초록 ▼

A catalyst system for removing one or more components from a fluid stream includes a binder layer and a plurality of catalyst structures affixed to, and protruding from, the binder layer such that the catalyst structure surface is directly exposed to the fluid stream. Methods for preparing a cataly

A catalyst system for removing one or more components from a fluid stream includes a binder layer and a plurality of catalyst structures affixed to, and protruding from, the binder layer such that the catalyst structure surface is directly exposed to the fluid stream. Methods for preparing a catalyst system, and for selectively removing components from a fluid stream via a catalyst system are also disclosed.

대표청구항 ▼

I claim: 1. A catalyst system including a catalytic laminate for passage of a fluid stream thereover, said catalytic laminate comprising: a binder layer having a thickness in the range of from about 0.5 to 5 microns, and a plurality of particulate catalyst structures affixed to a surface of said bi

I claim: 1. A catalyst system including a catalytic laminate for passage of a fluid stream thereover, said catalytic laminate comprising: a binder layer having a thickness in the range of from about 0.5 to 5 microns, and a plurality of particulate catalyst structures affixed to a surface of said binder layer, wherein said plurality of particulate catalyst structures protrude from a said surface of said binder layer such that at least about 70% of the surface area of said plurality of particulate catalyst structures is directly exposed to said fluid stream when said fluid stream is passed over said catalytic laminate. 2. The catalyst system of claim 1, wherein at least about 70% to 95% of the total surface area of said plurality of particulate catalyst structures is directly exposed to said fluid stream when said fluid stream is passed over said catalytic laminate. 3. The catalyst system of claim 1, wherein said catalytic laminate comprises from about 400 to 10,000 catalyst structures per mm 2 of said catalytic laminate. 4. The catalyst system of claim 1, wherein each of said plurality of particulate catalyst structures comprises a particle of catalytically active material having a diameter in the range of about 10 to 50 microns. 5. The catalyst system of claim 1, wherein said plurality of particulate catalyst structures comprise two or more different catalytically active materials, and wherein each of said different catalytically active materials is located within a separate zone of said catalyst system. 6. The catalyst system of claim 1, further comprising a substrate, said binder layer bonded to said substrate, said substrate comprising a metal, said binder layer forming a protective coating on said substrate, and said binder layer preventing oxidation of said metal. 7. The catalyst system of claim 1, wherein said binder layer comprises a densified ceramic material prepared by coating a substrate in a solution comprising an alkoxide of zirconium, aluminum, titanium, or silicon. 8. The catalyst system of claim 1, wherein said fluid stream is a stream of a gas, and said binder layer is impermeable to said gas. 9. The catalyst system of claim 1, wherein said plurality of particulate catalyst structures are arranged as a single layer on said binder layer. 10. The catalyst system of claim 1, wherein said plurality of particulate catalyst structures comprise a catalytically active material selected from the group consisting of a metal oxide, a precious metal, and a perovskite-type catalyst. 11. A catalyst system including a catalytic laminate for passage of a fluid stream thereover, said catalyst system comprising: a substrate; a binder layer disposed on said substrate, said binder layer comprising a ceramic coating bound to said substrate, said binder layer having a thickness in the range of from about 0.5 to 10 microns; and a particulate catalyst sintered to said binder layer, wherein said particulate catalyst protrudes from said binder layer such that at least about 70% of the total surface area of said particulate catalyst is directly exposed to said fluid stream when said fluid stream is passed over said catalytic laminate. 12. A catalytic layer for application over a binder layer on a substrate, said catalytic layer consisting of: a plurality of catalyst structures affixed to a surface of said binder layer, each catalyst structure having a surface area, each catalyst structure having a diameter in a range of from about 10 micron to about 50 micron, wherein at least about 70% of the surface area of said plurality of catalyst structures is directly exposed to a fluid stream when said fluid stream is passed over said plurality of catalyst structures and wherein the catalytic layer does not contain components other than catalyst structures. 13. A catalyst system including a catalytic laminate for passage of a fluid stream thereover, said catalytic laminate comprising: a binder layer having a thickness from about 0.2 microns to 100 microns and a plurality of particulate catalyst structures affixed to a surface of said binder layer, wherein said plurality of particulate catalyst structures protrude from said surface of said binder layer such that at least about 70% of the surface area of said plurality of particulate catalyst structures is directly exposed to said fluid stream when said fluid stream is passed over said catalytic laminate. 14. The catalyst system of claim 13, wherein at least about 70% to 95% of the total surface area of said plurality of particulate catalyst structures is directly exposed to said fluid stream when said fluid stream is passed over said catalytic laminate. 15. The catalyst system of claim 13, wherein said catalytic laminate comprises from about 400 to 10,000 catalyst structures per mm 2 of said catalytic laminate. 16. The catalyst system of claim 13, wherein each of said plurality of particulate catalyst structures comprises a particle of catalytically active material having a diameter in the range of about 10 to 50 microns. 17. The catalyst system of claim 13, wherein said plurality of particulate catalyst structures comprise two or more different catalytically active materials, and wherein each of said different catalytically active materials is located within a separate zone of said catalyst system. 18. The catalyst system of claim 13, wherein said binder layer has a thickness in the range of from about 0.5 to 5 microns. 19. The catalyst system of claim 13, further comprising a substrate, said binder layer bonded to said substrate, said substrate comprising a metal, said binder layer forming a protective coating on said substrate, and said binder layer preventing oxidation of said metal. 20. The catalyst system of claim 13, wherein said binder layer comprises a densified ceramic material prepared by coating a substrate in a solution comprising an alkoxide of zirconium, aluminum, titanium, or silicon. 21. The catalyst system of claim 13, wherein said fluid stream is a stream of a gas, and said binder layer is impermeable to said gas. 22. The catalyst system of claim 13, wherein said plurality of particulate catalyst structures are arranged as a single layer on said binder layer. 23. The catalyst system of claim 13, wherein said plurality of particulate catalyst structures comprise a catalytically active material selected from the group consisting of a metal oxide, a precious metal, and a perovskite-type catalyst.