This means that your steam will eventually start to lower in temperature, generating less power, and eventually go cold. Two pumps will add 4 kDTU/s (assuming 100% uptime) One thermo aquatuner will add 1,181.6 kDTU/s when handling 10kg/s of super coolant Two steam turbines will delete 1,571.66 kDTU/s converting 200☌ steam to 95☌ water It is a good design however, the math does not add up: This was made merely as a proof of concept I don't know why the images uploaded as low quality. Now this was made merely as a proof of concept, so if you are going to say anything about it, please keep that in mind. All of the other pipes are made of insulation( I wasn't sure if normal insulation pipes would be enough so I went safe and did the insulated version. Now the radiant pipes you see is to basically delete the heat coming off the steam gens and to help keep it from eventually freezing. The spent water from the steam gens is piped to the pumps below, which put it back into the steam chamber. That stray wire you see was because debug wasn't letting me without taking out the stuff on it too.Īs you see here, the aquatuner pipes are all filled with super coolant(the pipes to the far upper right were made to do the initial pumping of it into the system. This is the wiring setup, pretty simple, everything is tungsten. The temp plates are all diamond, all the tiles except for the line above the steam gens are insulation(I know that making insulated tiles with insulation is overkill, I did it to show the placement of them, though I forgot to do it to the center ring where the steam is.), the tiles above the steam gens are granite, and the pumps, aquatuner, and the steam gens themselves are thermium, along with the metal tiles.
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