![]() In this example it is the difference between 1409 ° C and 200 ° C (the temperature of the turbines). In other words, we heat the resource by only a few degrees, but we get energy from the entire temperature difference. Fate hasn’t finished playing with Cordelia and this time there isn’t even a Vengeance Demon in sight. Next, this igneous rock needs to be heated by just a couple of degrees, to the state of liquid magma, and then repeat the process. A 'Stargate > Cordelia-Centered' fan-fiction story. If you pour magma of any temperature (even 0☌) on a pile of igneous rock, with a temperature of 1409☌, it will solidify with the temperature of the pile, i.e. The principle of operation discovered ghkbrew and described in this topical, let's consider an example of magma. Whether a simpler solution has been found there, I don't understand. Sometimes it starts from the first time, sometimes after a few minutes (or it seemed or in DLC faster). The water temperature at the outlet will be a little hotter than the bottom pipe water was. The scheme works this way: hot water is fed and if the water at the outlet is above 20☌ - water supply is stopped, a pause is poured, followed by a portion of cold and then again hot. The water sieve has a bug, which is that it can remember the temperature of water at the inlet (for example 1☌) and give clean water of this temperature, even if he put the water with 99☌.
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