RU2022101068A - POWER UNIT WITH A SAFE AND RELIABLE HYDROGEN STORAGE DEVICE - Google Patents

Claims (20)

1. Hydrogen storage component, containing: outer shell; an outer sleeve, which is located inside the outer shell; a metallic material disposed within the outer sleeve, wherein the metallic material is capable of absorbing and releasing hydrogen gas; an inner sleeve located on the inner surface of the metal material, and the metal material is located between the outer sleeve and the inner sleeve; And a gap disposed on an inner surface of the inner sleeve, the gap being configured to receive hydrogen gas absorbed and released by the metal material. 2. The hydrogen storage component of claim 1, wherein the gap is divided into a plurality of compartments by means of one or more ribs. 3. The hydrogen storage component of claim 1, wherein the metal material is divided into components in a plurality of compartments. 4. The hydrogen storage component of claim 1, wherein the outer shell is an outer cylindrical shell. 5. The water storage component of claim 1, wherein the inner sleeve is flexible. 6. The hydrogen storage component of claim 5, wherein the inner sleeve allows hydrogen gas to permeate the metal material. 7. The hydrogen storage component of claim 6, wherein the inner sleeve is flexible to withstand an expansion of the metal material when the metal material absorbs hydrogen. 8. The water storage component according to claim 1, which further comprises a vibrating element, wherein the gap is located between the vibrating element and the inner surface of the inner sleeve. 9. The water storage component of claim 8, wherein the vibratory element comprises a component selected from the group consisting of an actuator, a solenoid, a spindle head, an electric motor, a piezoelectric material, and combinations thereof. 10. The hydrogen storage component of claim 8, wherein the vibratory element comprises a spindle head mounted at the center of the hydrogen storage component. 11. The hydrogen storage component of claim 8, wherein the vibrating element is movable at a frequency resonating with that of the metallic material. 12. The hydrogen storage component of claim 1, which is configured to deliver hydrogen gas at a pressure of 551.6 kPa. 13. The hydrogen storage component of claim 1, further comprising a hydrogen entry point and a hydrogen exit point, and a check valve at each of the points, the check valves preventing air from being drawn into the hydrogen storage component. 14. The hydrogen storage component of claim 1, which is coupled to the fuel cell and configured to deliver hydrogen gas to the fuel cell. 15. The hydrogen storage component of claim 1, which further comprises a desiccant coupled to the hydrogen storage component, the desiccant being configured to deliver dry hydrogen gas to the hydrogen storage component.