A composition is provided that can be used, for example, in a fuel processor for a fuel cell system. The composition includes a first material such as a catalyst, and a second material such as a desiccant. The second material is capable of sorbing and desorbing a heat transfer material such as wate
A composition is provided that can be used, for example, in a fuel processor for a fuel cell system. The composition includes a first material such as a catalyst, and a second material such as a desiccant. The second material is capable of sorbing and desorbing a heat transfer material such as water, and is present in an amount sufficient to sorb an amount of the heat transfer material sufficient to remove a portion of the heat generated when the first material undergoes an exothermic reaction.
대표청구항▼
What is claimed is: 1. An article, comprising: a fuel processor for a fuel cell system; and a catalyst composite, comprising: a first material capable of undergoing an exothermic reaction; and a second material capable of sorbing and desorbing water, wherein the catalyst composite is disposed with
What is claimed is: 1. An article, comprising: a fuel processor for a fuel cell system; and a catalyst composite, comprising: a first material capable of undergoing an exothermic reaction; and a second material capable of sorbing and desorbing water, wherein the catalyst composite is disposed within an interior of the fuel processor. 2. The article of claim 1, wherein the fuel processor is substantially devoid of a high-temperature shift catalyst. 3. The article of claim 2, wherein the second material is present in an amount sufficient to sorb an amount of water sufficient to remove a portion of the heat generated when the first material undergoes an exothermic reaction. 4. The article of claim 3, wherein the first material is a fuel processor catalyst. 5. The article of claim 4, wherein the first material comprises a material selected from a group consisting of copper, nickel, iron, chromium, zinc, cobalt, platinum, palladium, rhodium, ruthenium, and iridium. 6. The article of claim 4, wherein the second material comprises a material selected from a group consisting of a zeolite, silicon oxide, aluminum oxide, and a clay. 7. The article of claim 4, wherein the first material is a CPO catalyst. 8. The article of claim 4, wherein the first material is capable of catalyzing oxidation of carbon monoxide. 9. The article of claim 4, wherein the first material is an LTS catalyst. 10. The article of claim 9, wherein the first material comprises a component selected from a group consisting of copper, cupric oxide and cuprous oxide. 11. The article of claim 2, wherein, when the first material undergoes an exothermic reaction, water present on the second material desorbs from the second material. 12. The article of claim 11, wherein the first material is disposed on a third material. 13. The article of claim 12, wherein the third material comprises a material selected from a group consisting of aluminum oxide, zinc oxide, zirconium oxide, and iron oxide. 14. The article of claim 12, wherein the catalytic composite further comprises a fourth material selected from a group consisting of zinc oxide, zirconium oxide, and iron oxide. 15. The article of claim 2, wherein the second material is a desiccant. 16. The article of claim 15, wherein the second material comprises a material selected from a group consisting of a zeolite, silicon oxide, aluminum oxide, and a clay. 17. The article of claim 2, wherein the first and second materials are formed into granules. 18. The article of claim 2, wherein the first material is coated on the second material. 19. The article of claim 2, wherein the first material has a reduced state and an oxidized state, and the second material is present in an amount sufficient to prevent the composite from sintering when the first material is in the reduced state and is exposed to air. 20. The article of claim 2, wherein the first material has a reduced state, an oxidized state, and a sintering temperature, and the second material is present in an amount sufficient to prevent the composite from reaching the sintering temperature when the first material has a staffing temperature of less than 100�� C. and is in the reduced state and is exposed to a flow of 4 liters per minute of air. 21. The article of claim 2, wherein the first material has a reduced state, an oxidized state and a sintering temperature, and the second material is present in an amount sufficient to prevent the composite from reaching the sintering temperature when the first material has a staffing temperature of less than 100�� C. and is in the oxidized state and is exposed to a flow of 100 standard liters per minute of hydrogen. 22. The article of claim 1, wherein the second material is present in an amount sufficient to sorb an amount of water sufficient to remove a portion of the heat generated when the first material undergoes an exothermic reaction. 23. The article of claim 22, wherein the first material is a fuel processor catalyst. 24. The article of claim 23, wherein the first material comprises a material selected from a group consisting of copper, nickel, iron, chromium, zinc, cobalt, platinum, palladium, rhodium, ruthenium, and iridium. 25. The article of claim 23, wherein the second material comprises a material selected from a group consisting of a zeolite, silicon oxide, aluminum oxide, and a clay. 26. The article of claim 23, wherein the first material is a CPO catalyst. 27. The article of claim 23, wherein the first material is capable of catalyzing oxidation of carbon monoxide. 28. The article of claim 23, wherein the first material is an HTS catalyst. 29. The article of claim 23, wherein the first material is an LTS catalyst. 30. The article of claim 29, wherein the first material comprises a component selected from a group consisting of copper, cupric oxide and cuprous oxide. 31. The article of claim 1, wherein, when the first material undergoes an exothermic reaction, water present on the second material desorbs from the second material. 32. The article of claim 31, wherein the first material is disposed on a third material. 33. The article of claim 32, wherein the third material comprises a material selected from a group consisting of aluminum oxide, zinc oxide, zirconium oxide, and iron oxide. 34. The article of claim 32, wherein the catalytic composite further comprises a fourth material selected from a group consisting of zinc oxide, zirconium oxide, and iron oxide. 35. The article of claim 1, wherein the second material is a desiccant. 36. The article of claim 35, wherein the second material comprises a material selected from a group consisting of a zeolite, silicon oxide, aluminum oxide, and a clay. 37. The article of claim 1, wherein the first and second materials are formed into granules. 38. The article of claim 1, wherein the first material is coated on the second material. 39. The article of claim 1, wherein the first material has a reduced state and an oxidized state, and the second material is present in an amount sufficient to prevent the composite from sintering when the first material is in the reduced state and is exposed to air. 40. The article of claim 1, wherein the first material has a reduced state, an oxidized state, and a sintering temperature, and the second material is present in an amount sufficient to prevent the composite from reaching the sintering temperature when the first material has a staffing temperature of less than 100�� C. and is in the reduced state and is exposed to a flow of 4 liters per minute of air. 41. The article of claim 1, wherein the first material has a reduced state, an oxidized state and a sintering temperature, and the second material is present in an amount sufficient to prevent the composite from reaching the sintering temperature when the first material has a staffing temperature of less than 100�� C. and is in the oxidized state and is exposed to a flow of 100 standard liters per minute of hydrogen.
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