I don't wanna have to build insulated gas pipes from the caustic biome all the way to this spot, when I can use the surplus to slowly fill it with H2. The electrolyzer pumps out 1000 g/s of gasses, so gas pumps would be efficient.Īs for filling the room with H2, this works for me. I can redesign it, with just two pumps and a filter. I usually hunt down the little hydrogen pockets in the caustic biome and siphon out hydrogen from there if i just want to fill a room.ġ) If I put two gas pumps on the bottom, the likely hood of it sucking hydrogen increases. Instead, the system, if setup correctly, should pulse with optimum gas pumping cycles.īut, if you plan on just using it to fill the room with hydrogen, and not planning on running it long term.there were probably easier ways to do it. Not all of the pumps will run constantly however, as that would drain your hydrogen supply.
Oxygen not included anti entropy thermo nullifier generator#
A hydrogen generator can power 3x gas pumps and the electrolyzer by itself, and emit surplus hydrogen. So you will need 2 of them if you don't want the elctrolyzer going over pressure often, or want it to run with any sorta efficiency. The most a gas pump can pump into a pipe is 500 g/s. I would like to point out, that the maximum oxygen output of the electrolyzer is 888 g/s. There's a couple really neat gas filtering systems that abuse this. So you can run gasses through the input even if it's shut off. SIDE NOTE: Where does the Shutoff valves "block" the gases, does it block it on the output or input?Ĭause if it blocks it on the input, I need to add pipes that leads to the input of the bottom Gas Shutoff.īlocks the output, since the middle technically doesn't exist / carry gas through it. That way, it gets filled with hydrogen, and you have more efficient heat transfer. I kept the buffer to the AETN small, because it doesn't consume much hydrogen, and I want to keep the temps stable.Īny leftover hydrogen after that gets sent off elsewhere to be stored.Īnother tip, is to carefully let the system run for awhile with the room to the aetn open, while sucking out only the oxygen. Once the generator line fills up, excess gas is sent to the AETN through a temperature controlled valve. This system buffers hydrogen in favor of the generator. Later on, if you are wanting LOX, you can use this system to pre-cool the oxygen for it, and power everything externally to get more hydrogen output, instead of using the hydrogen generator. This seems the most sensible way to use one of these.because you're gonna have to deal with the oxygen that comes out of the electrolyzer one way or another. (I'm working towards more and more compact designs each playthrough :D) If you can make sense of this compact spaghetti, this is how I usually utilize an AETN. Liquid Oxygen and Liquid Hydrogen can theoretically serve as alternatives for Super Coolant, however they are extremely finicky when compared to SC.If you want to use the h2 from an electrolyzer to power both an aetn and a generator, then use a bridge to pull gas out to the aetn first and then let the remaining gas flow to the generator.The exact pressure necessary for this is not currently known, but it seems to be around 5 grams of Sour Gas per tile (or less). If Sour Gas at sufficiently low pressure is cooled, 100% of its mass condenses into methane.Sour Gas serves as the transition route from Petroleum to Natural Gas.Or thermo regulators running hydrogen as their coolant, though this requires a very efficient heat exchanger in order to come out with more power than was required to sufficiently cool the sour gas. The other options are either: The Anti Entropy Thermo-Nullifier, which still might take some time to reach the target temperature and has to be securely heat-isolated. Due to the extreme nature of the cooling required, Thermo Aquatuners will require at least Super Coolant, so it may be better to ignore Sour Gas until then. If Methane is reheated it becomes Natural Gas. When cooled to -163.5 ☌ 67% of its mass becomes Methane and 33% becomes Sulfur. The only thing that can be done with Sour gas is to cool it. Sour gas is produced when Petroleum or Naphtha is heated to 540.85 ☌ (vaporization point + 2 ☌).
0 kommentar(er)
