This guide assumes a basic knowledge of pipes and gas mechanics, if you need to brush up on those read the Guide to Atmospherics.
So the Bridge are pressuring you to set up the thrusters ASAP so they can engage in space combat or drive into a meteor field - what do you do? On most maneuverable ships there are two propulsion rooms at the aft that control gas flow to three thrusters each.
The thrusters each run on phoron, and they have two operational modes. One where you simply dump cold phoron directly from the storage tank and out into space, and one where you mix the phoron with oxygen and ignite it which is both a significantly more efficient use of expensive phoron and much more effective as you can reach maximum pressure very easily.
Atmospherics has a room inside the hull where the ship's thruster supply of phoron is stored. It has outputs that lead to the filtering and mixing apparatus as well as directly to the port thruster room. The west-most console in the port thruster controls the output vent that leads to the thrusters.
This allows you to convert solid phoron sheets into phoron gas to refill the storage room easily. In this way, phoron can be stored safely as sheets until it is needed.
The Mixing Chamber is accessible through the atmospherics room and is only accessible to Atmospherics Technicians or Engineers that try hard enough if there are no Atmos Techs. This room contains pipelines for bringing phoron and oxygen to the thrusters, a mixer for setting the desired ratio of oxygen and phoron, and a reaction chamber where you will ignite your mixture. There are two digital valves that allow you to set the hot/cold gas mode of the thrusters. It also has a console for controlling the phoron tank output and for controlling the input and output vents of the reaction chamber.
The Port and Starboard Thruster rooms are accessed through maintenance and are located on the Engineering deck at the aft of the ship. They are accessible to all engineering personnel. All mixing is done in the Mixing Chamber, and the resulting mixture is provided to the port and starboard thrusters through direct pipe lines. There are also airlocks into space which can come in handy for fixing meteor damage to the exterior, or creating a breach yourself in case of an accidental phoron fire!
These instructions are simplified; suggested values for pressures are slightly arbitrary, and it does not go into detail. The operating principles are covered later in this guide in full.
For the simplest and safest setting, you can simply pump cold phoron into the thrusters. The Thrusters are initially in this mode, with the digital valves set to accept cold phoron from the phoron storage tank and output it to the pressure regulators inside of them.
The setup procedure is:
After a few minutes the thrusters will have enough gas pressure to produce a modest acceleration. It is bottle-necked by the output flow from the phoron storage tank, however, and the thrust produced will drop quickly when the thrusters are fired repeatedly or at a constant rate.
This requires a bit more setup, but will produce significantly better results. Instead of just pumping phoron into the thrusters, you first mix it with oxygen and pump it into a chamber where the oxygen is burned. This produces a very hot Carbon Dioxide and Phoron mixture that can be then pumped into the thrusters.
The setup procedure is:
Thrust is based on the pressure and mass of the propellant. For this reason phoron makes the best propellant, as it has a high mass. The limitation on the thruster output is the maximum allowed pressure in a pipe, which is around 15,000 kPA. The ideal situation is one in which you maintain 100% phoron in the thruster pipes at 15,000 kPA and replace all propellant that is used between thruster firings, which can happen every few seconds if the helm requires it. However this is not possible by simply pumping gas out of the phoron storage tank.
Therefore it is beneficial to heat up the phoron so that you can reach high pressures with less phoron removed from the storage tank. A higher temperature means you have used less phoron. The temperature can be controlled by adjusting the mixer in the Port thruster. A higher percentage of Oxygen in the mixture will result in higher temperature, but also a higher percentage of Carbon Dioxide in your propellant which is less massive than Phoron.
It is also important to note that you can melt the walls of the reaction chamber if you burn too hot, which can cause extreme damage to the ship and its personnel.
In the event that there is damage to repair, you put the wrong mix in, or you're about to melt the walls, there are buttons on the walls in each propulsion room that operate the blast doors around the reaction chambers. You can open the exterior one and vent all your gas out into space. Make sure to turn off the input when you do this as well!
It is very possible to improve the design of the thrusters by replacing a few pipes. To address certain limiting factors:
Pressure regulators can be useful, but are largely not useful in the thruster design especially when you are using the hot phoron mode and they essentially act like a normal straight pipe segment. You can replace these with high-power pumps to improve gas flow - Note that high-power pumps can have a significant power usage when pumping from low to high pressures and adding more of these puts more strain on the APC.
When the Helm thrusts, it will remove a portion of the gas from the thrusters and therefore lower the pressure in the pipeline. You can help keep the thrusters at a high pressure for longer in extended use by increasing the amount of hot gas that can be held at one time. The easiest way to do this is to add some connectors and two canisters to act as fuel injectors. In this example the amount of gas readily available is increased by around 60%.
It is possible to filter out the Carbon Dioxide from the hot propellant, leaving only the Phoron. This means that the average mass of the propellant is higher, and so the thrust is higher. It may be necessary to use multiple filters to keep up with the required flow rate, and you will have to figure out where to put the Carbon Dioxide you have removed. Will you send it to scrubbers, store it in canisters or dump it directly into space?
The thrusters use a significant amount of power when pulsed, and the pumps will as well. It can be worth getting some higher capacity power cells in the APCs. If your propulsion room runs out of power the Bridge won't be able to thrust at all with those! Some clever engineers add a Gas Turbine to provide power from the high pressures involved, or a Thermoelectric Generator to act as both a power source and a regulator…
Phoron isn't the only thing that burns; hydrogen in particular is energetic enough to do the trick. Other gases can also be used for cold thrust in a pinch, but you'll need to patch in the gas lines.