Any calculating guys here??????
===============
DogOne:
I think the Punch units are claiming 1 LpM out for every 10 amps in. So their little seven plate unit designed for cars, running at about 14 volt... That's 140 watts per liter per minute. Still pretty good without any fancy resonance circuitry. I don't know about pressure though. Don't think I would push a Punch unit over about 10 psi--seems to me the sides would bulge out and break.
The whole cell pressure thing bugs me a little bit. Don't have any actual data on production rate versus pressure. I would think it is pretty linear. I ran my cell up to 10 psi once and got a little nervous that if something were to crack, hit a wire and spark, bad things would follow.
Also, don't really have good data on how much HHO an engine would consume and at what pressure it would consume it at. If you hooked HHO to a propane carburation system, I think the final regulator is only about 3 to 4 psi, so anything higher than that should be sufficient.
Anybody tried loading a 10HP engine to 80% and see what kind of HHO supply is needed to sustain that rate? Eight horsepower translates to roughly 6000 watts, so if you could actually hit unity that would be 6000/140 or 43 LpM of fuel. Seems a little high but maybe it's correct. Check my numbers. You probably would need to add water vapor to bring the timing curve back into specs, so maybe by doing that you could get away with much less HHO.
EZ: First you have to know how much watts are in a liter of HHO..it may cost 140 to produce it..but how much does it deliver?
Its like also when you would say...the engine has 1600 cc and goes by rpm 3000..for 1 rpm we need 2 cylinders to combuste? so 800cc HHO is used per rpm?
800 * 3000 = 2.400.000 cc / 1000 = 2400 liters per minute..hahaha
I've seen a new thread where we can put these kind of questions, also about conversions.
====================================
We need mathemagicians..