the delrin case is on the bobbin as a means of attaching the core to the box
the circuit will produce gas but not the amount you would think it isnt an overunity because it uses 5 amps going into the inductor which is restricted to 1.36 the other 3.7 amps are wasted as heat and magnetism of the core
the unit will get hot the reason the units are so tall is to make it take a long time because the volume of water and metal are higher
yea, i agree, i don't expect this or even the tubular array to be over-unity, but just to prove the concept that it is voltage doing the work, and that by changing the spacing you change gas production. This doesn't work with electrolysis, so it proves it is "different science" at work, and would be the point of the demonstration. good for showing scientists/engineers/investors as well as personal understanding from building it
also from understanding this system, the next step would be to increase the gas production to the point where you cross the unity mark, and refine it and design a better one...
when you really look at the efficiency though, it would be "fair" to look at the volts and amps through the wires right before they enter the cell and compare that to your gas output, because the "power supply" side of the system can be 99% efficient or 1% all by it's self, but that is power wasted by the power supply, and not power used to split the water, and then you just design a more efficient power supply and you can bring the "whole apparatus" to an over-unity point
so you say "it doesn't work", did you mean the circuit wont function like expected, or it does produce gas, just it's not overunity? If there is a huge problem with the circuit then that might make me look in other directions, but i will be happy with less than unity gas production when i build this