First, fusion has 0 theoretical economic potential, but there is some potential for energy gains from 2250* + steam. Water deconstructs above this temperature into powerful HHO gas, that when ignited gains another 2500* that will chain react with higher pressure steam to make the steam even hotter/higher pressure. Minor problem of melting all known turbine material, is avoidable through just higher volume of pressured steam.
The one im aware of uses deuterium, aka hydrogen2, to generate helium 3. One of the byproducts being tritium, aka hydrogen3. This means there’s potential for 2 deuteriums to mix with an oxygen molecule,this creating ²H2O, aka heavy water.
I’m neither a chemist, nor physicist. So someone could probably prove me wrong at the drop of a hat, but Im calling it close enough.:p
This plasma. Does it contain any water vapor?
It’s boiling water all the way down.
Seriously though, it’s over 100,000,000° so probably not.
First, fusion has 0 theoretical economic potential, but there is some potential for energy gains from 2250* + steam. Water deconstructs above this temperature into powerful HHO gas, that when ignited gains another 2500* that will chain react with higher pressure steam to make the steam even hotter/higher pressure. Minor problem of melting all known turbine material, is avoidable through just higher volume of pressured steam.
Water decomposes above 3000 C
The one im aware of uses deuterium, aka hydrogen2, to generate helium 3. One of the byproducts being tritium, aka hydrogen3. This means there’s potential for 2 deuteriums to mix with an oxygen molecule,this creating ²H2O, aka heavy water.
I’m neither a chemist, nor physicist. So someone could probably prove me wrong at the drop of a hat, but Im calling it close enough.:p