RU2017125000A

RU2017125000A - HYDROGEN GENERATION SYSTEM

Info

Publication number: RU2017125000A
Application number: RU2017125000A
Authority: RU
Inventors: Роберт Л. КОНМЕН; Тревер Х. КЕННЕДИ
Original assignee: Джой Сайентифик, Инк.
Priority date: 2014-12-15
Filing date: 2015-12-15
Publication date: 2019-01-18
Also published as: TW201631219A; JP2018505307A; MX2017007984A; IL252802A0; AU2015362607A1; BR112017012747A2; CA2970207A1; KR20170129682A; EP3325691A1; SG11201704856WA; CN107208282A; WO2016100378A1; CL2017001555A1

Claims

1. A hydrogen generation system (100) comprising

a signal generation system (102) configured to generate a drive signal (104);

a signal processing system (106) configured to process a drive signal and generate a camera drive signal (108); and

at least one hydrogen generation chamber (110) configured to receive the chamber excitation signal and generate hydrogen from raw materials (114) contained within the hydrogen generation chamber, the chamber having at least one cathode (402) and at least one anode (302), wherein the signal processing system includes:

a feedback circuit (500) configured to couple said at least one cathode (402) with said at least one anode (302) and including:

a capacitive component including at least two separate capacitors, and

at least one asymmetrically conductive component located between said at least two separate capacitors; and

a reactive circuit (400) connected to the at least one cathode, including at least one inductive component parallel to the at least one capacitive component.

2. The hydrogen generation system according to claim 1, wherein the first of the individual capacitors is connected to said at least one anode.

3. The hydrogen generation system according to claim 1, wherein the second of the individual capacitors is connected to said at least one cathode.

4. The hydrogen generation system according to claim 1, wherein the asymmetrically conductive component is a diode.

5. The hydrogen generation system according to claim 1, wherein the output from the parallel circuit formed by the at least one inductive component and the capacitive component is provided to the cathode of the hydrogen generation chamber.

6. A hydrogen generation system (100) comprising

a signal generation system (102) configured to generate a drive signal (104);

a hydrogen generation chamber (110) configured to receive a chamber excitation signal and generate hydrogen from raw materials (114) contained within the hydrogen generation chamber, said chamber having at least one cathode (402) and at least one anode (302) while the signal processing system includes:

a feedback circuit (500) that is configured to connect said at least one cathode (402) to said at least one anode (302) of a hydrogen generation chamber and includes:

a capacitive component including at least two separate capacitors, and

a reactive circuit (300) connected to the at least one anode, including at least one inductive component parallel to the at least one capacitive component.

7. The hydrogen generation system of claim 6, wherein the first of the individual capacitors is connected to said at least one anode.

8. The hydrogen generation system according to claim 6, wherein the second of the individual capacitors is connected to said at least one cathode.

9. The hydrogen generation system according to claim 6, in which the asymmetrically conductive component is a diode.

10. The hydrogen generation system according to claim 6, wherein the output from the parallel circuit formed by the at least one inductive component and the capacitive component is provided to the anode of the hydrogen generation chamber.

11. A hydrogen generation system (100) comprising:

a signal generation system (102) configured to generate a drive signal (104), the drive signal being a pulsed DC signal;

a hydrogen generation chamber (110) configured to receive a chamber excitation signal and generate hydrogen from raw materials (114) contained within the hydrogen generation chamber, wherein the hydrogen generation chamber includes:

at least one hollow cylindrical anode configured to contain raw materials, and

at least one cathode (402) located inside said at least one hollow cylindrical anode (302);

wherein the signal processing system includes:

a first reactive circuit (300) connected to said at least one hollow cylindrical anode of the hydrogen generation chamber,

a second reactive circuit (400) connected to said at least one cathode of the hydrogen generation chamber, and

a feedback circuit (500) that is configured to couple said at least one cathode of the hydrogen generation chamber to said at least one hollow cylindrical anode of the hydrogen generation chamber.

12. The hydrogen generation system according to claim 11, wherein the anode is made of graphite.

13. The hydrogen generation system according to claim 12, wherein the cathode is made of tungsten.

14. The hydrogen generation system according to claim 13, in which the anode is a hollow cylinder, and the cathode is located along the longitudinal axial line of this cylinder.

15. The hydrogen generation system according to claim 14, in which the ratio of the inner diameter of the anode to the outer diameter of the cathode is between 24 and 26 to 1.