Hi Guys
I think this is my first post on this forum so I am going to make it interesting. I am a proffesional engineer
and have been studying water fuel material for some time. Here is an idea I've had for a long time. At one time
I was thinking of becoming rich of the back of my ideas but the paper has lost it's glitter and I dedicate this
to the public.
Imagin the typical Meyer's cocentric tube cell.
Remove the inner one
Replace it with a cold cathode tube ( https://en.wikipedia.org/wiki/Cold_cathode )
Connect the outer tube to an HV DC supply. ( I am talking several KV ).
One side of the supply to the CC would be the 0V of the HV driver.
If you have not killed yourself by now, add water.
You can drive the CC with whatever frequency you want.
If you've not understood what is happening I explain
When the CC is lit, the plasma strikes which is a conductor so, a capacitor is formed.
As an added bonus, you could select different wavelength tubes so,
simoultaneously you can inject that light in the water.
I think this is my first post on this forum so I am going to make it interesting. I am a proffesional engineer
and have been studying water fuel material for some time. Here is an idea I've had for a long time. At one time
I was thinking of becoming rich of the back of my ideas but the paper has lost it's glitter and I dedicate this
to the public.
Imagin the typical Meyer's cocentric tube cell.
Remove the inner one
Replace it with a cold cathode tube ( https://en.wikipedia.org/wiki/Cold_cathode )
Connect the outer tube to an HV DC supply. ( I am talking several KV ).
One side of the supply to the CC would be the 0V of the HV driver.
If you have not killed yourself by now, add water.
You can drive the CC with whatever frequency you want.
If you've not understood what is happening I explain
When the CC is lit, the plasma strikes which is a conductor so, a capacitor is formed.
As an added bonus, you could select different wavelength tubes so,
simoultaneously you can inject that light in the water.