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A hydrogen generation cartridge preferably includes a munitions casing, a hydrogen producing chemical reactant within the casing, and an outlet for releasing hydrogen produced in the casing. A portable hydrogen generator preferably includes a chamber for receiving a plurality of hydrogen generation

A hydrogen generation cartridge preferably includes a munitions casing, a hydrogen producing chemical reactant within the casing, and an outlet for releasing hydrogen produced in the casing. A portable hydrogen generator preferably includes a chamber for receiving a plurality of hydrogen generation cartridges, and control electronics for selectively operating the hydrogen generation cartridges in the chamber. The cartridges individually produce hydrogen under control of the control electronics.

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What is claimed is: 1. A hydrogen generation cartridge comprising: a bullet casing; a hydrogen producing chemical reactant within said casing; and an outlet for releasing hydrogen produced in said casing. 2. The cartridge of claim 1, wherein said outlet comprises a pressure release valve. 3.

What is claimed is: 1. A hydrogen generation cartridge comprising: a bullet casing; a hydrogen producing chemical reactant within said casing; and an outlet for releasing hydrogen produced in said casing. 2. The cartridge of claim 1, wherein said outlet comprises a pressure release valve. 3. The cartridge of claim 1, further comprising a filter disposed in said outlet for filtering hydrogen produced from said hydrogen producing chemical reactant. 4. The cartridge of claim 3, further comprising a filter retainer for securing said filter. 5. A hydrogen generation cartridge comprising: a munitions casing; a hydrogen producing chemical reactant within said casing and an outlet for releasing hydrogen produced in said casing; wherein said hydrogen producing chemical reactant is an amine borane. 6. A hydrogen generation cartridge comprising: a munitions casing; a hydrogen producing chemical reactant within said casing; an outlet for releasing hydrogen produced in said casing; and a heating element disposed in said casing. 7. The cartridge of claim 6, wherein said heating element is a resistive element. 8. The cartridge of claim 6, wherein said heating element is a mechanical igniter. 9. The cartridge of claim 6, wherein said heating element is a chemical heating core. 10. The cartridge of claim 6, wherein said hydrogen producing chemical reactant is compacted around said heating element. 11. The cartridge of claim 1, wherein said hydrogen producing chemical reactant is formed into one or more pellets. 12. The cartridge of claim 1, wherein said casing is any of a .223, 50 BMG, 45 ACP, or 9 mm casing. 13. The cartridge of claim 1, wherein said cartridge is reusable. 14. A portable hydrogen generator comprising: a chamber for receiving a plurality of hydrogen generation cartridges, each said cartridge comprising a munitions casing; and control electronics for selectively operating said hydrogen generation cartridges in said chamber, wherein said cartridges individually produce hydrogen under control of said control electronics. 15. The generator of claim 14, further comprising a manifold for collecting and transferring hydrogen produced from said hydrogen generation cartridges. 16. The generator of claim 15, further comprising an accumulator connected to said manifold for storing a volume of hydrogen produced by said cartridges and collected by said manifold. 17. The generator of claim 14, further comprising a lid for said chamber that comprises electrical connections between said control electronics and said plurality of cartridges. 18. The generator of claim 14, wherein said control electronics further comprise a user interface for allowing a user to control said portable hydrogen generator. 19. The generator of claim 14, further comprising a fan for cooling an interior of said generator. 20. The generator of claim 14, further comprising an integrated fuel cell for producing power from hydrogen produced by said cartridges. 21. The generator of claim 20, further comprising a heat exchanger for dissipating heat produced by said fuel cell. 22. The generator of claim 14, wherein said control electronics are configured to activate multiple hydrogen generation cartridges simultaneously for increased hydrogen production. 23. A portable hydrogen generator comprising: a chamber for receiving a plurality of hydrogen generation cartridges; and control electronics for selectively operating said hydrogen generation cartridges in said chamber, wherein said cartridges individually produce hydrogen under control of said control electronics; and wherein each of said hydrogen generation cartridges comprises: a munitions casing; a hydrogen producing chemical reactant within said casing; and an outlet for releasing hydrogen produced in said casing. 24. The generator of claim 23, wherein said outlet comprises a pressure release valve. 25. The generator of claim 23, further comprising a filter disposed in said outlet for filtering hydrogen produced from said hydrogen producing chemical reactant. 26. The generator of claim 25, further comprising a filter retainer for securing said filter. 27. The generator of claim 23, wherein said hydrogen producing chemical reactant is an amine borane. 28. The generator of claim 23, further comprising a heating element disposed in said casing. 29. The generator of claim 28, wherein said heating element is a resistive element. 30. The generator of claim 28, wherein said heating element is a mechanical igniter. 31. The generator of claim 28, wherein said heating element is a chemical heating core. 32. The generator of claim 28, wherein said hydrogen producing chemical reactant is compacted around said heating element. 33. The generator of claim 28, wherein said control electronics selectively drive said heating elements of said cartridges. 34. The generator of claim 33, wherein said control electronics comprise a battery for selectively powering said heating elements of said cartridges. 35. The generator of claim 23, wherein said hydrogen producing chemical reactant is formed into one or more pellets. 36. The generator of claim 23, wherein said munitions casing is any of a .223, 50 BMG, 45 ACP, or 9 mm casing. 37. The generator of claim 23, wherein said control electronics are configured to activate multiple hydrogen generation cartridges simultaneously for increased hydrogen production. 38. A method of making a hydrogen generation cartridge comprising planing a hydrogen producing chemical reactant in a bullet casing having an outlet for releasing hydrogen produced in said casing. 39. The method of claim 38, further comprising providing a pressure release valve in said outlet. 40. The method of claim 38, further comprising providing a filter disposed in said outlet for filtering hydrogen produced from said hydrogen producing chemical reactant. 41. A method of making a hydrogen generation cartridge comprising placing a hydrogen producing chemical reactant in a munitions casing having an outlet for releasing hydrogen produced in said casing, wherein said hydrogen producing chemical reactant is an amino borane. 42. A method of making a hydrogen generation cartridge comprising placing a hydrogen producing chemical reactant in a munitions casing having an outlet for releasing hydrogen produced in said casing, said method further comprising providing a heating element in said casing. 43. The method of claim 42, further comprising compacting said hydrogen producing chemical reactant around said heating element. 44. The method of claim 38, further comprising forming said hydrogen producing chemical reactant into one or more pellets. 45. The method of claim 38, wherein said casing is any of a . 223, 50 BMG, 45 ACP, or 9 mm casing. 46. A method of generating hydrogen comprising conducting a hydrogen producing reaction with a hydrogen producing chemical reactant housed in a bullet casing having an outlet for releasing hydrogen produced in said casing. 47. The method of claim 46, further comprising filtering hydrogen produced from said hydrogen producing chemical reactant. 48. A method of generating hydrogen comprising conducting a hydrogen producing reaction with a hydrogen producing chemical reactant housed in a munitions casing having an outlet for releasing hydrogen produced in said casing, wherein said hydrogen producing chemical reactant is an amine borane. 49. A method of generating hydrogen comprising conducting a hydrogen producing reaction with a hydrogen producing chemical reactant housed in a munitions casing having an outlet for releasing hydrogen produced in said casing, said method further comprising beating said reactant to induce said reaction. 50. The method of claim 49, wherein said heating is performed selectively by control electronics controlling a plurality of heating devices disposed in a plurality of munitions casings. 51. The method of claim 46, further comprising forming said hydrogen producing chemical reactant into one or more pellets. 52. The method of claim 46, wherein said casing is any of a . 223, 50 BMG, 45 ACP, or 9 mm casing. 53. The method of claim 50, further comprising collecting hydrogen produced in said munitions casings for use by a fuel cell. 54. A system of generating hydrogen comprising: means for containing a hydrogen-bearing reaction; a hydrogen producing chemical reactant housed in said means for containing said reaction; wherein said means for containing said reaction contains said reaction up to a pressure of about 3000 psi. 55. The system of claim 54, wherein said means for containing comprises a munitions casing having an outlet for releasing hydrogen produced in said casing. 56. The system of claim 54, further comprising means for heating said reactant to initiate said reaction. 57. The system of claim 54, wherein said hydrogen producing chemical reactant is an amine borane. 58. The system of claim 54, further comprising a plurality of said means for containing said reaction. 59. The system of claim 58, further comprising means for selectively controlling said reaction in said plurality of means for containing said reaction.