Water Fuel Injection System - Page 1

WFC Hydrogen Gas Management System is ideally suited as a retrofit energy system to both reciprocating (rotary piston engine) and turbine jet engines associated with the aviation industry ... but in different ways: 

 Reciprocating WFC fuel-kits can be similar to car design (340) of Figure (3-38) of WFC ( 422 DA ); 

   

   

   

   

 Whereas, Water Fuel Injector Kit (10) of Figure (4-1) can be alternately be used as a self-contained Fuel-unit having no pressurized vessel which converts water directly into thermal explosive energy (gtnt) on demand, as illustrated (10) of Figure (4-1) as to Figure (40) of Figure (4-2). 

 

 Figure (4-1) 

 

 

 

 Figure (4-2) 

   

 

 

 Operationally, Water Fuel injector assembly (10) of Figure (4-1) as to (40) of Figure (4-2) performs several function simultaneously to produce thermal explosive energy-yield (gtnt) (16) on demand: 

 First water mist (47) of Figure (4-4) is injected into fuel-mixing chamber (35) of Figure (4-5) by way of water spray ports (41a xxx 41n) of Figure (4-4); 

 

 Figure (4-5) 

 

 

 

 Figure (4-4) 

   

 

 

 Secondly, ionized air gases (46a xxx 46n) of Figure (4-4) (laser primed ambient air gases having missing electrons) produced by Ambient Air Ionizer (80) of Figure (4-6) as to Figure (4-1) and non-combustible gases (45) of Figure (4-4) are intermixed with expelling water mist (47a xxx 47n) to form Water-fuel mixture (48) by way of gas mixing disc (34) of Figure (4-5) as to (30) of Figure (4-2); 

 thirdly, the resultant moving Water-Fuel mixture (48) of Figure (4-5) enters into Voltage Igniter Stage (180) of Figure (4-5) and exposed to high intensity voltage fields (33/36) ( typically 2,000 volts or above @ 10 Khz or above ) of opposite electrical polarity (E7 / E8) 

 ...which, in turn, not only performs electrical polarization process (160) of Figure (3-26) undergoing Dielectric Resonant (240) of Figure (3-31); 

 

  (160) of Figure (3-26) 

 

 

 

 Figure (3-31) 

   

 

 

 but, also, sets up and triggers Hydrogen Fracturing Process (390) of Figure (3-42) as to Figure (3-6) under control state (on demand) via electrical-static spark ignition (49/51) of Figure (4-5) 

 

   Hydrogen Fracturing Process (390) of Figure (3-42)  

 

 

 

 Figure (3-6)  

   

 

 

 

 Figure (4-5) 

   

 

 

 .... releasing thermal explosive energy (gtnt) (16) passing beyond gas exit port (32) of Figure (4-5), as further illustrated in Figure (4-2) as to Figure (4-1). 

 

 Figure (4-2) 

 

 

 

 Figure (4-1)