A hydrogen generation system includes a signal generation system configured to generate a driver signal, wherein the driver signal is a pulsed DC signal. A signal processing system is configured to process the driver signal and generate a chamber excitation signal. A hydrogen generation chamber is c
A hydrogen generation system includes a signal generation system configured to generate a driver signal, wherein the driver signal is a pulsed DC signal. A signal processing system is configured to process the driver signal and generate a chamber excitation signal. A hydrogen generation chamber is configured to receive the chamber excitation signal and generate hydrogen from a feedstock contained within the hydrogen generation chamber. The hydrogen generation chamber includes: at least one hollow cylindrical anode configured to contain the feedstock, and at least one cathode positioned within the at least one hollow cylindrical anode. The signal processing system includes: a positive reactive circuit coupled to the anode of the hydrogen generation chamber, a negative reactive circuit coupled to the cathode of the hydrogen generation chamber, and a feedback circuit that is configured to couple the cathode of the hydrogen generation chamber to the anode of the hydrogen generation chamber.
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1. A hydrogen generation system comprising: a signal generation system configured to generate a driver signal, wherein the driver signal is a pulsed DC signal;a signal processing system configured to process the driver signal and generate a chamber excitation signal; anda hydrogen generation chamber
1. A hydrogen generation system comprising: a signal generation system configured to generate a driver signal, wherein the driver signal is a pulsed DC signal;a signal processing system configured to process the driver signal and generate a chamber excitation signal; anda hydrogen generation chamber configured to receive the chamber excitation signal and generate hydrogen from a feedstock contained within the hydrogen generation chamber, wherein the hydrogen generation chamber includes: at least one hollow cylindrical anode configured to contain the feedstock, and at least one cathode positioned within the at least one hollow cylindrical anode;wherein the signal processing system includes: a positive reactive circuit coupled to the anode of the hydrogen generation chamber,a negative reactive circuit coupled to the cathode of the hydrogen generation chamber, anda feedback circuit that is configured to couple the cathode of the hydrogen generation chamber to the anode of the hydrogen generation chamber. 2. The hydrogen generation system of claim 1 wherein the signal generation system includes: a pulsed DC source configured to generate a pulsed DC source signal,a mono-directional blocking circuit configured to receive the pulsed DC source signal and generate the driver signal, anda filter circuit configured to filter the driver signal and remove AC components. 3. The hydrogen generation system of claim 1 wherein the positive reactive circuit includes an inductive component and a capacitive component. 4. The hydrogen generation system of claim 3 wherein the inductive component is in parallel with the capacitive component. 5. The hydrogen generation system of claim 3 wherein the capacitive component is sized based, at least in part, upon one or more physical characteristics of the hydrogen generation chamber. 6. The hydrogen generation system of claim 3 wherein the capacitive component is sized based, at least in part, upon one or more physical characteristics of the feedstock contained within the hydrogen generation chamber. 7. The hydrogen generation system of claim 1 wherein the negative reactive circuit includes an inductive component and a capacitive component. 8. The hydrogen generation system of claim 7 wherein the inductive component is in parallel with the capacitive component. 9. The hydrogen generation system of claim 7 wherein the capacitive component is sized based, at least in part, upon one or more physical characteristics of the hydrogen generation chamber. 10. The hydrogen generation system of claim 7 wherein the capacitive component is sized based, at least in part, upon one or more physical characteristics of the feedstock contained within the hydrogen generation chamber. 11. The hydrogen generation system of claim 1 wherein the feedback circuit includes a capacitive component. 12. The hydrogen generation system of claim 11 wherein the capacitive component is sized based, at least in part, upon one or more physical characteristics of the hydrogen generation chamber. 13. The hydrogen generation system of claim 11 wherein the capacitive component is sized based, at least in part, upon one or more physical characteristics of the feedstock contained within the hydrogen generation chamber. 14. The hydrogen generation system of claim 11 wherein the capacitive component includes two discrete capacitors. 15. The hydrogen generation system of claim 14 wherein a first of the discrete capacitors is coupled to the anode of the hydrogen generation chamber. 16. The hydrogen generation system of claim 15 wherein a second of the discrete capacitors is coupled to the cathode of the hydrogen generation chamber. 17. The hydrogen generation system of claim 14 wherein the feedback circuit includes an asymmetrically conductive component. 18. The hydrogen generation system of claim 17 wherein the asymmetrically conductive component is positioned between the two discrete capacitors. 19. The hydrogen generation system of claim 1 wherein the at least one cathode is positioned along a longitudinal centerline of the at least one hollow cylindrical anode. 20. The hydrogen generation system of claim 19 wherein the at least one cathode is constructed, at least in part, of tungsten. 21. The hydrogen generation system of claim 19 wherein the at least one hollow cylindrical anode is constructed, at least in part, of graphite. 22. The hydrogen generation system of claim 1 wherein the at least one hollow cylindrical anode has an inside diameter that is 2,400% to 2,600% of an outside diameter of the at least one cathode positioned within the cylindrical anode. 23. The hydrogen generation system of claim 22 wherein the at least one hollow cylindrical anode has an inner diameter of 25.0 millimeters and the at least one cathode positioned within the hollow cylindrical anode has an outside diameter of 1.0 millimeter. 24. The hydrogen generation system of claim 1 wherein the at least one cathode positioned within the at least one hollow cylindrical anode has a longitudinal length that is 190% to 210% of the inside diameter of the at least one hollow cylindrical anode. 25. The hydrogen generation system of claim 24 wherein the at least one cathode positioned within the at least one hollow cylindrical anode has a longitudinal length of 50.0 millimeters. 26. A hydrogen generation system comprising: a signal generation system, configured to generate a driver signal, including: a pulsed DC source configured to generate a pulsed DC source signal,a mono-directional blocking circuit configured to receive the pulsed DC source signal and generate a driver signal, anda filter circuit configured to filter the driver signal and remove AC components;a signal processing system configured to process the driver signal and generate a chamber excitation signal; anda hydrogen generation chamber configured to receive the chamber excitation signal and generate hydrogen from a feedstock contained within the hydrogen generation chamber, wherein the hydrogen generation chamber includes: at least one hollow cylindrical anode configured to contain the feedstock, and at least one cathode positioned within the at least one hollow cylindrical anode;wherein the signal processing system includes: a positive reactive circuit coupled to the anode of the hydrogen generation chamber and including an inductive component and a capacitive component,a negative reactive circuit coupled to the cathode of the hydrogen generation chamber and including an inductive component and a capacitive component, anda feedback circuit that is configured to couple the cathode of the hydrogen generation chamber to the anode of the hydrogen generation chamber. 27. The hydrogen generation system of claim 26 wherein the feedback circuit includes a capacitive component. 28. The hydrogen generation system of claim 27 wherein the capacitive component is sized based, at least in part, upon one or more physical characteristics of the hydrogen generation chamber. 29. The hydrogen generation system of claim 27 wherein the capacitive component is sized based, at least in part, upon one or more physical characteristics of the feedstock contained within the hydrogen generation chamber. 30. A hydrogen generation system comprising: a signal generation system, configured to generate a driver signal, including: a pulsed DC source configured to generate a pulsed DC source signal,a mono-directional blocking circuit configured to receive the pulsed DC source signal and generate a driver signal, anda filter circuit configured to filter the driver signal and remove AC components;a signal processing system configured to process the driver signal and generate a chamber excitation signal; anda hydrogen generation chamber configured to receive the chamber excitation signal and generate hydrogen from a feedstock contained within the hydrogen generation chamber, wherein the hydrogen generation chamber includes: at least one hollow cylindrical anode configured to contain the feedstock, and at least one cathode positioned within the at least one hollow cylindrical anode;wherein the signal processing system includes: a positive reactive circuit coupled to the anode of the hydrogen generation chamber and including an inductive component and a capacitive component,a negative reactive circuit coupled to the cathode of the hydrogen generation chamber and including an inductive component and a capacitive component, anda feedback circuit that is configured to couple the cathode of the hydrogen generation chamber to the anode of the hydrogen generation chamber,wherein the at least one hollow cylindrical anode has an inside diameter that is 2,400% to 2,600% of an outside diameter of the at least one cathode positioned within the cylindrical anode, andwherein the at least one cathode positioned within the at least one hollow cylindrical anode has a longitudinal length that is 190% to 210% of the inside diameter of the at least one hollow cylindrical anode. 31. The hydrogen generation system of claim 30 wherein the positive reactive circuit is configured as a band-stop filter. 32. The hydrogen generation system of claim 31 wherein the negative reactive circuit is configured as a band-stop filter.
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이 특허에 인용된 특허 (15)
Young Stuart A. (Elmhurst IL) Zweifel Ronald A. (LaGrange IL) Caldwell Daniel L. (Downers Grove IL), Apparatus and method for generating hydrogen and oxygen by electrolytic dissociation of water.
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