15% to 40-50% if unattended. These spikes in instability are dangerous and need to be your first priority.
'''Safety: Dangerous'''


Early Stage
Oxygen is the gas with the best power/danger ratio. It provides a boost to power transmission without actively increasing the waste gas amount or temperature. It does however count against the safety bonus provided by N2.
#Shutdown Emitter.
#Check for obvious causes (core on fire, etc).
#Disable the injector at the ECC.
#Wait for the temperature to decrease and the warnings to disappear.


Mid Stage
[[File:plasma.png]][[Plasma]]
#Follow all previous steps.
'''Safety: Very dangerous'''
#Set the Output Regulator value to zero at the ECC to attempt to remove all the gas from the core.
#Advise CoC of possible Engine Emergency.
#Perform a SCRAM (instructions below) if CoC requests.


Late Stage
Plasma is very similar to Oxygen but provides a much higher power boost and waste and heat penalty. The extreme pressures and volumes of gas produced by this gas are very likely to clog pipes. WARNING: The roundstart setup can not handle pure plasma setups.
#Follow all previous steps.
#Inform COC of Engine Emergency.
#Engage both coolant valves to attempt to equalize the temperature.
#Attempt to cool core manually with fire extinguishers (dangerous).
#If these are ineffective eject the core to prevent catastrophic explosion.


===Core Fire===
[[File:co2.png]]CO<sub>2</sub>
A Core Fire is when the gases in the chamber ignite and start a fire. 99% of the time this is caused by having a too high oxygen percentage in your core. Generally at normal operating temperatures fires will start at 12% oxygen or higher. At higher temperatures though it can start at lower concentrations.
'''Safety: Very dangerous'''


The root cause is normally someone forgetting to activate the gas filter, and it can be fixed by turning it on/maximizing the pressure. Be warned, a fire can quickly lead to Core Delamination, so do not ignore it.
CO2 is a very dangerous gas. In low concentrations, it doesn't do much but after a certain threshold is passed, it will slowly stabilize the internal crystal charge reactions and reduce the amount of power that the crystal loses every second. In high enough concentrations this can raise the internal power to infinitely high levels. Be careful however, since increased power not only increases the amount of heat and waste, but also causes catastrophic sideeffects long before the crystal delaminates.


=== Gas Production ===
The crystal produces plasma and oxygen while it's active.


===Core Leak===
* Plasma and Oxygen burn if they're hot enough. This will heavily increase the temperature and reduce the oxygen percentage; if not kept under control this can end up destabilizing the crystal.
Oh look, nobody bolted the maintenance doors to the core chamber, and somehow somebody opened it. Now all your gas is leaking out and it is pushing you away from the door so you cannot close it. Simply run to the shutters button to close the blast shutters. Then have a buddy stand next to the open door and quickly close it when you raise the shutters.
* The amount and temperature of the produced gas is determined by the current crystal power.
You will have lost lots of N2, and most likely irradiated the compartment. Adding more N2 is easy, but make sure people know not to walk into the compartment without radiation suits.
* The amount of oxygen is proportional to the temperature of the absorbed gases. Very cold gas input will result in very little oxygen.
===Emergency Gas Shunt/SCRAM===
You have royally screwed things up now, and you need to quickly shutdown the reactor and prevent a meltdown, but save the Shard. You will be severely injured (and possibly die) from doing this. However this might be the only way to stop a catastrophic core fire if it grows too large.


#Turn off the emitter.
=== Irradiation ===
#Disable Input Injection, set Output Regulator to zero, and enable both coolant pumps.
The crystal will affect nearby mobs while it's active.
#Run inside the chamber and pull the shard off of the mass driver.
#Run back outside the chamber and hit the mass driver button to open the blast door. This will vent the gas very quickly but you will lose all of it to space.
#Pray.


* The range and power is determined by the current power. Being further away from the crystal also mitigates the effect.
* The crystal will cause hallucinations to nearby mobs if they're not wearing meson scanners or equivalents.
* The crystal will irradiate nearby mobs. A radsuit or other protective clothing can negate this effect.


===Cold Start===
=== Consuming ===
If you have run out of electrical power, you cannot turn on the emitter to activate the Shard. In order to restore power to the ship you have to cold start the engine. The first thing to try is to fire up the Pacman Generator if it is available. This will supply enough power to activate the emitter.  
Anything that touches the crystal will be consumed and turned into dust. No exceptions. The only way to "safely" transport a shard is to pull it, being careful to not be pushed back into it by someone else.


If the Pacman is unavailable or out of fuel, you will have to be more, creative. Firing laser guns or other energy weapons into it will slightly charge the shard. Also, throwing random stuff into the shard will disintegrate them and create small amounts of power. Throwing clowns into it also works; their sacrifice will not be in vain.
=== Collapsing ===
If the crystal reaches 0% stability, it will delaminate. There are several different events that may happen when the crystal delaminates and they all depend on the state of the crystal during delamination.


===Battle Damage===
* A crystal in a heavily pressurized gas environment with large amounts of moles will always collapse into a singularity.
(With upcoming changes to power distribution this section may be made obsolete.)
* A crystal that has excessive amounts of power stored inside it will cause an explosion and release several tesla energy balls.
It is highly recommended that you safely shutdown the reactor while in battle. Turn off the emitter, disable coolant injection, and set the output regulator to zero. Then disable the pumps and filters in both loops. This means that if battle damage is taken and a pipe is destroyed, you are not pumping all your gas into space.
* A crystal that is neither heavily overpressurized or overcharged will simply explode.
Also, closing the blast shutters is advised because the windows may be broken by incoming fire. After the battle is over report the damages (if any) to the chain of command and advise them on repair times. If the repairs will take too long, activate the Pacman generator to supplement the power supply. Repairing the engine should be top priority.
== Guides ==
<tabs style="">
<tab name="TEG Engine Theory">
===Basic Theory===
A TEG based supermatter engine produces power from heat. TEG Stands for Thermo-Electric Generator.
One side will be the "Hot loop" and the other side will be the "Cold loop".
Some of these setup have a designated burn chamber where plasma and oxygen can safely burn away from the supermatter.
Others will require more creativity though you can just use the heat generated from the Supermatter itself to heat the hot loop.<br>
:''The Aetherwhisp is the most common map in rotation due to it being the one that is most maintained and loved. This guide will focus on that engine which wont be much of an issue as other maps have that exact engine copy and pasted.''<br>
'''Keep in mind while it may be tempting to add a heater to the hot loop to produce infinite, minimal effort power, admins and moderators are given FULL ABILITY to disrupt your engine. Even if it ends the round. You have been warned.'''
===Gases to look out for===
:To be honest, all of them are useful in their own right <strike> except hydrogen you casual!</strike>, you'll mainly be dealing with Plasma[[File:plasma.png]] and Oxygen[[File:o2.png]] as these are to key to fire.<br>
:[[File:n2.png]] Nitrogen will kill your engine output if you have enough of it in the core. This is both a good thing and a bad thing as N2 can help stop an engine from delaminating. As such, don't put this in unless you want less power.<br>
:[[File:n20.png]] Nitrous-Oxide  is a very useful gas and in some cases better than Nitrogen for stopping a delamination. It increases the temperature tolerance of the crystal. Any core burn engine needs N2O<br>
:::''I use N2O in all of my engines simply because I don't trust you yahoos to be able to keep my engine cool. Also, it's just very helpful. -Altangy''
:[[File:co2.png]] Co2 will be created from the flames of your engine. This is both good and bad. Good engineers know that Co2 can improve an engine's output. Bad engineers let it build up and power delaminate. It's a balance.<br>
:::''I find that 50% Co2 is where the engine starts to power delamniate. -Altangy''<br>
:[[File:h2.png]] It's fine in the cold loop. Bad in the hot loop. We want gas reactions and hydrogen does not have one which limits total power output. Any engine that claims to run on pure hydrogen isn't using the supermatter it's using a room temperature gas.<br>
===Scrub or siphon?===
Much like the age old debate of space the clown or space the <strike>Bridge Officer</strike> assistant, to scrub or siphon your core is a question we engineers ask ourselves daily.<br>
:::''What or what? I don't know atmospherics and I'm trying to use an atmospherics based engine!''<br>
:::Siphon pulls every gas.<br>
:::Scrub pulls selected gases.<br>
:::Both are settings on your scrubbers. If you don't know what a scrubber is, god help you.<br>
For some it's a question of personal preference. Others have no idea what they are doing. And others use drought setting because they are lazy. If you need a gas in the core then use scrub and filter your gasses as needed. If you don't need a gas in the core then feel free to siphon. In either case you need to make sure your pipe network can handle the load. '''Scrubbing and siphoning both work at the same speed.'''
===Basic Setup===
You skipped everything above just to get the answers here right? If not, there is hope for you. If so, when your engine delaminates everyone is going to blame you.<br>
As of right now I'm too lazy to write this. Will come back later. You should have the information to set up a TEG engine. -Altangy.
</tab>
<tab name="TEG Engine Walkthrough">
Are you from another department and feel like you don't need to know all this stuff? Just want to get back to growing plants and killing monkeys? Look no further.<br />
This guide references the numbered image of the engine room above.<br />
===Setting up the pipes===
[[File:Supermatterftlwhisp setup.png|300px|thumb|right]]
# Set up the vents and scrubbers
## Unlock the air alarm (number 8) and click on it to bring up the menu. You need an ID with engineering access to do this.
##* Do not skip this. You already broke into engineering, just go get the captain's spare.
## Under vent controls, set all three to "internal" with a target pressure of 0 kPa
##* This will make the vents keep pushing any gas they receive into the engine chamber.
##* Make sure you un-select "external"
## Under scrubber controls, for all three scrubbers, check every box except N2O, and set the range to "Expanded"
##* This will let the N2O sit in the chamber and get nice and toasty, while everything else gets moved into the pipes
##* The gas that is scrubbed out is what ends up in your hot loop, providing power when it goes through the TEG
## Lock the air alarm when you're done. This will keep anyone else from fiddling with it.
# (Optional but highly recommended) Lay down some volume pumps
## Find yourself a Rapid Piping Device (RPD)
##* There is one in each atmospherics locker
##* Hacked autolathes can construct them
##* To use, hold the RPD in your active hand and click on it. Find the "volume pump" option and select that.
## Replace the straight orange pipe below the SM chamber airlock with a south-facing volume pump
### Un-wrench the orange pipe
### Use the RPD to make a volume pump there
### Wrench in the volume pump
### Make sure the red stripe is on the lower end (south). If not, unwrench it and turn it around.
##* From this point on this guide will assume you can wrench pipes and check the directions of pumps without explicit instruction
## Replace the gas pumps on the connectors (blue boxes at number 5) with volume pumps, facing the same direction as the pumps you replace
## Add two north-facing volume pumps directly beneath the TEG (2), one replacing the straight orange pipe, one replacing the straight cyan pipe.
## Optional: Change the RPD to "eat pipes" mode and clean up the spare pipe bits that are lying around now
# Remove the digital coolant valves
#* These are the little box-shaped valves that connect the orange and cyan pipes together
#* I will be telling you to fill the cold loop with plasma. Using these to "cool" a delaminating engine will only make the fire bigger.
#* Also cleaning out other gases contaminating the cold loop is terrible and should be avoided.
#* It is not necessary to replace them with anything, but if the unconnected pipes bother you, the RPD can be used to make L-shaped corners to replace the T-shape pipes.
# Turn on the filters (number 3, in the green boxes)
#* The one on the purple pipe is set to filter plasma by default. The one on the gray is set to filter O2.
#* Max out the pressure on these to the full 4500 kPa
# Go to the top of the engine room, and set the pressure on the gas pump (7, in a blue box) to the maximum 4500 kPa
All your shiny new pumps should be turned on. If you have not turned them on, do so now.
===Adding gas===
# Shove the two gas cans at number 5 in a corner somewhere. We won't be using them.
# You will need two cans of plasma (red with a letter P) and two cans of N2O (red with a white stripe)
#* Atmos gas storage is three airlocks south of the engine room.
# Add the plasma to the cold loop by wrenching the cans onto the connector attached to the cyan pipes (at number 5).
#* '''Do not use the can menu to "open" the valve. This will flood the room with plasma unless you've got a smaller can in it to fill up.'''
# Add the N2O to the hot loop by wrenching it to the connector attached to the orange pipes.
#* You should see the white N2O animation fill the engine chamber. If this doesn't happen, something is wrong with your pipe setup.
# Verify that the gas meters (small grey-and-green squares) have lit up with a bright green bar and some yellow squares. This tells you there is gas in your pipes.
===Start the engine!===
# Make sure you're wearing meson goggles (found in any radiation locker) if you don't want to hallucinate to hell and back
# Open up the emitter port by clicking the top right control button on the SM chamber. The barrier in front of the emitter (4) should open, revealing a window, some neat-looking floor, and the supermatter crystal.
# Turn on the emitter by clicking on it. It will light up and start shooting lasers at the deadly radioactive crystal.
===Next steps===
# Set the SMESes.
#* These are the giant batteries that distribute power through the ship.
#* They are located in the upper north corner of engineering - through the equipment room, and up. They're large white things, that look like number 7.
#* As soon as you have 400,000 W of power available to you, you'll want both of these maxed out. If the ship's power demands are not being met, increase the output on these.
#** Do not make the output larger than the input, this will drain the SMES and eventually cause more problems than it solves.
# Consider adding more gas to the hot loop
#* I recommend CO2. You can fill some of your empty canisters with it in atmospherics.
#* Two cans of N2O and two cans of CO2 with this setup will average a little above 580 kW. This is a really safe energy level and will not max out the meter on the TEG, but it is enough to run a ship on.
* The engine room will start to get hot. Bring internals, and maybe a fire suit, as this can be a health hazard if you stand around too long.


REMEMBER! The CoC needs to be made aware of ALL incidents or accidents that occur. Report through the Chain of Command, first in the engineering channel (:h or :e) to report to your Chief Engineer, who will then report to the Captain via the command channel (:c).�


==Modifications==
</tab>
Possibly the best thing about the Supermatter Engine is how modifiable it is. As you work with it you might see some flaws in the design or pump settings. Here are a couple of suggestions for your engine! Be sure to consult the CE when making any modifications, as the engine downtime could affect ship performance. For experienced engineers only.
<tab name="Radiation Engine Setup">
===Set up the gas loop===
# Get a spare can of N2
# Wrench that can and the one that's already there onto the connectors at the top of the engine room
#* Save the N2O for if there's trouble
# Turn on and max out the gas pump to the right, which will start putting the N2 into the rest of the loop
# Go in a clockwise circle around the room turning on and maxing out anything that is in the way of the gas flow
## Filters that lead to connector ports can be set to filter Nothing. If you need the oxygen and plasma that badly, you should be calling the escape pods, not collecting from the engine.
## Make sure to max out the gas pumps leading to and from the heat exchange pipes in space.
##* '''Do not''' turn on the bypass pump in between the two space pumps '''unless''' the space cooling loop is broken. See the troubleshooting section for this eventuality.
## Unlike on /tg/, the filters at the back of the supermatter chamber are for getting rid of waste, not filtering good stuff back in.
##* Set these to filter out '''plasma, O2, and CO2.'''
##* You can also filter things like BZ and hydrogen if you like, but these shouldn't ever be in this pipe anyways.
##* '''Do not''' filter out N2 or N2O. You want to keep those.
##* Any left-over filters can be set to filter Nothing.
## Turn on the digital valve at the northeast corner.
# Set the air alarm
## For the vents, leave them on External, but raise the target pressure to 5066 (the maximum).
## For the scrubbers, set them to filter every gas, with expanded range, and siphon.
===Load the radiation collectors===
# Identify and use the button near the supermatter chamber airlock that raises the blast doors around the sides. You need to be able to walk to the radiation collectors.
# Obtain six plasma tanks (the orange rectangle ones, that come out of tank dispensers.)
# The tanks as they come are not full. The engine can be run with partially full tanks, but it will not be as efficient. It is recommended that you fill these tanks to maximum capacity first.
## Click on a large can of plasma with the small plasma tank
## Click on the large can to open its menu
## Set the release pressure to max (1013 kPa)
## Open the valve
## When the loaded tank is full, '''close the valve'''
## Eject the loaded tank
## Repeat for the other five (5) tanks
# Take your six (6) full plasma tanks, and load them into the six radiation collectors flanking the supermatter chamber
#* After inserting a tank, click the radiation collector again to turn it on. A purple panel will rise from it and some lights will come on.
# You can now close the blast doors again.
===Turn it on===
# If you aren't already wearing a radiation suit, you'll want to put that on now
# Verify that gas is circulating through your cooling loop. The gas meters around the whole circle should show that gas is present.
# Open the emitter port at the back of the chamber with the button on the front of it.
# Turn on the emitters in the back of the room. Two emitters is typically enough to power the ship. Be careful not to get hit by one while going to turn the other on.
# Set the SMES.
#* See the TEG walkthrough for more detail on SMESes.
#* On the Ineese, they are located south of the main engineering room, in the Telecomms room.
</tab>
</tabs>
== Troubleshooting AKA Oh god it's on fire what do I do!? ==
[[File:Supermatterproblem.png|200px|thumb|alt=Supermatter Sabotage|The supermatter's in trouble! You should be able to locate where the issue is from the screenshot alone. [https://tgstation13.org/wiki//images/9/9a/Smproblemsolution.gif Here's the answer.]]]
===First and foremost===
Turn off the emitter(s)! You don't want any more energy in your supermatter until you've solved the problem.<br />
Inspect the gas loop to confirm it is intact and operational.<br>
Check the [[File:Meter.png]]meters to quickly ascertain where a problem may lie.<br>
'''If any of the meters report an unusually high or low amount of gas, then you're close to finding the issue!'''




===Easy===
Common gas loop failures include:
There is a filter to remove the waste O2, but you cannot remove the excess plasma. Is there a way to harvest it?
* Gas pumps offline.
* Gas pumps left on default pressure. (Crank them up to 4500kpa!)
* Gas filters offline. '''Remember! Filters do not allow ANY gas to pass through if they're turned off! If you don't wish to filter anything, leave them online but set to filter nothing'''
* Gas filters left on default pressure.
* Supermatter chamber vents improperly configured.
* Supermatter chamber scrubbers not configured.
* Heat exchange pipes broken. Space dust can slip through the defenses on occasion. Or a traitor may detach a section.
* Too much gas! If a section has too high of pressure, the gas pumps cannot push anything more into it!
If the space loop is broken:
* The Aetherwisp has no bypass and freezers are forbidden in the engine room, so your best bet is to put on a spacesuit, remove the window, and go fix the cooling loop.
* On the Ineese:
# Turn off the pump that goes out to the space loop.
# Turn on the bypass pump between the two space cooling loop pumps.
# Turn off the digital valve at the north-east corner of the loop.
# Turn on the gas pump at the north-east corner of the loop.
# Turn on both freezers at the north of the engine room, and set them to minimum (73.15 K)
# Ensure the gas pump at the northwest is on to allow the now-cooled gas back out towards the vents.


Gas heaters and coolers might allow you to achieve hotter and colder temperatures.
===Second===
If the gas temperature is too high to stabilize with the cooling loop alone. '''Unleash the <del>freon</del> Supercooled N2'''


A second emitter might have some interesting effects.
===Third===
If the supermatter is delaminating and the gas loop is operational, use an [[File:Analyzer.png]]analyzer to check for problem gases in the loop. Someone may have slipped in some carbon dioxide. Double-check the filters to see if they're getting rid of unwanted gases.


Volume pumps will drastically change the way the pipes move air. You will achieve much higher pressures, but you will have less control.
===And lastly===
If all else failed, pray that an Atmosian elder investigates and finds the problem before it's too late.


===Medium===
== Sabotaging the supermatter ==
Theoretically, you can boost your power output by starting a fire in the core. “Supercharging” the engine with pure O2 might be a way to do this.
Want to sabotage the crystal but can't figure out how to pull it off? Here are some pointers and hints:


Nitrogen has the second highest heat absorption value, paired with its safeness makes it an excellent coolant. Plasma has the highest heat absorption in the game. Could it be the superior coolant?
''' ''Please note that since FTL13 is a cooperative server, breaking the engine and thus ruining the power supply is greifing.'' '''


You could easily get rid of the waste O2 if you sucked it from the core into space.
=== General hints ===
*You can break the APC of the room to stop all pipes and scrubbers from working.
*Disable the telecomms APC with the CE console to prevent the supermatter from anouncing its status.
*Cut cameras near the engine.
*Instead of turning off pumps and filters, you can just set them to extremely low values instead. They'll still appear to be working.
*Taking out all the engineers before attempting a delamination helps a lot.
*Opening a canister of plasma in engineering and igniting it will make it a lot harder for people to fix your sabotage. Even more effective if the radiation levels are high.
*Keep a flash or EMP on hand. The AI and its borgs are pretty much guaranteed to try and intervene to prevent harm.
*Stay around and pretend to be helping so you can undo all the repair attempts by other people.


===Hard===
=== Regular delamination ===
Double TEGs? Double Power?
These are the easiest to pull off and require no special conditions. You'll want to keep the supermatter chamber very hot and full of plasma or CO2.
*Use the filters near the emitter room to filter out N2 and N2O while keeping Plasma, Oxygen and CO2 in the loop.
*Pump in pure plasma or burn mix from atmos.
*Disable or break the cooling array. Deconstructing a single piece of the heat exchanger can be enough.
*Get rid of engineering's freon supply.
*Shooting guns at the crystal is extremely effective, but it's likely that you'll end up in the blast.
*Disable the scrubbers once the chamber is hot enough.


Atmospherics is located directly below the engine room. Could you tie those pipes into the gas loops?
=== Overcharged delamination ===
This kind of delamination requires careful gas management but is faster, far more destructive and there's a good chance it will irridiate, burn and shock the engineers who are trying to fix it.
*Ensure that only CO2 is in the supermatter chamber at all times. Filter all other gases and keep the scrubbers running.
*Keep the emitters online and firing if you can.
*Get as much CO2 into the chamber as possible. Larger amounts of CO2 can even compensate for the oxygen and plasma waste.
*Wear as much radiation protection as you can. Consider bringing some charcoal aswell.
*Try to keep radiation suits away from engineers, they won't be able to get near the overcharged engine without one.
*Make sure you are wearing insulated gloves to protect yourself from the lightning arcs.
*Disabling the cooling is not required. In fact, keeping the chamber cool might help you get more power.
*The anomalies, gravity pulses and lightning arcs will quickly turn the engine room into a deathtrap. Make sure you have everything set up correctly before this starts happening.


The heat exchanger in space could be expanded into the CE office for extra cooling, don’t expect him to be happy though.
=== Critical mass delamination ===
This is by far the most difficult but also the simplest one.
*Pump in as much gas as possible into the chamber. The easiest way to do this is to disable the pressure checks on the vent air alarms.
*Reverse the scrubber pump. It's a subtle alteration that might get overlooked in the heat of the moment and will prevent the excess gas from being pumped out.
*Make sure no gas leaves the chamber. Put up walls, deconstruct scrubber pipes, do whatever possible to keep the gas inside.




[[Category:Guides]]
[[Category:Guides]]
{{Guides}}

Latest revision as of 00:45, 23 May 2018



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Introduction

In comparison to the other three power options, (solars|tesla|singulo), the Supermatter Engine is by far the most complex power method. It is recommended that the engine be checked regularly to upkeep and maintain its top performance. However this engine will provide a surplus of power if done right and offers plenty of tweaking to be done for even the most experienced crewmember.

It's not as complex as it looks.

Aboard the ship, the Supermatter Crystal will be the primary power source. In addition a Supermatter shard can be bought from a station using Cargo when docked to a station, the only difference - The shard can be moved around without ending in a horrible death. Both Crystals produce radiation when inert and will cause hallucinations if stared at. When the engine is inert, the shard will produce oxygen and plasma and heat the atmosphere around it. Without any filter the shard will either explode or turn into a Tesla that will destroy the entire ship and kill all crew subject to it. In addition to the thermoelectric loop, the shard will fuel radiation collectors.

Words of Warning

  1. The Supermatter is EXTREMELY DANGEROUS. In any case you should NEVER activate the Supermatter before you're 100% sure that every single step is finished any you are happy with the pipe layout. If you bought a Supermatter Shard from Cargo leave it locked inside of the crate till everything is prepared!
  2. You require safety gear. You'll find a full radiation suit and mesons in the engine room's airlocks - If the engine is on, these are required to protect yourself from both radiation and hallucination. You'll also find hardsuits in engineering that block radiation in the equipment room.
  3. Most of "Setting up the Supermatter" involves a gas loop that is designed to cool down the Supermatter chamber. While not required, please have at least basic knowledge of engineering and atmospherics.
  4. Anything which comes in contact with the Supermatter is fundamentally annihilated. Don't touch it. You should never open the doors to the Supermatter unless there is a DIRE threat to the engine and it cannot be ejected via the mass driver.
  5. The Chief Engineer should know how to set up the Supermatter. Failure to set up the Supermatter by the Chief engineer will result in a note which can lead to a job ban.
  6. If you are the only engineer on the ship and you need help setting up the Supermatter, you can make an adminhelp asking for assistance. Since the round hinges on power, you can expect a quick response from any online staff. If any of them tell you to use hydrogen don't trust them.

Mechanics

The Supermatter is an EXTREMELY unstable crystal with particular properties. Here's how it behaves:

Power

The crystal's power determines how much energy is produced each tick, and also the range and amount of radiation and hallucinations generated. (a 'tick' usually takes around 1-5 seconds depending on server delay)

  • Power decays over time.
  • Hitting the crystal with a non-physical bullet (usually emitters) will increase its power.
  • Power is increased every tick depending on the gas mix. This scales with the gas' temperature.
  • Consuming an object or mob will increase the power by a significant amount, independently from the object's size.
  • Power decay can be lowered or even completely prevented with CO2.
  • Too much power will result in dangerous sideeffects, like arcs of lightning or anomalies.

Instability

The crystal must be kept stable if you don't want it to explode.

  • Stability does not change by itself.
  • The crystal grows unstable if the gas mix is hotter than 310K. It will instead stabilize when it is cooler than 310K.
  • Physical bullets will destabilize the crystal, depending on the damage they do.
  • Large amounts of power will destabilize the crystal.
  • Large amounts of moles will not only destabilize the crystal but also prevent the stabilizing effect of cold gases.

Gas Interactions

Each gas has a different effect when it surrounds the supermatter crystal. The strenght of each effect depends on the percentage of it in the gasmix in the supermatter chamber.


Freon Safety: Extremely Safe

BZ is an extremely cold gas that instantly freezes anything it touches into solid ice. This is perfect for stabilizing an unstable supermatter crystal.

N2 Safety: Very Safe

N2 is a good safety gas. It actively lowers the temperature and the amount of waste gases that the supermatter crystal produces.

N2O Safety: Safe

N2O reinforces the heat resistance of the supermatter crystal, allowing for much hotter setups than usual.

H2 Safety: Normal

H2 Is the only stable gas that has zero effect in reaction to the engine chamber, Its usually a good gas to inject into the cooling line or heating line as it holds heat well without the danger of side-effects.

O2 Safety: Dangerous

Oxygen is the gas with the best power/danger ratio. It provides a boost to power transmission without actively increasing the waste gas amount or temperature. It does however count against the safety bonus provided by N2.

Plasma Safety: Very dangerous

Plasma is very similar to Oxygen but provides a much higher power boost and waste and heat penalty. The extreme pressures and volumes of gas produced by this gas are very likely to clog pipes. WARNING: The roundstart setup can not handle pure plasma setups.

CO2 Safety: Very dangerous

CO2 is a very dangerous gas. In low concentrations, it doesn't do much but after a certain threshold is passed, it will slowly stabilize the internal crystal charge reactions and reduce the amount of power that the crystal loses every second. In high enough concentrations this can raise the internal power to infinitely high levels. Be careful however, since increased power not only increases the amount of heat and waste, but also causes catastrophic sideeffects long before the crystal delaminates.

Gas Production

The crystal produces plasma and oxygen while it's active.

  • Plasma and Oxygen burn if they're hot enough. This will heavily increase the temperature and reduce the oxygen percentage; if not kept under control this can end up destabilizing the crystal.
  • The amount and temperature of the produced gas is determined by the current crystal power.
  • The amount of oxygen is proportional to the temperature of the absorbed gases. Very cold gas input will result in very little oxygen.

Irradiation

The crystal will affect nearby mobs while it's active.

  • The range and power is determined by the current power. Being further away from the crystal also mitigates the effect.
  • The crystal will cause hallucinations to nearby mobs if they're not wearing meson scanners or equivalents.
  • The crystal will irradiate nearby mobs. A radsuit or other protective clothing can negate this effect.

Consuming

Anything that touches the crystal will be consumed and turned into dust. No exceptions. The only way to "safely" transport a shard is to pull it, being careful to not be pushed back into it by someone else.

Collapsing

If the crystal reaches 0% stability, it will delaminate. There are several different events that may happen when the crystal delaminates and they all depend on the state of the crystal during delamination.

  • A crystal in a heavily pressurized gas environment with large amounts of moles will always collapse into a singularity.
  • A crystal that has excessive amounts of power stored inside it will cause an explosion and release several tesla energy balls.
  • A crystal that is neither heavily overpressurized or overcharged will simply explode.

Guides

Basic Theory

A TEG based supermatter engine produces power from heat. TEG Stands for Thermo-Electric Generator. One side will be the "Hot loop" and the other side will be the "Cold loop". Some of these setup have a designated burn chamber where plasma and oxygen can safely burn away from the supermatter. Others will require more creativity though you can just use the heat generated from the Supermatter itself to heat the hot loop.

The Aetherwhisp is the most common map in rotation due to it being the one that is most maintained and loved. This guide will focus on that engine which wont be much of an issue as other maps have that exact engine copy and pasted.

Keep in mind while it may be tempting to add a heater to the hot loop to produce infinite, minimal effort power, admins and moderators are given FULL ABILITY to disrupt your engine. Even if it ends the round. You have been warned.

Gases to look out for

To be honest, all of them are useful in their own right except hydrogen you casual!, you'll mainly be dealing with Plasma and Oxygen as these are to key to fire.
Nitrogen will kill your engine output if you have enough of it in the core. This is both a good thing and a bad thing as N2 can help stop an engine from delaminating. As such, don't put this in unless you want less power.
Nitrous-Oxide is a very useful gas and in some cases better than Nitrogen for stopping a delamination. It increases the temperature tolerance of the crystal. Any core burn engine needs N2O
I use N2O in all of my engines simply because I don't trust you yahoos to be able to keep my engine cool. Also, it's just very helpful. -Altangy
Co2 will be created from the flames of your engine. This is both good and bad. Good engineers know that Co2 can improve an engine's output. Bad engineers let it build up and power delaminate. It's a balance.
I find that 50% Co2 is where the engine starts to power delamniate. -Altangy
It's fine in the cold loop. Bad in the hot loop. We want gas reactions and hydrogen does not have one which limits total power output. Any engine that claims to run on pure hydrogen isn't using the supermatter it's using a room temperature gas.

Scrub or siphon?

Much like the age old debate of space the clown or space the Bridge Officer assistant, to scrub or siphon your core is a question we engineers ask ourselves daily.

What or what? I don't know atmospherics and I'm trying to use an atmospherics based engine!
Siphon pulls every gas.
Scrub pulls selected gases.
Both are settings on your scrubbers. If you don't know what a scrubber is, god help you.

For some it's a question of personal preference. Others have no idea what they are doing. And others use drought setting because they are lazy. If you need a gas in the core then use scrub and filter your gasses as needed. If you don't need a gas in the core then feel free to siphon. In either case you need to make sure your pipe network can handle the load. Scrubbing and siphoning both work at the same speed.

Basic Setup

You skipped everything above just to get the answers here right? If not, there is hope for you. If so, when your engine delaminates everyone is going to blame you.
As of right now I'm too lazy to write this. Will come back later. You should have the information to set up a TEG engine. -Altangy.

Are you from another department and feel like you don't need to know all this stuff? Just want to get back to growing plants and killing monkeys? Look no further.
This guide references the numbered image of the engine room above.

Setting up the pipes

  1. Set up the vents and scrubbers
    1. Unlock the air alarm (number 8) and click on it to bring up the menu. You need an ID with engineering access to do this.
      • Do not skip this. You already broke into engineering, just go get the captain's spare.
    2. Under vent controls, set all three to "internal" with a target pressure of 0 kPa
      • This will make the vents keep pushing any gas they receive into the engine chamber.
      • Make sure you un-select "external"
    3. Under scrubber controls, for all three scrubbers, check every box except N2O, and set the range to "Expanded"
      • This will let the N2O sit in the chamber and get nice and toasty, while everything else gets moved into the pipes
      • The gas that is scrubbed out is what ends up in your hot loop, providing power when it goes through the TEG
    4. Lock the air alarm when you're done. This will keep anyone else from fiddling with it.
  2. (Optional but highly recommended) Lay down some volume pumps
    1. Find yourself a Rapid Piping Device (RPD)
      • There is one in each atmospherics locker
      • Hacked autolathes can construct them
      • To use, hold the RPD in your active hand and click on it. Find the "volume pump" option and select that.
    2. Replace the straight orange pipe below the SM chamber airlock with a south-facing volume pump
      1. Un-wrench the orange pipe
      2. Use the RPD to make a volume pump there
      3. Wrench in the volume pump
      4. Make sure the red stripe is on the lower end (south). If not, unwrench it and turn it around.
      • From this point on this guide will assume you can wrench pipes and check the directions of pumps without explicit instruction
    3. Replace the gas pumps on the connectors (blue boxes at number 5) with volume pumps, facing the same direction as the pumps you replace
    4. Add two north-facing volume pumps directly beneath the TEG (2), one replacing the straight orange pipe, one replacing the straight cyan pipe.
    5. Optional: Change the RPD to "eat pipes" mode and clean up the spare pipe bits that are lying around now
  3. Remove the digital coolant valves
    • These are the little box-shaped valves that connect the orange and cyan pipes together
    • I will be telling you to fill the cold loop with plasma. Using these to "cool" a delaminating engine will only make the fire bigger.
    • Also cleaning out other gases contaminating the cold loop is terrible and should be avoided.
    • It is not necessary to replace them with anything, but if the unconnected pipes bother you, the RPD can be used to make L-shaped corners to replace the T-shape pipes.
  4. Turn on the filters (number 3, in the green boxes)
    • The one on the purple pipe is set to filter plasma by default. The one on the gray is set to filter O2.
    • Max out the pressure on these to the full 4500 kPa
  5. Go to the top of the engine room, and set the pressure on the gas pump (7, in a blue box) to the maximum 4500 kPa

All your shiny new pumps should be turned on. If you have not turned them on, do so now.

Adding gas

  1. Shove the two gas cans at number 5 in a corner somewhere. We won't be using them.
  2. You will need two cans of plasma (red with a letter P) and two cans of N2O (red with a white stripe)
    • Atmos gas storage is three airlocks south of the engine room.
  3. Add the plasma to the cold loop by wrenching the cans onto the connector attached to the cyan pipes (at number 5).
    • Do not use the can menu to "open" the valve. This will flood the room with plasma unless you've got a smaller can in it to fill up.
  4. Add the N2O to the hot loop by wrenching it to the connector attached to the orange pipes.
    • You should see the white N2O animation fill the engine chamber. If this doesn't happen, something is wrong with your pipe setup.
  5. Verify that the gas meters (small grey-and-green squares) have lit up with a bright green bar and some yellow squares. This tells you there is gas in your pipes.

Start the engine!

  1. Make sure you're wearing meson goggles (found in any radiation locker) if you don't want to hallucinate to hell and back
  2. Open up the emitter port by clicking the top right control button on the SM chamber. The barrier in front of the emitter (4) should open, revealing a window, some neat-looking floor, and the supermatter crystal.
  3. Turn on the emitter by clicking on it. It will light up and start shooting lasers at the deadly radioactive crystal.

Next steps

  1. Set the SMESes.
    • These are the giant batteries that distribute power through the ship.
    • They are located in the upper north corner of engineering - through the equipment room, and up. They're large white things, that look like number 7.
    • As soon as you have 400,000 W of power available to you, you'll want both of these maxed out. If the ship's power demands are not being met, increase the output on these.
      • Do not make the output larger than the input, this will drain the SMES and eventually cause more problems than it solves.
  2. Consider adding more gas to the hot loop
    • I recommend CO2. You can fill some of your empty canisters with it in atmospherics.
    • Two cans of N2O and two cans of CO2 with this setup will average a little above 580 kW. This is a really safe energy level and will not max out the meter on the TEG, but it is enough to run a ship on.
  • The engine room will start to get hot. Bring internals, and maybe a fire suit, as this can be a health hazard if you stand around too long.


Set up the gas loop

  1. Get a spare can of N2
  2. Wrench that can and the one that's already there onto the connectors at the top of the engine room
    • Save the N2O for if there's trouble
  3. Turn on and max out the gas pump to the right, which will start putting the N2 into the rest of the loop
  4. Go in a clockwise circle around the room turning on and maxing out anything that is in the way of the gas flow
    1. Filters that lead to connector ports can be set to filter Nothing. If you need the oxygen and plasma that badly, you should be calling the escape pods, not collecting from the engine.
    2. Make sure to max out the gas pumps leading to and from the heat exchange pipes in space.
      • Do not turn on the bypass pump in between the two space pumps unless the space cooling loop is broken. See the troubleshooting section for this eventuality.
    3. Unlike on /tg/, the filters at the back of the supermatter chamber are for getting rid of waste, not filtering good stuff back in.
      • Set these to filter out plasma, O2, and CO2.
      • You can also filter things like BZ and hydrogen if you like, but these shouldn't ever be in this pipe anyways.
      • Do not filter out N2 or N2O. You want to keep those.
      • Any left-over filters can be set to filter Nothing.
    4. Turn on the digital valve at the northeast corner.
  5. Set the air alarm
    1. For the vents, leave them on External, but raise the target pressure to 5066 (the maximum).
    2. For the scrubbers, set them to filter every gas, with expanded range, and siphon.

Load the radiation collectors

  1. Identify and use the button near the supermatter chamber airlock that raises the blast doors around the sides. You need to be able to walk to the radiation collectors.
  2. Obtain six plasma tanks (the orange rectangle ones, that come out of tank dispensers.)
  3. The tanks as they come are not full. The engine can be run with partially full tanks, but it will not be as efficient. It is recommended that you fill these tanks to maximum capacity first.
    1. Click on a large can of plasma with the small plasma tank
    2. Click on the large can to open its menu
    3. Set the release pressure to max (1013 kPa)
    4. Open the valve
    5. When the loaded tank is full, close the valve
    6. Eject the loaded tank
    7. Repeat for the other five (5) tanks
  4. Take your six (6) full plasma tanks, and load them into the six radiation collectors flanking the supermatter chamber
    • After inserting a tank, click the radiation collector again to turn it on. A purple panel will rise from it and some lights will come on.
  5. You can now close the blast doors again.

Turn it on

  1. If you aren't already wearing a radiation suit, you'll want to put that on now
  2. Verify that gas is circulating through your cooling loop. The gas meters around the whole circle should show that gas is present.
  3. Open the emitter port at the back of the chamber with the button on the front of it.
  4. Turn on the emitters in the back of the room. Two emitters is typically enough to power the ship. Be careful not to get hit by one while going to turn the other on.
  5. Set the SMES.
    • See the TEG walkthrough for more detail on SMESes.
    • On the Ineese, they are located south of the main engineering room, in the Telecomms room.

Troubleshooting AKA Oh god it's on fire what do I do!?

Supermatter Sabotage
The supermatter's in trouble! You should be able to locate where the issue is from the screenshot alone. Here's the answer.

First and foremost

Turn off the emitter(s)! You don't want any more energy in your supermatter until you've solved the problem.
Inspect the gas loop to confirm it is intact and operational.
Check the meters to quickly ascertain where a problem may lie.
If any of the meters report an unusually high or low amount of gas, then you're close to finding the issue!


Common gas loop failures include:

  • Gas pumps offline.
  • Gas pumps left on default pressure. (Crank them up to 4500kpa!)
  • Gas filters offline. Remember! Filters do not allow ANY gas to pass through if they're turned off! If you don't wish to filter anything, leave them online but set to filter nothing
  • Gas filters left on default pressure.
  • Supermatter chamber vents improperly configured.
  • Supermatter chamber scrubbers not configured.
  • Heat exchange pipes broken. Space dust can slip through the defenses on occasion. Or a traitor may detach a section.
  • Too much gas! If a section has too high of pressure, the gas pumps cannot push anything more into it!

If the space loop is broken:

  • The Aetherwisp has no bypass and freezers are forbidden in the engine room, so your best bet is to put on a spacesuit, remove the window, and go fix the cooling loop.
  • On the Ineese:
  1. Turn off the pump that goes out to the space loop.
  2. Turn on the bypass pump between the two space cooling loop pumps.
  3. Turn off the digital valve at the north-east corner of the loop.
  4. Turn on the gas pump at the north-east corner of the loop.
  5. Turn on both freezers at the north of the engine room, and set them to minimum (73.15 K)
  6. Ensure the gas pump at the northwest is on to allow the now-cooled gas back out towards the vents.

Second

If the gas temperature is too high to stabilize with the cooling loop alone. Unleash the freon Supercooled N2

Third

If the supermatter is delaminating and the gas loop is operational, use an analyzer to check for problem gases in the loop. Someone may have slipped in some carbon dioxide. Double-check the filters to see if they're getting rid of unwanted gases.

And lastly

If all else failed, pray that an Atmosian elder investigates and finds the problem before it's too late.

Sabotaging the supermatter

Want to sabotage the crystal but can't figure out how to pull it off? Here are some pointers and hints:

Please note that since FTL13 is a cooperative server, breaking the engine and thus ruining the power supply is greifing.

General hints

  • You can break the APC of the room to stop all pipes and scrubbers from working.
  • Disable the telecomms APC with the CE console to prevent the supermatter from anouncing its status.
  • Cut cameras near the engine.
  • Instead of turning off pumps and filters, you can just set them to extremely low values instead. They'll still appear to be working.
  • Taking out all the engineers before attempting a delamination helps a lot.
  • Opening a canister of plasma in engineering and igniting it will make it a lot harder for people to fix your sabotage. Even more effective if the radiation levels are high.
  • Keep a flash or EMP on hand. The AI and its borgs are pretty much guaranteed to try and intervene to prevent harm.
  • Stay around and pretend to be helping so you can undo all the repair attempts by other people.

Regular delamination

These are the easiest to pull off and require no special conditions. You'll want to keep the supermatter chamber very hot and full of plasma or CO2.

  • Use the filters near the emitter room to filter out N2 and N2O while keeping Plasma, Oxygen and CO2 in the loop.
  • Pump in pure plasma or burn mix from atmos.
  • Disable or break the cooling array. Deconstructing a single piece of the heat exchanger can be enough.
  • Get rid of engineering's freon supply.
  • Shooting guns at the crystal is extremely effective, but it's likely that you'll end up in the blast.
  • Disable the scrubbers once the chamber is hot enough.

Overcharged delamination

This kind of delamination requires careful gas management but is faster, far more destructive and there's a good chance it will irridiate, burn and shock the engineers who are trying to fix it.

  • Ensure that only CO2 is in the supermatter chamber at all times. Filter all other gases and keep the scrubbers running.
  • Keep the emitters online and firing if you can.
  • Get as much CO2 into the chamber as possible. Larger amounts of CO2 can even compensate for the oxygen and plasma waste.
  • Wear as much radiation protection as you can. Consider bringing some charcoal aswell.
  • Try to keep radiation suits away from engineers, they won't be able to get near the overcharged engine without one.
  • Make sure you are wearing insulated gloves to protect yourself from the lightning arcs.
  • Disabling the cooling is not required. In fact, keeping the chamber cool might help you get more power.
  • The anomalies, gravity pulses and lightning arcs will quickly turn the engine room into a deathtrap. Make sure you have everything set up correctly before this starts happening.

Critical mass delamination

This is by far the most difficult but also the simplest one.

  • Pump in as much gas as possible into the chamber. The easiest way to do this is to disable the pressure checks on the vent air alarms.
  • Reverse the scrubber pump. It's a subtle alteration that might get overlooked in the heat of the moment and will prevent the excess gas from being pumped out.
  • Make sure no gas leaves the chamber. Put up walls, deconstruct scrubber pipes, do whatever possible to keep the gas inside.