초록 ▼

The present invention includes a catalyst structure and method of making the catalyst structure for Fischer-Tropsch synthesis that both rely upon the catalyst structure having a first porous structure with a first pore surface area and a first pore size of at least about 0.1 μm, preferably from

The present invention includes a catalyst structure and method of making the catalyst structure for Fischer-Tropsch synthesis that both rely upon the catalyst structure having a first porous structure with a first pore surface area and a first pore size of at least about 0.1 μm, preferably from about 10 μm to about 300 μm. A porous interfacial layer with a second pore surface area and a second pore size less than the first pore size is placed upon the first pore surface area. Finally, a Fischer-Tropsch catalyst selected from the group consisting of cobalt, ruthenium, iron and combinations thereof is placed upon the second pore surface area. Further improvement is achieved by using a microchannel reactor wherein the reaction chamber walls define a microchannel with the catalyst structure is placed therein through which pass reactants. The walls may separate the reaction chamber from at least one cooling chamber. The present invention also includes a method of Fischer-Tropsch synthesis.

대표청구항 ▼

We claim: 1. A catalyst structure comprising a porous structure and a porous interfacial layer disposed on the porous structure, wherein the porous structure has a first pore size of at least 0.1 μm, wherein the porous interfacial layer has a second pore size less than the first pore size; whe

We claim: 1. A catalyst structure comprising a porous structure and a porous interfacial layer disposed on the porous structure, wherein the porous structure has a first pore size of at least 0.1 μm, wherein the porous interfacial layer has a second pore size less than the first pore size; wherein the catalyst structure has a porosity of greater than 30%; wherein the porous structure comprises a foam, felt, wad or combinations thereof; wherein the catalyst structure has performance such that when the catalyst structure is heated to at least 200째 C. while a feed stream comprising CO and H2 is passed through the catalyst structure with a residence time of less than five seconds, a product stream is obtained that exhibits the properties of at least a 25% conversion of carbon monoxide and at most 25% selectivity toward methane. 2. The catalyst structure of claim 1 wherein the porous structure is metal; wherein the first pore size ranges from 10 μm to 300 μm; and wherein the interfacial layer has a thickness less than 20 μm. 3. The catalyst structure of claim 1 comprising a Fischer-Tropsch catalyst selected from the group consisting of cobalt, ruthenium, osmium, and combinations thereof. 4. The catalyst structure of claim 3 wherein the interfacial layer has a thickness less than 50 μm. 5. The catalyst structure of claim 4 wherein the porous support is metal. 6. The catalyst structure of claim 5 wherein the porous metal support is coated with a ceramic layer by chemical vapor deposition. 7. The catalyst structure of claim 5 further comprising a continuous buffer layer disposed between the porous structure and the interfacial layer. 8. The catalyst structure of claim 7 wherein the buffer layer comprises Al2O3, SiO2, ZrO2, or TiO2. 9. The catalyst structure of claim 5 wherein the interfacial layer comprises an oxide selected from the group consisting of: γ-Al2O3, SiO2, ZrO2, TiO2, magnesium oxide, vanadium oxide, chromium oxide, manganese oxide, iron oxide, nickel oxide, cobalt oxide, copper oxide, zinc oxide, molybdenum oxide, tin oxide, calcium oxide, aluminum oxide, lanthanum series oxide(s) , zeolite(s), and combinations thereof. 10. The catalyst structure of claim 4 wherein the porous structure comprises a metal foam having pores that range from 20 pores per inch to 1000 pores per inch. 11. A catalyst structure comprising a porous structure and a porous interfacial layer disposed on the porous structure, wherein the porous structure has a first pore size of at least 0.1 μm, wherein the porous interfacial layer has a second pore size less than the first pore size; wherein the catalyst structure has a porosity of greater than 30%; wherein the porous structure comprises a foam, felt, wad or combinations thereof; wherein the catalyst structure has performance such that when the catalyst structure is placed in a reaction chamber having dimensions(about 35 mm length, 1.5 mm height, and 8 mm width) and heated to 245째 C. while a feed stream consisting of CO and H2 in a H 2/CO ratio of 3, at 23 atm, is passed through the catalyst structure with a residence time of one second, a product stream is obtained that exhibits the properties of at least a 25% conversion of carbon monoxide and at most 25% selectivity toward methane. 12. The catalyst structure of claim 11 wherein the first pore size ranges from 10 μm to 300 μm; and wherein the interfacial layer has a thickness less than 20 μm. 13. The catalyst structure of claim 11 comprising a Fischer-Tropsch catalyst selected from the group consisting of cobalt, ruthenium, osmium, and combinations thereof. 14. The catalyst structure of claim 13 wherein the catalyst structure has performance such that when the catalyst structure is placed in a reaction chamber having dimensions (about 35 mm length, 1.5 mm height, and 8 mm width) and heated to 264째 C. while a feed stream consisting of CO and H2 in a H2/CO ratio of 3, at 23 atm, is passed through the catalyst structure with a residence time of one second, a product stream is obtained that exhibits the properties of at least a 40% conversion of carbon monoxide and at most 25% selectivity toward methane. 15. The catalyst structure of claim 14 wherein the porous structure comprises a metal. 16. The catalyst structure of claim 14 wherein the first pore size ranges from 10 μm to 300 μm; and wherein the interfacial layer has a thickness less than 20 μm. 17. The catalyst structure of claim 16 comprising a Fischer-Tropsch catalyst selected from the group consisting of cobalt, ruthenium, osmium, and combinations thereof. 18. The catalyst structure of claim 13 wherein the catalyst structure has performance such that when the catalyst structure is placed in a reaction chamber having dimensions (about 35 mm length, 1.5 mm height, and 8 mm width) and heated to 275째 C. while a feed stream consisting of CO and H2 in a H2/CO ratio of 3 is passed through the catalyst structure, at 23 atm, with a residence time of two seconds, a product stream is obtained that exhibits the properties of at least a 80% conversion of carbon monoxide and at most 10% selectivity toward methane. 19. The catalyst structure of claim 11 wherein the interfacial layer comprises alumina. 20. The catalyst structure of claim 19 wherein the catalyst comprises Co and Ru. 21. The catalyst structure of claim 19 wherein the porous structure comprises a metal foam having pores that range from 20 pores per inch to 1000 pores per inch. 22. The catalyst structure of claim 11 wherein the catalyst structure has performance such that when the catalyst structure is placed in a reaction chamber having dimensions (about 35 mm length, 1.5 mm height, and 8 mm width) and heated to 265째 C. while a feed stream consisting of CO and H2 in a H2/CO ratio of 3 is passed through the catalyst structure with a pressure corrected residence time of 12.5 seconds, a product stream is obtained that exhibits a lower selectivity toward methane at 5 atm than at 23 atm. 23. The catalyst structure of claim 22 wherein the interfacial layer comprises alumina. 24. The catalyst structure of claim 23 wherein the catalyst comprises Co and Ru.