to pass electricity from one anode to another causing the electrons to separate the hydrogen from the oxygen so if you put several plates in succession this will be achieved up to a certain point.
that point being 1.4vdc optimally per plate
if you space them closer together it requires less amperage and space to achieve this and very little e-lyte and i found that over charging the plates gets them hot which causes water vapor loss and e-lyte to be carried from the cell and causes an imbalance in the cell we used a gas chromatic analizer to measure the different gasses and the amounts of each at the given settings and found this to be the optimal performance for the amount of energy consumed
we.ve used several different types of cells and adjusted the voltage and amperage to come up with this formula and if your boiling the water your loosing about 30% efficiency so temperature is a critical factor and heat means energy loss
if you have data that disputes this finding i'd love to see it not just hear about it
now i'm passing 13.8 volts across my 8 plates 6"sq and getting 1.6 -1.8vdc per plate less than 10amps draw and getting an incredible amount of bubbles(.5 lpm) and no water vapor or steam so i think you guys should reevaluate your massive amperage drawing cells because your simply overdriving them and wasting energy not getting any more production if we increase the e-lyte to achieve a 20amp draw we start getting water vapor