RU2004101771A - HYDROGEN STORAGE METHOD IN HYBRID FORM - Google Patents

Claims (37)

1. A hydrogen storage container comprising at least one hydrogen storage composition and hydrogen, wherein hydrogen comprises solid hydrogen and gaseous hydrogen, the hydrogen storage composition comprises at least a portion of hydrogen in the solid state and is characterized by a high plateau pressure equilibrium, characterized in that the hydrogen in the solid state is at least 5 wt.% of the total amount of hydrogen contained, and gaseous hydrogen has a pressure exceeding a high This equals a plateau of equilibrium, and comprises at least 5 wt.% of the total amount of hydrogen contained. 2. The hydrogen storage container according to claim 1, characterized in that the hydrogen gas is at least 15 wt.% Of the total amount of hydrogen contained. 3. A hydrogen storage container according to claim 2, characterized in that the hydrogen gas is at least 19 wt.% Of the total amount of hydrogen contained. 4. A hydrogen storage container according to claim 3, wherein the hydrogen gas is at least 28 wt.% Of the total amount of hydrogen contained. 5. The hydrogen storage container according to claim 1, characterized in that the pressure of the hydrogen gas is at least 248 bar. 6. The hydrogen storage container according to claim 5, characterized in that the pressure of the hydrogen gas is at least 345 bar. 7. The hydrogen storage container according to claim 6, characterized in that the pressure of the hydrogen gas is at least 690 bar. 8. A hydrogen storage container according to any one of the preceding paragraphs, characterized in that the hydrogen storage material is a material containing metal. 9. A hydrogen storage container according to claim 8, characterized in that the material containing the metal is a metal hydride. 10. A hydrogen storage container according to claim 9, characterized in that the metal hydride is in the form of particles. 11. The hydrogen storage container according to claim 1, characterized in that the hydrogen storage composition is characterized by a pressure of the equilibrium desorption plateau at 20 ° C. in excess of 40 bar, and a hydrogen gas pressure exceeds the pressure of the equilibrium desorption plateau. 12. A system for converting the chemical energy of hydrogen into mechanical energy, comprising a hydrogen storage container defining a storage space comprising at least one hydrogen storage composition and hydrogen, the hydrogen including solid hydrogen and gaseous hydrogen, the hydrogen storage composition includes at least part of the hydrogen in the solid state and is characterized by a high pressure of the equilibrium plateau and the pressure of gaseous hydrogen is greater than the high pressure of the plateau Ia, and a motor connecting to a container for receiving the hydrogen gas, the engine is configured to provide conversion of chemical energy of the hydrogen gas delivered from the container to the motor into mechanical energy. 13. The system according to p. 12, characterized in that the hydrogen in the solid state is at least 5 wt.% Of the total amount of hydrogen contained, and hydrogen gas has a pressure exceeding the high pressure of the equilibrium plateau, and is at least 5 weight. % of the total amount of hydrogen contained. 14. The system of claim 13, wherein the gaseous hydrogen is at least 15 wt.% Of the total weight of the hydrogen contained. 15. The system of claim 14, wherein the hydrogen gas is at least 19 wt.% Of the total weight of the hydrogen contained. 16. The system of clause 15, wherein the gaseous hydrogen is at least 28 wt.% Of the total weight of the hydrogen contained. 17. The system of claim 12, wherein the pressure of the hydrogen gas is at least 248 bar. 18. The system of claim 17, wherein the pressure of the hydrogen gas is at least 345 bar. 19. The system of claim 18, wherein the pressure of the hydrogen gas is at least 690 bar. 20. The system according to any one of paragraphs.12-19, characterized in that the composition for storing hydrogen is a material containing metal. 21. The system according to claim 20, characterized in that the material containing the metal is a metal hydride. 22. The system according to item 21, wherein the metal hydride is in the form of particles. 23. The system of claim 12, wherein the engine includes a fuel cell. 24. The system of claim 12, wherein the hydrogen storage composition is characterized by a pressure of an equilibrium desorption plateau at 20 ° C. in excess of 40 bar, and a hydrogen gas pressure exceeds that of an equilibrium desorption plateau. 25. A system for converting the chemical energy of hydrogen into mechanical energy, comprising a container for storing hydrogen containing at least one composition for storing hydrogen and hydrogen, moreover, hydrogen includes solid hydrogen and gaseous hydrogen, the hydrogen storage composition includes at least a portion hydrogen in the solid state and is characterized by the pressure of the plateau of equilibrium desorption at 20 ° C, exceeding 40 bar, and the pressure of gaseous hydrogen is greater than the pressure of the plateau of equilibrium desorption comp ozition for the storage of hydrogen; and a fuel cell connected to a container for receiving hydrogen gas. 26. The system according A.25, characterized in that the composition for storing hydrogen is a material containing metal. 27. The system according to any one of p. 25 or 26, characterized in that the composition for storing hydrogen is a metal hydride. 28. The system according A.25, characterized in that the hydrogen in the solid state is at least 5 wt.% Of the total amount of hydrogen contained and gaseous hydrogen is at least 5 wt.% Of the total amount of hydrogen contained. 29. A system for converting the chemical energy of hydrogen into mechanical energy, comprising a container for storing hydrogen containing at least one composition for storing hydrogen and hydrogen, moreover, hydrogen includes solid hydrogen and gaseous hydrogen, the composition for storing hydrogen includes at least a portion hydrogen in the solid state and is characterized by the pressure of the plateau of equilibrium desorption at 20 ° C, exceeding 40 bar, and the pressure of gaseous hydrogen is greater than the pressure of the plateau of equilibrium desorption comp storage space for hydrogen; and a vehicle engine connected to a container for receiving hydrogen gas. 30. The system according to clause 29, wherein the composition for storing hydrogen is a material containing metal. 31. The system according to clause 29 or 30, characterized in that the composition for storing hydrogen is a metal hydride. 32. The system according to clause 29, wherein the solid hydrogen is at least 5 wt.% Of the total amount of hydrogen contained, and hydrogen gas is at least 5 wt.% Of the total amount of hydrogen contained. 33. A method for hydrogenating a composition for storing hydrogen located in a space defined by a container for storing hydrogen, having a configuration that provides at least hydrogen and a composition for storing hydrogen, the composition for storing hydrogen is characterized by a high pressure plateau of equilibrium, including the stage of supplying gaseous hydrogen into the space of the container for hydrogenating the hydrogen storage composition at least until the water storage composition the ode will not include hydrogen in the solid state and hydrogen in the solid state will not comprise at least 5 wt.% of the total amount of hydrogen contained in the container, and to fill the space in the container with hydrogen gas, at least until hydrogen gas in the container will not comprise at least 5 wt.% of the total amount of hydrogen located in the container. 34. The method according to p, characterized in that the material for storing hydrogen is a material containing metal. 35. The method according to clause 34, wherein the material containing the metal is a metal hydride. 36. The method according to clause 35, wherein the metal hydride is in the form of particles. 37. The method according to any one of claims 33-36, characterized in that the composition for storing hydrogen is characterized by a pressure of an equilibrium desorption plateau at 20 ° C in excess of 40 bar, and filling the container space with hydrogen gas is carried out until the hydrogen gas pressure is the space of the container will not be greater than the pressure of the equilibrium desorption plateau.