IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0155144
(2011-06-07)
|
등록번호 |
US-8272221
(2012-09-25)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
8 |
초록
▼
The hydrogen gas generator for jet engines includes a device that utilizes photons and a catalyst to disassociate hydrogen gas from water. The generated hydrogen gas is directed to the combustion chamber of a jet engine and combined with air therein for burning and powering the jet engine. The devic
The hydrogen gas generator for jet engines includes a device that utilizes photons and a catalyst to disassociate hydrogen gas from water. The generated hydrogen gas is directed to the combustion chamber of a jet engine and combined with air therein for burning and powering the jet engine. The device is connected to a source of electric energy and pressurized water. The electric energy is supplied to an anode and a surrounding cathode. The cathode is designed to glow white-hot and emit photons and heat when an electric current is supplied thereto. The anode is fabricated from a catalytic material and is designed to become red-hot when supplied with electric energy. Water is supplied through a conduit and is converted to superheated steam, which is thermolytically decomposed to form hydrogen and oxygen.
대표청구항
▼
1. A hydrogen gas generator for jet engines, comprising: an anode having a length, an inner surface, an outer surface, and a plurality of openings formed through the anode, the openings extending from the inner surface to the outer surface;a plurality of spokes formed on the outer surface of the ano
1. A hydrogen gas generator for jet engines, comprising: an anode having a length, an inner surface, an outer surface, and a plurality of openings formed through the anode, the openings extending from the inner surface to the outer surface;a plurality of spokes formed on the outer surface of the anode and extending radially outward therefrom;a cathode screen filament disposed around the anode and defining a space therebetween, the anode and the cathode being adapted for mounting in a combustion chamber of a jet engine;a tubular member concentrically positioned within the anode, the tubular member having a length, a closed first end, an open second end, and a plurality of openings therein spaced along the length of the tubular member;a pipe extending into the tubular member and concentrically spaced therefrom to define a space between the pipe and the tubular member, the pipe being adapted to deliver pressurized water into the tubular member, the pressurized water flowing through the plurality of openings spaced along the length of the tubular member and into the plurality of openings in the anode; andmeans for supplying sufficient electrical current to the anode to heat the pressurized water to produce superheated steam. 2. The hydrogen gas generator for jet engines according to claim 1, further including means for supplying sufficient electrical current to said cathode to thermolytically produce hydrogen and oxygen gases from the superheated steam, and to produce photons to ionize the hydrogen and oxygen gases. 3. The hydrogen gas generator for jet engines according to claim 1, wherein said anode has an open proximate end and a closed distal end. 4. The hydrogen gas generator for jet engines according to claim 1, wherein said anode is fabricated from a metal alloy of carbon steel, iron, nickel and chromium. 5. The hydrogen gas generator for jet engines according to claim 1, wherein said cathode is fabricated from strands of tungsten. 6. A hydrogen gas generator for jet engines, comprising: an anode having a length, an inner surface, an outer surface, an open proximate end, and a closed distal end;a plurality of spokes formed on the outer surface of the anode and extending radially outward therefrom, the spokes having a length coextensive with the length of the anode, the anode having a plurality of openings formed therein, the openings being positioned adjacent the spokes and extending from the inner surface to the outer surface of the anode;a cathode screen filament disposed around the anode and defining a space therebetween, the anode and the cathode being adapted for mounting in a combustion chamber of a jet engine;a tubular member concentrically positioned within the anode, the tubular member having a length, a closed first end, an open second end, and a plurality of openings therein spaced along the length of the tubular member;an elongate pipe extending into the tubular member and concentrically spaced therefrom to define a space between the pipe and the tubular member;a plurality of nozzles formed in the pipe for delivering pressurized water into the space formed between the pipe and the tubular member, the pressurized water flowing through the plurality of openings spaced along the length of the tubular member and into the plurality of openings in the anode; andmeans for supplying sufficient electrical current to the anode to heat the pressurized water to produce superheated steam. 7. The hydrogen gas generator for jet engines according to claim 6, wherein said plurality of nozzles are spaced along the length of said elongate pipe. 8. The hydrogen gas generator for jet engines according to claim 6, further including means for supplying sufficient electrical current to said cathode to thermolytically produce hydrogen and oxygen gases from the superheated steam, and to produce photons to ionize the hydrogen and oxygen gases. 9. The hydrogen gas generator for jet engines according to claim 6, wherein said anode is fabricated from a metal alloy of carbon steel, iron, nickel and chromium. 10. The hydrogen gas generator for jet engines according to claim 6, wherein said cathode is fabricated from strands of tungsten. 11. A hydrogen gas generator for jet engines, comprising: an anode fabricated from a metal alloy of carbon steel, iron, nickel and chromium, the anode having a length, an inner surface, an outer surface, an open proximate end, and a closed distal end;a plurality of spokes formed on the outer surface of the anode and extending radially outward therefrom, the spokes having a length coextensive with the length of the anode, the anode having a plurality of openings formed therein, the openings being positioned adjacent the spokes and extending from the inner surface to the outer surface of the anode;a ceramic insulator closing the open proximate end of the anode;a cathode screen filament fabricated from strands of tungsten, the cathode screen filament being disposed around the anode and defining a space therebetween, the anode and the cathode being adapted for mounting in a combustion chamber of a jet engine;a tubular member concentrically positioned within the anode, the tubular member having a length, a closed first end, an open second end, and a plurality of openings therein spaced along the length of the tubular member;a pipe extending into the tubular member and concentrically spaced therefrom to define a space between the pipe and the tubular member;a plurality of nozzles formed in the pipe for delivering pressurized water into the space formed between the pipe and the tubular member, the pressurized water flowing through the openings spaced along the length of the tubular member and into the plurality of openings in the anode, the pressurized water being converted to superheated steam as it flows through the openings in the anode; andmeans for supplying sufficient electrical current to the anode to heat the pressurized water to produce superheated steam. 12. The hydrogen gas generator for jet engines according to claim 11, wherein the closed end of said tubular member is positioned adjacent the proximate end of said anode. 13. The hydrogen gas generator for jet engines according to claim 12, further including means for supplying sufficient electrical current to said cathode to thermolytically produce hydrogen and oxygen gases from the superheated steam, and to produce photons to ionize the hydrogen and oxygen gases.
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