That picture I posted, those two parts would be made out of delrin with a 3" OD, there is a 1" hole for the outer tube 3" long, with this you can choose any gap you want by the thickness of the outer tube and then you can see the half inch holes for the longer 1/2" inner tube. So it will be a completely incased and insulated cell. I've made mental adjustments to my design to make it simpler, and to set it up for a water pump to force water through the bottom. Also a 3" OD acrylic tube will mount on the top of what is shown, for gas viewing, and then a simple delrin cap on top of that. For the electrical connections I'll just do it like Dynodon mentioned, a bolt that goes in and touches the side of each tube.
Have you seen Dynodon's Cell? It's a nice cell and a good example. When do you plan on having this cell running?
For the resonance part...Stan writes that the cavity can resonate at a multiple numbers of frequencies (harmonics) so there is not one.
br,
webmug
Where did you read that again ?
Plz quote me this document .
What I mean due contaminants in the water the frequency is not one. Stan calls this "harmonic effects". These are different frequencies (bandwidth).
"Because resonances of different waters, water volumes, and capacitor cells vary, the resonant scanning circuit of Figure 8 is useful. The scanning circuit o Figure 8 scans frequency from high to low to high repeating until a signal lock is determined. The ferromagnetic core of the voltage intensifier circuit transformer suppresses electron surge in an out-of-resonance condition of the fuel cell. In an example, the circuit scans at frequencies from 0 Hz to 10 KHz t 0 Hz. In water having contaminants in the range of 1 ppm to 20 ppm, a 20% variance in resonant frequency is encountered. Depending on water flow rate into fuel cell, the normal variance range is about 8-10%. For example, iron in well water affects the status of molecular disassociation.
Also, at a resonant condition harmonic effects occur. In a typical operation of the cell with a representative water capacitor described below, at a frequency of about 5 KHz at unipolar pulses from 0 to 650 volts at a sensed resonant condition into the resonant cavity, conversion of about 5 gallons of water per hour into a fuel gas will occur on average. To increase the rate, multiple resonant cavities can be used and/or the surfaces of the water capacitor can be increased, however,
the water capacitor cell is preferably small in scale. A typical water capacitor may be formed from a 0.5 inch in diameter stainless steel rod and a 0.75 inch inside diameter cylinder that together extend concentrically about 3.0 inches with respect to each other.
Shape and size of the resonant cavity may vary. Larger resonant cavities and higher rates of consumption of water in the conversion process require higher frequencies such as up to 50 KHz and above. The pulsing rate, to sustain such high rates of conversion must be correspondingly increased.
From the foregoing description of the preferred embodiment, other variations and modifications of the system disclosed will be evident to those of skill in the art. "
patent WO1992007861A1.pdf
br,
webmug
