OK... about the link I provided to the really great water site...
There are a number of pictures that show the single water molecule, and a lot of information that is only fit for Chemical Engineers or someone taking advanced college courses in chemistry... (as far as I am concerned but dont let me sell you short). Here is another link to a YouTube video depicting a lot of information (probably rehash for most of you) on Stan Meyers work...
http://www.youtube.com/watch?v=hfg1dC475OI
What I am getting at is this... in this video, you see the stages that the water molecule goes through as it is "step charged" in align it, stretch it, and eventually break it.
Does anyone know how to determine the shape of the molecule, bond strength, O-H bond distance in nM, and angle of attachment of H bonds? IF we can figure out what that water molecule looks like at certain temps, we can find an optimum temp to run at... As stated in a couple of threads, once water becomes gaseous it is not a very good conductor... but the molecular shape may be better suited for low voltage, low amperage seperation at 350 Degrees ... SO we would have to be able to keep the water liquid to that temp. (Thinking using the engines exhaust as heat source - and if that is insuficient, we could always use some of the Hydroxy to heat up some 1" plate steel or Tungsten but would need plenty of production) Of course that means not only High Temp Electrolysis but also High Pressure Electrolysis But it could be the difference between 1-2L/min vs 10+L/min
FlashBang!