Ok guys I think I might need your help.. But I have a huge key piece of info to share I found. This info contains all equations and explanations of the functions of different ceramic materials. I'm quite sure from the results I have of my cell which is not designed to spec yet. (Well, it is if you only look at one referencing sorce for the answer.)
But if you combine all the the info I'm lacking a resisitive material that will remove the heat and slow the conductivity of the components. The diode mainly at this time but also the water. I will shot a vid or 2 so as to get the effects occuring with the ultrasonic power supply.
Pure water gets hot like a microwave but if you add electrolyte the heating of the water is minimal. I believe it is because the electrons become locked up and no longer vibrate at set frequency but I might be wrong. I have seen this before when I tried to pre-heat water with electrolyte in the microwave I found it to be rather strange then and still do think it's a little funny of it. But it is how it is. If built right this will work. Finding a design engineer with company that is willing to help I think is going to be a problem. I'm currently working on trying to obtain assistance from Ceradyne, Inc. Which is a American based company. But if this is not sucessful I will try Morgan Advanced Materials out of London.
http://www.ceradyne.com/http://www.morganadvancedmaterials.com/products/engineered-ceramics/I'm shooting a vid of cell output for everyone to see and no it won't be measured. I'm not building a group cell design til I have the cell done. I'll show you temps of components though and ignition of course. My favorite part is combustion. Which if you haven't noticed changes per your electrolyte. The cell in this vid will have potassium bicarbonate KHCO3 and iodine I.
Below is also a pdf with need equations for the cell along with a scren shot highlighting the tubular design to be lined up with Puharichs patent info.
