General Description

Test A: We took our power source and hooked it directly to the input of our hydrogen generator. For the power source, we used a 100,000ufd capacitor charged to a known reference voltage level. We let it discharge completely into our hydrogen generator while documenting the total ammount of hydrogen that was produced through the hydrolysis process. the photo to the right is the end result of our hydrogen generation test for test A...

Test B: We took our power source and hooked it directly to the input of
our device, The output of our device was hooked directly the input of our hydrogen generator. we used a 100,000ufd capacitor charged to a known reference voltage level for our power source. We let it discharge completely into our device while in the same time frame window, our device fed power into the input of the hydrogen generator while we documented the the total ammount of hydrogen that was produced through the hydrolysis process. The photo to the right is the end result of our hydrogen generation test for test B...

This test demostrates a 50% more production in hydrogen gas using our device in line with the
hydrogen generator. At this point there should have been an insertion loss but there was not.
It should have produced less hydrogen due to the fact that the power had to pass through another
circuit before it reached it's working load. what you see is 100% in and 150% out. The device did
not contain any stored or hidden surplus power. This can be repeated again and again with the
same results each time. It must be noted that for both test we used the same power source that
was charged to identical reference voltage levels to minimize any variances that could be intro-
duced by using seperate power sources.