Originally Posted by
troymacdonald
So, I woke up this morning, had a cup of coffee and a brainstorm, or perhaps just a brain drizzle...anyway, this is what I thought of:
My work bench set up is far from optimal for conducting experiments of this kind so I rely a lot on other people's observations, so here is what I've come up with through my own trial and error and reading others' information - The process of HHO production is somewhat reliant on an increase of heat, but only to a point. I have gleened/understood/observed that point to be approximately 130 degrees +/- 5%. Anything over that and you start to get too much water vapor/steam and too great of an amp draw and no increase of production, just wasted energy. SO....
PWMs may or may not work, depending on whom you speak to. How about this instead: a digital thermometer that is connected to a PWM of sorts that automatically adjusts the current input at a set temp. For example, if at 130 degrees you are drawing 20 amps and getting the HHO you need. As the temp. hits 131/132 the thermometer sends a signal to the PWM that cuts back the current to about 15 amps until the temp. drops back to 129/130.
I know those numbers probably aren't accurate, but it would seem that would work. It could also be coupled with our own O2 sensor in the lid of the bubble that would act similarly to the ones in the vehicle exhaust line but connected to the HHO circuitry instead.
These ideas might be taking an inch and stretching it a mile or over engineering what should be a simple process.
Next question: I don't know very little about building digital ciruits. Had some training on it about 10 years ago so I can eventually figure it out: where can I go to find schematics on how to build some of the stuff I mentioned?