Water Fuel Injection System - Page 2
To ensure proper energy-flame projection and subsequent energy-flame stability, constant
displacement water pump (170) causes and allows ionized ambient air gases (46), noncombustible
gases (45), and water (47) to be displaced under static pressure up to and beyond 125 lbs psi,
psi, respectively.Stanley
Energy-Flame density is enhanced and sustained by causing ionized gases (46a xxx 46n) of
spray port (42) to be deflected into liquid spray path (41), together water mist (47) and ionized air gas
(46) are, now, directed toward and deflected through non-combustible gas spray path (43)
... producing
uniformed water-fuel mixture (48), as illustrated in Figure (4-5).
Energy-Flame temperature is regulated by controlling the volume flow-rate of each fluid-
mediums (47 1 451 46) in direct relationship to applied voltage intensity (33 136), as further illustrated
in Figure (4-2) as to Figure (4-5).
To elevate Energy-flame-temperature still further, simply increase
fluid-displacement (46/47) while maintaining or reducing the volume flow rate of non-combustible
gases (45) during an increase of applied voltage amplitude (V 0 xxx Vo) of Figure (4-2) as to Voltage
Intensifier Circuit (110) of Figure (4-9) and Electron Extraction Circuit (120) of Figure (4-10).
To
lower Energy-flame temperature simply increase the amount of non-combustible gases (45a xxx) or
reduced the fluid flow rate (45 146/47)) uniformly while lowering pulse voltage amplitude (xxx VO).
To establish a predetermined or given Energy-flame temperature adjust fluid-medium (45 1 46 1 47))
and applied voltage amplitude (V 0 xxx) independent of each other to obtain the desired results.
The resultant energy-flame pattern is further maintained by allowing the ignited, compressed,
and moving gases (29) of Figure (4-5) to be projected to, pass through and beyond nozzle-port (32)
under pressure due to gas expansion caused by thermal gas ignition.
Voltage Igniter Stage (180) of Figure (4-5) as to Voltage Intensifier Circuit (110) Figure (49) as
to Extraction Circuit (1:?0) of Figure (4-10) performs several functions simultaneously to initiate and
trigger thermal explosive energy-yield (gtnt) (16) beyond normal gas burning levels:
Water droplets (28a xxx 28n) escaping from spray-mist (47) and exposed to high intensity
voltage fields of opposite polarity 33/36) are stimulated to undergo Electrical Polarization Process (160)
of Figure (3-26)
... which not only separates and splits the unlike atoms of the water molecule but also
causes the unlike atoms (hydrogen atoms 77a /77b and oxygen atom 76) to experience electron ejection
(230) of Figure (3-30) as to (71) of Figure (4-10) since voltage intensifier circuit (110) of Figure (4-9)
inhibits and prevents electron flow to enter into gas ignition process (180), as further illustrated in
Figure (4-8).