Resonant Action
Subjecting and exposing water molecule (85) to even higher voltage levels (xxx Vn) (up to and
beyond several thousand volts) causes water bath (91) of'Figure (3-30) as to Figure (3-25) to go into a
state of ionization by allowing opposite polarity forces (TT') and (UU') to eject one orStanley A Meyer3-15RE: WFC Hydrogen Gas Management SystemMemo WFC 422 DA
more electrons (92a xxx 92n) from water bath atoms (93). Intensified electrical attraction force (TT')
causes dislodged negative charged electrons (92) to migrate to positive voltage-plate (El) while
electrical attraction force (UU') causes positive charged atom nucleus (94) to travel toward negative
voltage-plate (E2).
Applied electrical attraction force (TT') and (UU') always being of equal voltage
intensity but opposite in electrical polarity as voltage amplitude (65) is attenuated.
Replication of higher voltage forces (TT') and (UU') during pulsing operations causes a continued
release of other electrons (92a xxx 92n) from other water bath atoms (93a xxx 93n) which, in practice,
increases electrical charges of water bath (91) since water bath (91) is a dielectric liquid.
Water bath
atoms (93a xxx 93n) having missing electrons (92) take-on a positive electrical charged (95) which is
subject to and moved by negative electrical force (UU'); whereby, the liberated and free floating
negative charge electrons (92) are subject to and move by positive electrical force (TT').
Applied
together, electrical forces (TT') and (UU'), now, causes these moving electrically charged particles to
superimpose a physical impact unto electrical polarization process (160), as shown in (170) of Figure (3-
25)
... thereby, increasing gas-yield (88) still further.
By attenuating voltage amplitude (VO xxx Yn) in conjunction with pulse-width (65a xxx 65n)
allows voltage intensifier circuit (190) of Figure (3-23) to tune-in and match the resonant characteristics
or resonant frequency of water bath (91) since water bath (91) always maintains its dielectric properties
during pulsing operations. At resonance, electrical polarization process (160) interacts uniformly with
liberated charged particles (92/95) of Figure (3-25) to obtain a even higher gas-yield (88) at maximum
voltage deflection (xxx Vn).
The established resonant frequency is most generally in the audio range
from 1 KhzkHz up to and beyond 10 KIlz;kHz; and is dependent upon the amount of contaminants in natural
water. Oscillating and superimposing electrical charged particles unto the Electrical Polarization process
at a given pulse-frequency is, now, herein called "Resonant Action", as illustrated in (240) of Figure (3-
25).
To reach maximum gas-yield (88) resonant cavity (170) of Figure (3-25) is shaped into a
tubular structure (typically 0.50 inch diameter tube inserted into 0.75 inch diameter tube having a .0625
concentric air-gap 3 inches long) which functions as a longitudinal wave-guide to enhance particle
movement in a lateral or angular displacement to applied voltage fields (66/67). InsulatedStanley A Meyer3-16RE: WFC Hydrogen Gas Management SystemMemo WFC 422 DA
housing (72) prevents voltage coupling to water bath (68) which allows applied voltage amplitude (xxx
Vn) to remain constant across water molecules (85a xxx 85n)
... stabilizing gas production during
voltage stimulation (65), as shown in (120) of Figure (3-24).
To further prevent voltage fluctuation
during resonant action, Phase Lock Loop technique of Pulse Indicator circuit (110) is utilized during
pulsing operations.
The resultant fuel-gas (88) is, now, transferred through Quenching Tube (96) of
Figure (3-41) to, through and beyond Fuel Injectors (36) of Figure (3-1) for Hydrogen gas utilization.
In cases where applied voltage amplitude is to remain constant while promoting Resonant
Action during control-state, incoming pulse train (64a xxx 64n) is varied independent of voltage
amplitude to attenuate voltage intensity (66/67) which, in turns, effect gas production.
In other
applications, Voltage amplitude (66/67) in direct relationship to pulse-train (64a xxx 64n) may be varied
together in a progressive manner to further control gas production. Or pulse-train (64a xxx 64n) can
remain constant while voltage amplitude is varied.
In all cases, Resonant Action is being promoted to
product hydrogen gas on demand.
In terms of Longevity, voltage zones (E11E2) are composed of or made of stainless steel T304
material which is chemically inert to hydrogen, oxygen, and ambient air gases (dissolved gases in water)
being liberated from water bath (68) during voltage stimulation (65).
Under actual certified laboratory
testing stainless steel TI04life expectance (material decomposition) is .0001 per year since voltage (65)
is a physical force, setting up a non-chemical environment since amps consumption is being restricted to
a minimum and "no" electrolyte is added to water bath (68).
In practice, stainless steel voltage plates
(E11E2)E1/E2) physically forms voltage zones (66/67) regardless of geometric shape or configuration of
resonant cavity (170).
Under normal gas ignition or gas combustion process, released Fuel-Gases (88) of Figure (3-39)
as to Figure (3-24) nets a thermal explosive energy yield (gtnt) of approximately 2 1/2 rimes greater
than gasoline.