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.The established resonant frequency is most generally in the audio range from 1 Khz up to and beyond 10 KIlz; 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 atubular structure (typically 0.50 inch diameter tube inserted into 0.75 inch diameter tube having a.0625concentric 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 Meyer 3-16RE: WFC Hydrogen Gas Management System Memo 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 ResonantAction 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 T304material 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) 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.Stanley A Meyer 3-17RE: WFC Hydrogen Gas Management System Memo WFC 422 DA Gas Modulator ProcessDissolved air gases (97) of Figure (3-39) being uniformly released from water bath (85) viathe Electrical Polarization Process (160) of Figure (3-26) is automatically intermixed with released hydrogen (86) and oxygen (87) gas atoms (also derived from water bath 85) to form Fuel-Gasmixture (88) of Figure (3-24) having a hydrogen gas burn-rate of approximately 47 centimetres per seconds (cm/see) in ambient air, as illustrated in (330) of Figure (3-37).Volatility of hydrogen fuel-mixture or Fuel-Gas (88) is reduced from 325 cm/sec.to approximately 47 cm/sec.since ambient air gases (97) (dissolved air gases in water) is primarily composed of non-combustible gases (74) (such as nitrogen, argon, and other non-burnable gases) of Figure (3-39) which acts and performs as a "Gas Modulator" during thermal gas ignition (98), as illustrated in (320) of Figure (3-36).The non-combustible gases (74) physically retards and slows down the speed by which oxygen atom(87) unites with (covalent link up) hydrogen atoms ( 86a / 86b) to bring on and support gas ignition process (gas combustion process) (98), as further illustrated in (340) of Figure (3-38).Water bath (68) of Figure (3-39) as to Figure (3-24), now, becomes and functions as a "Gas Mixing Regulator" since the highest possible thermal explosive energy yield (gtnt) obtainable from hydrogen during "normal" gas ignition (98) is the exact composition of water where two hydrogen atoms (86a / 86b) unite with oxygen atom (87).Inherently, the utilization of the Electrical Polarization Process (160) of Figure (3-26) in conjunction with the use of chemically inert stainless steel (T304 material) voltage zones (EI / E2) submerged in natural water (68) sustains and maintains gas mixing ratio (88) by simply preventing the consumption of both the hydrogen (86) and oxygen (87) gases by way of not encouraging"electrical heat" or "chemical interaction" associated with amp consumption.Remember, Electrical Polarization Process (160) is a physical process which uses opposite electrical polarity attraction force (qq') to perform work by disrupting and switching off the covalent bond between the unlike charged water molecule atoms.To further reduce hydrogen burn-rate (330) of Figure (3-37) to other fossil-fuel burninglevels, additional non-combustible gases (99a xxx 99n) (supplied via ambient air 101 ) is added to Stanley A Meyer 3-18RE: WFC Hydrogen Gas Management System Memo WFC 422 DA gas-mixture (88) by way of gas ignition process (98) occurring inside internal combustion engine (55) piston cylinder (102), as illustrated in (340) of Figure (3-38).As fuel-gas (88) enters into engine cylinder (102) and is exposed to thermal gas ignition process (98), the incoming and moving fuel-gases (88) are converted into non-combustible gases (99) (gases passing through the gas combustion process) since both the hydrogen (86) and oxygen (87) gas atoms are being consumed during the formation of superheated water mist (103).releasing thermal explosive energy (gtnt) which, in turns, causes piston-action to expel the newly formed non-combustible exhaust gases (99) for recycling.The liberated and cooling exhaust gases (99) is, now, directed to hydrogen injector system(200) which systematically meter-mixes and superimposes a predetermined amount of non-burnable gases (99) of Figure (3-38) onto incoming ambient air gases (101) which is being directed to engine cylinder (102) to sustain and maintain both the "Gas Modulator Process" (320) of Figure (3-36) and the "Gas Ignition Process" (98), simultaneously.In essence, then, ambient air gases (101) becomes a endless supply of non-combustible gases (99A xxx 99n) during the gas ignition process [ Pobierz całość w formacie PDF ] |
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