(kidding)
The thing is that moste people doesent understand what Meyer did whit he's WFC (and take notice here that WFC stands for Water Fuel Capacitor) it is actualy a hidden codex whit in the technologie and in order to break it up and understand what this means you need to understand the principle behind Meyers construction and said method in use.
Now before i answer that i just whant the forum to know that the project i am working on now is nascent hdyrogen (or molar hydrogen) and use a simple formula;
H2 + e -> 2H + e -> ENERGY -> H2 (simplyfied). It is an advanced step in hydrogen technology where the H2 gas is turned into a "plasma" pre charged hydrogen gas and upon entering "a" combustion chamber the hydrogen molecule is splitt into H ions, both as cations and anion. A plasma phase starts and fuse the H ions together releasing more energy then to splitt the molecule. This generates heat and photons which interacts whit the the formation of H2 molecules. Much of this result becomes hot hydrogen gas that expands and thus creates a phusing force on "a" piston or similar. This is done in several steps, but mainly in a new conversion injector that have two purposes - to create nascent hydrogen and to introduce a electromagnetic event, ionisation and heat exhange to get said reluts. The end result is what yoyu see in the formula - H2 -> 2H -> H2.
But enough about that, now for the answer to you question;
There is two technics that Meyer used - first is WFC and the last is he's Water Injector okey, now these two are different, both in how they work and how they are constructed, but they do share a common thing and that is called An Electromagnetic Event or as Meyer calls it By Means of Voltage Breakdown. - he did actually use and also invented many names in parts to confuse the reader and in doing so made moste people unable to understand the strange event in he's tubes. But there is nothing strange going on and he is not breaking any law in physics, there is no magic taking place, it can all be explained whit proper science.
Voltage can be defined as an electric potential (charge) at a point in space. Voltage can be of a positive charge, defined as a lack of electrons
Or a negative charge, defined as an excess of electrons. Voltage is the driving force that causes the movement of electrons (current flow) In Physics we know that like charges repel, and opposite charges attract .
http://en.wikipedia.org/wiki/Voltage
http://en.wikipedia.org/wiki/Electric_potential
http://physics.bu.edu/py106/notes/Charge.html
The opposite charges attract each other to hold atoms and molecules together. In the water molecule the charge that holds the atoms together is known as a covalent bond. Looking at the water molecule:
If you look at the water molecule, you'll quickly find the way that it is arranged the atoms have seperate charges, The Hydrogen atoms have a positive charge and the oxygen atoms carries a negative charge.
Now we know that voltage is an electrical attraction force, which can cause current (electrons) to flow by moving them from one atom to another.
We know that there are two charges, Positive and negative. A positive charge being defined as a lack of electrons. A negative charge being defined as an excess of electrons. We also know in physics everything must reach a stable state, so when a difference in potential exists current flows until there is no difference in potential (all atoms reach a stable state). So, if we place the water molecule between two plates charged with opposite voltages, we know that the electrons spinning around the atom will all be attracted toward the positive plate, and the proton will be attracted toward the negative plate, the higher the charges become the further the atom will be pulled apart, until eventually the molecule splits into it's component atoms.
Now, to go a little deeper. If we have a wire, and each side of that wire has an equal, but opposite charge, current will begin to flow. The moving electrons (current flow) will fill in voids (areas with missing electrons) at one side of the circuit. This will cause many previously positive charges to combine with electrons (negative charges) to reach a stable state, cancelling out there charge, meaning that voltage potential will decrease.
In common electrolysis the water has an electrolyte added to make the water more conductive (current flows easier). This causes an excessive current flow, which decreases the voltage potential (as described above). Electrolysis has been proven to be most efficient at less than 2 volts.
"A cell operating at the theoretical voltage of 1.23 volts is 100 percent efficient. The amount of voltage above 1.23 required to operate the cell is
wasted. The objective, then, is to make a cell that will operate
as close to this voltage as possible."
So with electrolysis the voltage with the highest efficiency is only 1.23 Volts. As we know voltage is an electrical attraction force, 1.23 Volts is not much.
If we were able to increase the voltage, and restrict current flow we could break the current model of 1.23 volts peak potential by hundreds or even thousands of percent more! That is exactly what Stan did. To make his method the most efficient he used what is known as a resonant charging choke circuit. The circuit is a LC circuit which can be operated at resonance for maximum efficiency. In an LC circuit resonance is when the capacitive reactance and the inductive reactance cancel each other out, meaning that the circuit can operate at it's maximum amplitude, in this case amplitude is referring to voltage while amp flow is restricted.
"A word of caution is in order with series LC resonant circuits: because of the high currents which may be present in a series LC circuit at resonance, it is possible to produce dangerously high voltage drops across the capacitor and the inductor"
To increase efficiency even more Stan added inductors to the circuit, the inductors build up a magnetic field when current is flowing through them, and the field collapses when current stops causing an extra pulse of the same polarity when a blocking diode is used.
In the case of splitting water, it only makes sense that the longer the voltage was applied to the water the more water would be split. So when Stan added the inductors to the circuit he did them for that exact reason. A secondary (high voltage transformer/inductor) and the water capacitor had a large off time, but by adding inductors he can do the following:
In the resonant charging choke circuit, the circuit contains 3 inductors, one which is the secondary of the transformer: The two chokes do the following: When a magnetic field is created (by the transformer primary) and collapses it creates a pulse through the secondary winding which goes through the chokes and creates a magnetic field around them, as the magnetic field collapses around the chokes another pulse is created. Because of the way the circuit works it prevents the capacitor from discharging. As Stan States in patent # 4,936,961: talking about the Resonant Charging Choke circuit:
"In this manner a continuous voltage is produced across the capacitor plates…â€
Good to see another another addition here like hydrogen world.
