Hydrogen producing fuel cartridge

The invention claimed is: 1. A thermolysis hydrogen fuel cartridge comprising: a gas-tight enclosure with a first external surface ( 20 / 21 / 22 ) and a first internal surface; a canister ( 102 A) disposed within the gas-tight enclosure and characterized by a wall that has a second external surface and a second internal surface ( 102 B), forming a cavity; a fuel ( 104 / 501 ) in the cavity of the canister; vacuum insulation ( 101 ) in contact with the external surface of said canister and the internal surface of said gas-tight enclosure; a heating element ( 103 ) with an electrical connection ( 37 ) that extends from the external surface of said cartridge ( 24 ) through the vacuum insulation into the cavity of the canister and is in contact with said fuel; wherein the heating element is configured to heat said fuel and cause decomposition of said fuel to produce hydrogen gas. 2. The thermolysis hydrogen fuel cartridge of claim 1 , wherein said fuel includes at least one of alane and ammonia borane. 3. The thermolysis hydrogen fuel cartridge of claim 1 , wherein said fuel includes at least some inert materials to improve thermal conductivity including at least one of alumina and ceramics. 4. The thermolysis hydrogen fuel cartridge of claim 1 , wherein said fuel is admixed with metal powders such as aluminum to improve thermal conductivity. 5. The thermolysis hydrogen fuel cartridge of claim 1 , further comprising a fluid communication means ( 35 ) wherein hydrogen may be output from the cartridge. 6. The thermolysis hydrogen fuel cartridge of claim 1 , wherein said heating element is a bendable element. 7. The thermolysis hydrogen fuel cartridge of claim 1 , wherein said heating element is discrete elements. 8. The thermolysis hydrogen fuel cartridge of claim 6 , wherein said discrete elements are banked and one or more discrete elements are switched on/off for proportional control. 9. A thermolysis hydrogen fuel cartridge comprising: an enclosure ( 310 / 312 ) with a first external surface ( 310 ) and a first internal surface; a canister ( 302 / 402 ) disposed within the gas-tight enclosure and characterized by a wall that has a second external surface ( 305 / 407 ) forming a cavity; a fuel ( 104 / 404 ) in the cavity of the canister; vacuum insulation ( 301 / 401 ) in contact with the external surface of the canister; a heating element ( 303 / 403 ) with an electrical connection ( 315 ) that extends through the face ( 312 ) of the enclosure and the vacuum insulation and surrounds at least a portion of the canister; a hydrogen output port ( 306 / 406 ) extending from the canister; and, wherein the heating element is configured to heat said fuel and cause decomposition of said fuel to produce hydrogen gas and output the produced hydrogen gas via the hydrogen output port. 10. The thermolysis hydrogen fuel cartridge of claim 9 , wherein the canister includes at least one of ceramics, plastics, laminates, foils, and metals. 11. The thermolysis hydrogen fuel cartridge of claim 9 , wherein said fuel includes at least one of alane and ammonia borane. 12. The thermolysis hydrogen fuel cartridge of claim 9 , wherein said fuel includes at least some inert materials to improve thermal conductivity including at least one of alumina and ceramics. 13. The thermolysis hydrogen fuel cartridge of claim 9 , further comprising a manifold within the canister and in fluid communication with the hydrogen output port. 14. The thermolysis hydrogen fuel cartridge of claim 9 , further comprising heat transfer members within the canister. 15. The thermolysis hydrogen fuel cartridge of claim 14 , wherein the heat transfer members are fins. 16. The thermolysis hydrogen fuel cartridge of claim 15 , wherein the fins extend radially from the center axis ( 320 ) of the canister. 17. The thermolysis hydrogen fuel cartridge of claim 15 , wherein the fins extend inward from the annular wall ( 305 / 407 ) towards the center axis of the canister. 18. The thermolysis hydrogen fuel cartridge of claim 14 , wherein the heat transfer members are perforated plates ( 40 ) placed inside the canister and orthogonal to the canister wall. 19. The thermolysis hydrogen fuel cartridge of claim 14 , further comprising compartmentalization of fuel within the canister. 20. The thermolysis hydrogen fuel cartridge of claim 19 , further comprising discrete heating of compartmentalization of fuel within the canister. 21. The thermolysis hydrogen fuel cartridge of claim 20 , wherein the compartmentalization is accomplished via perforated plates ( 40 ) inside the canister and placed orthogonal to the canister wall. 22. The thermolysis hydrogen fuel cartridge of claim 20 , wherein the compartmentalization is accomplished via fin within the canister. 23. The thermolysis hydrogen fuel cartridge of claim 9 , wherein said heating element has local switchable regions. 24. The thermolysis hydrogen fuel cartridge of claim 23 , wherein said discrete elements are banked and one or more discrete elements are switched on/off for proportional control. 25. A thermolysis hydrogen fuel cartridge comprising: an encasement ( 504 ) affixed to a face plate ( 508 ) to form a cartridge enclosure; a vacuum insulation ( 502 ) disposed within the enclosure and forming a cavity ( 600 ) which is substantially impermeable to hydrogen; a fuel ( 501 ) in the cavity; a heating element ( 503 ) within the cavity; a communications ribbon ( 505 ) extending through an aperture ( 507 ) in the face plate and the vacuum insulation, said communications ribbon being in conductive communication with the heating element; and, a fluid communication means whereby hydrogen gas is output; wherein the heating element is configured to heat said fuel and cause decomposition of said fuel to produce hydrogen gas. 26. The thermolysis hydrogen fuel cartridge of claim 23 , wherein said fuel includes at least one of alane and ammonia borane. 27. The thermolysis hydrogen fuel cartridge of claim 23 , wherein said fuel includes at least some inert materials to improve thermal conductivity including at least one of alumina and ceramics. 28. The thermolysis hydrogen fuel cartridge of claim 25 , wherein said heating element has local switchable regions. 29. The thermolysis hydrogen fuel cartridge of claim 28 , wherein said discrete elements are banked and one or more discrete elements are switched on/off for proportional control.