초록 ▼

A man portable hydrogen source, the source comprising one or more hydrogen generating elements, an ignition control system and a pressure vessel. Each hydrogen generating element comprises a pellet holder provided with one or more recesses and a thermal insulation layer to reduce heat transfer to ad

A man portable hydrogen source, the source comprising one or more hydrogen generating elements, an ignition control system and a pressure vessel. Each hydrogen generating element comprises a pellet holder provided with one or more recesses and a thermal insulation layer to reduce heat transfer to adjacent hydrogen generating elements; wherein at least one recess contains a pellet of a chemical mixture which on thermal decomposition evolves hydrogen gas; wherein the ignition control system comprises one or more igniters, associated with an individual pellet, and activation means to activate the igniters; and wherein the evolved hydrogen and hydrogen generating elements are contained within the pressure vessel.

대표청구항 ▼

What the invention claims is: 1. A hydrogen source comprising one or more hydrogen generating elements arranged in a pressure vessel and an ignition control system associated with the hydrogen generating element(s), wherein the one or more hydrogen generating elements comprise a plurality of pellet

What the invention claims is: 1. A hydrogen source comprising one or more hydrogen generating elements arranged in a pressure vessel and an ignition control system associated with the hydrogen generating element(s), wherein the one or more hydrogen generating elements comprise a plurality of pellets of an ignitable chemical mixture that on thermal decomposition evolve hydrogen gas, wherein the ignition control system comprises a plurality of ignitors arranged to ignite the pellets on an individual basis, and wherein the ignition control system is arranged to control the rate of ignition of the pellets. 2. A hydrogen source according to claim 1, wherein the hydrogen source is man portable. 3. A hydrogen source according to claim 1, wherein thermal insulation is provided within the pressure vessel to reduce heat transfer from the one or more hydrogen generating elements. 4. A hydrogen source according to claim 1, further comprising a regulator to control the flow of evolved hydrogen out from the pressure vessel. 5. A hydrogen source according to claim 4, wherein the regulator is integrated within the pressure vessel. 6. A hydrogen source according to claim 1, further comprising a filter to purify the evolved hydrogen. 7. A hydrogen source according to claim 6, wherein the filter is integrated within the pressure vessel. 8. A hydrogen source according to claim 6, wherein the filter is one of an activated carbon filter, a porous stainless steel filter or a sintered metal filter. 9. A hydrogen source according to claim 1, wherein the or each hydrogen generating element comprises a pellet holder provided with one or more recesses. 10. A hydrogen source according to claim 9, wherein the pellet holder comprises a rigid, porous material. 11. A hydrogen source according to claim 1, wherein at least one hydrogen generating element further comprises a gas handling layer provided with channels arranged to direct the flow of evolved hydrogen. 12. A hydrogen source according to claim 11, wherein the gas handling layer comprises a metallic layer arranged to contact the inner surface of the pressure vessel, thereby conducting heat to the exterior. 13. A hydrogen source according to claim 3, wherein the thermal insulation comprises one or more of a felt layer, a ceramic, asbestos or rockwool. 14. A hydrogen source according to claim 1, wherein the one or more ignitors comprise heated resistance wires or pyrotechnic ignitors. 15. A hydrogen source according to claim 1, wherein the ignitors are placed in contact with the pellets. 16. A hydrogen source according to claim 1, wherein the ignition control system comprises activation means to activate the ignitors, which means are selected from a battery, an electrochemical cell, a fuel cell, capacitor or a power supply. 17. A hydrogen source according to claim 1, wherein the ignition control system further comprises a pressure transducer to determine the pressure of hydrogen within the pressure vessel. 18. A hydrogen source according to claim 17, wherein the output from the pressure transducer is used to trigger the decomposition of the pellets in order to maintain the pressure of hydrogen at a pre-set level or in response to demand from external equipment. 19. A hydrogen source according to claim 17, wherein the ignition control system is arranged so that it does not activate the ignitors when the output from the pressure transducer indicates that the pressure within the pressure vessel is above a safe limit. 20. A hydrogen source according to claim 1, wherein the ignition control system further comprises a temperature probe to determine the temperature within the pressure vessel. 21. A hydrogen source according to claim 20, wherein the ignition control system is arranged so that it does not activate the ignitors when the output from the temperature probe indicates that the temperature within the pressure vessel is above a safe limit. 22. A hydrogen source according to claim 1, wherein the pressure vessel is adapted to be rechargeable with replacement pellets for re-use. 23. Portable equipment comprising a hydrogen source according to claim 1. 24. Equipment according to claim 23, in the form of a fuel cell system. 25. A hydrogen source comprising one or more hydrogen generating elements arranged in a pressure vessel and an ignition control system associated with the hydrogen generating element(s), wherein the one or more hydrogen generating elements comprise a plurality of pellets of an ignitable chemical mixture that on thermal decomposition evolve hydrogen gas, wherein the ignition control system is arranged to control the rate of ignition of the pellets, and wherein the ignition control system comprises a plurality of ignitors, one or more ignitors being associated with each individual pellet to permit successive or simultaneous ignition of pellets in a controllable manner. 26. A hydrogen source comprising one or more hydrogen generating elements arranged in a pressure vessel and an ignition control system associated with the hydrogen generating element(s), wherein the one or more hydrogen generating elements comprise a plurality of pellets of an ignitable chemical mixture that on thermal decomposition evolve hydrogen gas, wherein the ignition control system comprises a plurality of ignitors arranged to ignite the pellets on an individual basis and the pellets are sufficiently spaced or separated from one another to prevent cross-ignition, and wherein the ignition control system is arranged to control the rate of ignition of the pellets.