Liquefaction of hydrogen and oxygen

Subcompact circuit, producing 1 kg/s each of liquid oxygen and hydrogen.

Diverted liquid H2 and O2 through the lower tubes. The refueling scheme with return was used, so that the liquid does not stand in the pipes. Pipes to the rockets - ceramic, preferably by bridges (then you can also igneous).

For the map of the Rime (gas temperatures around "0") 1 turbine can be removed.

Automatics

 * Hydro sensors at pumps: >50 kg (the scheme will work more stable if the lower fluid cells are not pumped out).
 * Termo sensors upper -198ºC, lower -257ºC (this sensor needs to be adjusted depending on the temperature/volume of incoming hydrogen, especially during the startup and filling of the first cell).

Materials

 * Insulated tile: between the AT and the hydrogen chamber - insulation (can be from any block if you move them away from each other), between the AT and the turbine - ceramic
 * Pipes: lower chamber and branches from pumps - thermium, upper - copper. In the AT chamber - insulation or ceramics. At turbines - any.
 * Segment of the white tube at the turbine - igneous rock. Turbines are cooled with it.
 * The Tempshift plates are copper.
 * Supercoolant in both circuits.

Blueprints
Liquefaction H+O