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The invention concerns a hydrogen generating system, characterized in that it combines a water-corrodible metal, an inorganic material, said material having a specific surface capable of fixing the oxide and/or hydroxide form(s) of said metals generated during corrosion. The invention also concerns

The invention concerns a hydrogen generating system, characterized in that it combines a water-corrodible metal, an inorganic material, said material having a specific surface capable of fixing the oxide and/or hydroxide form(s) of said metals generated during corrosion. The invention also concerns a method for generating hydrogen and its uses, in particular in a hydrodehalogenation process of halogenated organic compounds present in aqueous media to be purified.

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The invention claimed is: 1. Hydrogen generating system comprising a water-corrodible metal, an aqueous medium, and an inorganic material having a specific surface area, and on which is fixed the oxide and/or hydroxide form(s) of the metal generated during corrosion thereof, wherein the inorganic m

The invention claimed is: 1. Hydrogen generating system comprising a water-corrodible metal, an aqueous medium, and an inorganic material having a specific surface area, and on which is fixed the oxide and/or hydroxide form(s) of the metal generated during corrosion thereof, wherein the inorganic material has a specific surface area greater by at least a factor of 100 than that of the metal, and wherein the water-corrodible metal is present in the aqueous medium and is not carried by the inorganic material, wherein the inorganic material is a synthetic or natural zeolite. 2. System as claimed in claim 1, wherein the metal has a negative oxidation reduction potential. 3. System as claimed in claim 1, wherein the metal is selected from the group consisting of steel, iron, zinc, aluminum, tin, bismuth, cobalt and nickel. 4. System as claimed in claim 1, wherein said metal is iron. 5. System as claimed in claim 1, wherein the inorganic material is a zeolite having a specific surface area greater than 10 m2/g. 6. System as claimed in claim 1, wherein the metal and the inorganic material are combined in a proportion of 0.5 to 40% by weight of the material relative to the weight of the metal. 7. Method of generating hydrogen, comprising producing a continuous supply of hydrogen from the hydrogen generating system as defined in claim 1. 8. Method of conducting a hydrodehalogenation reaction, comprising conducting a hydrodehalogenation reaction with the hydrogen generating system as defined in claim 1, wherein volatile halogenated organic compounds are present in the aqueous medium. 9. Method of hydrodehalogenation of volatile halogenated organic compounds present in an aqueous medium, comprising conducting hydrogen generation with the hydrogen generating system as claimed in claim 1 and catalytic hydrodehalogenation of the volatile halogenated organic compounds in the presence of the hydrogen thus formed and a catalyst. 10. Method as claimed in claim 9, wherein the catalyst comprises a metal selected from the group consisting of palladium, nickel, ruthenium, platinum and rhodium. 11. Method as claimed in claim 10, wherein the metal is fixed on a second inorganic material. 12. Method as claimed in claim 11, wherein the inorganic material present in the hydrogen generating system is used in a quantity such that its developed surface is greater than the developed surface of the second inorganic material. 13. Method as claimed in claim 9, wherein the catalyst is palladium carried on alumina and the metal of the hydrogen generating system is iron. 14. Method as claimed in claim 13, wherein the mass ratio palladium/iron is less than 100 mg of palladium/kg of iron. 15. Method as claimed in claim 9, wherein the aqueous medium is treated within a reactor in which the hydrogen generating system is separated from the catalyst. 16. A hydrogen generating system comprising an aqueous medium containing a water-corrodible metal and an inorganic material, said inorganic material having a surface area which fixes thereon the oxide and/or hydroxide form(s) of the metal generated during corrosion thereof, wherein the inorganic material has a specific surface area greater by at least a factor of 100 than that of the metal, and wherein the water-corrodible metal is present in the aqueous medium and is not carried by the inorganic material, wherein the inorganic material is a synthetic or natural zeolite. 17. A hydrogen generating system according to claim 1, wherein the oxide and/or hydroxide form(s) of the metal generated during corrosion is fixed directly on the inorganic material. 18. A hydrogen generating system according to claim 16, wherein the oxide and/or hydroxide form(s) of the metal generated during corrosion is fixed directly on the inorganic material. 19. A hydrogen generating system according to claim 16, wherein the inorganic material is a zeolite having a specific surface area greater than 10 m2/g.