Stan Meyer Original 9 Cell WFC Re Build Guide Sections

● What does it do ?● How does it do it?● Design Drawings● Sources of Parts or pcs ready made● Part Specs● How to build methods or techniques● Measuring of finished part prior to install● Tools required for this part.● Buying complete ready made parts.● Q&A

What does it do?Makes hydrogen form water.

How does it do it ?

Method

Simple WFC Energization Circuit by Alex Petty June 16th, 2011I have been working for many years on Meyer’s and Puharich’s Water Fuel Cell implementations. Over the course of those years, I have had many people ask me about a good way to energize the water fuel cell.At various times, especially in recent years, I have found myself being fairly guarded on many of the technical details of my work. A few recent factors in my life have renewed my sense of the importance and value of open source engineering for game changing technologies such as Meyer’s Water Fuel Cell. I have therefore recommitted myself to moving forward from this point with 100% transparency and will hence foster a spirit of total cooperation with all other open source researchers out there working on these technologies.So, in response to those of you who want to build a cell but feel that you do not have enough knowledge in electronics to get started, I here present to you the simplest analog circuit that I have designed for the purpose of pulsing water fuel cells.To adjust the frequency of your circuit into the resonant condition, switch out capacitor C2. You can use the following equation to get you into the ball park.The resonant frequency for this case is given by:

To use the equation, you will need to know the inductance of L1, the capacitance of C5 and the resistance your water poses to the charge that is trying to move between the plates of C5. Once you have calculated the resonant frequency, you then select a capacitor for C2 that will output square waves at this frequency. If you are unsure how to do this, just trial and error with a oscilloscope and watch for peak amplitudes on your pulses. (If you don’t have an oscilloscope, get one. It is an indispensable tool for this work.)After you have “dialed in” to the resonant frequency for your circuit, you can add C3 (for the gate timing). This allows the water capacitor some time so it can discharge in order that it can then cycle the step charging process over and over again. The off-time provided by the gate also allows solitons to arise between the plates of C5.

Meyer-type WFC Energization Circuit designed by Alex PettyBelow is a link to the PDF file for the schematic above.http :// www . singularics . com / docs / alex - petty _ simple - wfc - energization - circuit . pdf I am also including a photo of a breadboard on which I have implemented the above circuit. My hope is that this will give those of you who need it a better feel for mapping the schematic to actual physical connections.

Alex Petty's Simple Form WFC Energization CircuitThe view in the scope of the gating frequency at breadboard column 3 (the 3rd connection column from the left), at D15 (on U3) should look as given below:

Gating frequencyThe view in the scope of the resonant frequency at breadboard column 3 (the 3rd connection column from the left), at D16 (on U3) should look as given below:

Resonate Frequency PulsesThe view in the scope of the gated resonant frequency at breadboard column 3, D30 should look as given below:

Gated resonant pulse train @ 3.32ms per blockA higher time resolution scope view of the gated resonant frequency seen at Col.3, D30 should look as below:

Gated resonant pulse train @ 1.66ms per blockIf the VIC hardware is well constructed, and the given circuit is well tuned to that hardware, then the amplitude of the waveform you will see arise between L2 and C5 will show instantaneous voltages well above 40kV and higher. This is what facilitates the “electrical polarization process” effect.This information I have just given you is the answer to often asked question about what is the capacitance (or some other parameter) of a Meyer cell. The fact is, the specific values of the components are less important then the knowledge that your real goal is to cause the cell to pulse in a resonant condition. By resonance, I am specifically referring to that condition which occurs when the capacitive reactance of C5 equals inductive reactance of L1 (and by extension, L2). This “resonant frequency” is dependent only on the characteristics of the electronic components in use, including the resistance value of your water dielectric.

Please feel free to share this design and use it however you wish as I am placing it into the public domain. If you re-post it, please include attribution to me and a link back to my blog. (Thank you for that.)I hope you find this to be helpful.

High pressure clear PVC pipe with seven 316L grade SS tubes. This is a close replica of the Stanley Meyer's electrolyzer.All High pressure and stainless steel construction. this is a very high quality peace of equipment.All anode and cathode connectors are fully welded 316Seven cells each in 316L grade stainless.25.4 mm in diameter, 280 mm long.19.05 mm in diameter,320 mm longThe resonance cavity between the two tubes is 1.57 mm X 280mm.

Clear PVC length 500 mm x 100 mm

Part No. Part Description

Amount

Total

Price

7222758 100mm Clear PVC Pressure Pipe 500mm long

1

1161887 100mm Coupling

1

1164851 100mm BSP PVC socket

1

22578333 4 inch Plug Polypropylene BSP

1

1990232 Cannot shipThe solventNO SOLVENT

Stainless Steel Tube25.4 x 1.6 x 280mm 316L Unpolished

7

Stainless Steel Tube19.05 x 1.6 x 320mm 316L Unpolished

7

PVC End Caps 14

4 terminal connector 1 pc

Marine Grade SSteel 1 pc hose clamp 70x90

Marine Grade SSteel 1 pc hose clamp 40x95

Rubber o ring seal 4mmx 2mm 8pc

4.5ml x 100 mm PVC Disk 1 pc

5mmx 60 mm stainless steel screw 315 hex set 8 pc

5 mm nuts ssteel 32 pcs

5mm flat round ssteel washers 16 pc

electrical terminal connectors ring eye 8 pc

Anode ssteel bolt with eyelet and copper wire for cathode connections