I'm looking for a suitable power source to continue testing, one that supplies from 12V to 48V at up to 30A. I suspect power requirements like high current electrolysis will remain high to get higher production. However, I believe "voltrolysis" is still better as it doesn't heat the water since high voltage potential is used to do the work instead of current. I tested this on a very miniaturized cell (very small gap) and experienced arcing so it is something to watch for with higher voltage.
The amount of HHO still appears to be directly related to the amount of power. In circuit simulations, I have drawn 2kW from my 12VAC power source while simulating a forced voltage breakdown of a 1F water capacitor.
Seems to me, as show by Meyers, the only way to use this technology effectively is to produce enough HHO that, when mixed with inert gases and water vapour, can produce a combustion reaction sufficient to replace another fuel. HHO alone is not enough.
Progress right now is limitied. It seems that whether using voltage or current, the amount of production is likely the same for a given amount of power. The main difference using voltage instead of current however is that the water does not heat up and you do not require electrolyte. Additionally, smaller water cells are more effective than larger ones as they require less of a charge to break the dielectric of water. It seems to me that the water plug could have worked on this principle.
I'm looking for a suitable power source to continue testing, one that supplies from 12V to 48V at up to 30A. I suspect power requirements like high current electrolysis will remain high to get higher production. However, I believe "voltrolysis" is still better as it doesn't heat the water since high voltage potential is used to do the work instead of current. I tested this on a very miniaturized cell (very small gap) and experienced arcing so it is something to watch for with higher voltage.
quickshell 1 month ago
Current observations:
The amount of HHO still appears to be directly related to the amount of power. In circuit simulations, I have drawn 2kW from my 12VAC power source while simulating a forced voltage breakdown of a 1F water capacitor.
Seems to me, as show by Meyers, the only way to use this technology effectively is to produce enough HHO that, when mixed with inert gases and water vapour, can produce a combustion reaction sufficient to replace another fuel. HHO alone is not enough.
quickshell 3 months ago
Progress right now is limitied. It seems that whether using voltage or current, the amount of production is likely the same for a given amount of power. The main difference using voltage instead of current however is that the water does not heat up and you do not require electrolyte. Additionally, smaller water cells are more effective than larger ones as they require less of a charge to break the dielectric of water. It seems to me that the water plug could have worked on this principle.
quickshell 5 months ago
What is your progress for this? I am interested.
Thanks
fathershand 5 months ago
if you watch this video I'm curious what the effects of the magnet across the transformer would do to the cell out put. watch?v=atUTu8sg94w
ImJacksAmygdala 8 months ago