Source: "Liquid Oxygen and Hydrogen : Tutorial nuggets : Oxygen not included", by Francis John. In the guide linked below you can also see a presentation of a larger version of this build. This tool lets you calculate how much heat energy you need to move and delete, then provides options for how you can delete that heat, along with the running costs to order to operate that heat deletion method. This design uses a pool of liquid oxygen and hydrogen (in the area around the liquid pumps) to even out temperature fluctuations from the aquatuner cooling the gases. Cooling in Oni is a two step process: Conduct the heat away from what you want to cool to somewhere it can be deleted. This design uses a self-cooling method for the steam turbine If you implement this cooling method, run the gas pipes through the wall of the liquid oxygen section of the build, not the liquid hydrogen section. There are really only two requirements for this pool: There must be two different liquids, a layer of one liquid on bottom and a second liquid on top. To be extra safe regarding temperature transfer, build the liquid reservoirs on mesh tiles. At the most basic level a submerged electrolyzer is an electrolyzer sitting in a pool of liquid (minimum 2x2 tiles) so that the entire electrolyzer is in the liquid. The pumps need to be running constantly to prevent damage from state changes. The steam turbine can only handle the initial cooling down of one liquid at a time, so fire up the oxygen and hydrogen separately. Use hydrogen in the steam turbine cooling loop Use ceramic insulated tiles for the "T" section of wall in-between the liquid oxygen, liquid hydrogen, and aquatuner room (preferable but not necessary) Use super coolant in the liquid cooling loops Use ceramic for the insulated liquid pipes In these pictures, the liquid oxygen is on the left and liquid hydrogen on the right.
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