Zeolite catalysts and systems and methods for preparing and using zeolite catalysts having the CHA crystal structure are disclosed. The catalysts can be used to remove nitrogen oxides from a gaseous medium across a broad temperature range and exhibit hydrothermal stable at high reaction temperatures
Zeolite catalysts and systems and methods for preparing and using zeolite catalysts having the CHA crystal structure are disclosed. The catalysts can be used to remove nitrogen oxides from a gaseous medium across a broad temperature range and exhibit hydrothermal stable at high reaction temperatures. The zeolite catalysts include a zeolite carrier having a silica to alumina ratio from about 15:1 to about 256:1 and a copper to alumina ratio from about 0.25:1 to about 1:1.
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1. An ammonia SCR catalyst article comprising a metallic or ceramic substrate having deposited thereon a copper ion-exchanged aluminosilicate zeolite having a CHA crystal structure, the zeolite having a mole ratio of silica to alumina from about 20 to about 40 and wherein the zeolite contains at lea
1. An ammonia SCR catalyst article comprising a metallic or ceramic substrate having deposited thereon a copper ion-exchanged aluminosilicate zeolite having a CHA crystal structure, the zeolite having a mole ratio of silica to alumina from about 20 to about 40 and wherein the zeolite contains at least about 2.00 weight percent copper, expressed as copper oxide, wherein the ammonia SCR NOx conversion performance of the catalyst article at about 200° C. after hydrothermal aging is at least 90% of the NOx conversion performance of the catalyst article at about 200° C. prior to hydrothermal aging, wherein the hydrothermal aging comprises aging of the catalyst article in the presence of 10% H2O at 800° C. for 50 hours. 2. The article according to claim 1, wherein the zeolite having the CHA structure is selected from the group consisting of SSZ-13, LZ-218, Linde D, Linde R, Phi and ZK-14. 3. The article according to claim 2, wherein the zeolite having the CHA structure is SSZ-13. 4. The article according to claim 1, wherein the mole ratio of silica to alumina is from about 25 to about 40. 5. The article according to claim 4, wherein the mole ratio of silica to alumina is about 30. 6. The article according to claim 4, wherein the mole ratio of silica to alumina is about 25. 7. The article according to claim 4, wherein the mole ratio of silica to alumina is about 26. 8. The article according to claim 4, wherein the mole ratio of silica to alumina is about 27. 9. The article according to claim 4, wherein the mole ratio of silica to alumina is about 28. 10. The article according to claim 4, wherein the mole ratio of silica to alumina is about 29. 11. The article according to claim 1, wherein the substrate is a honeycomb substrate. 12. The article according to claim 11, wherein the substrate is a wall flow substrate. 13. The article according to claim 11, wherein the substrate is a flow through substrate. 14. The article according to claim 1, wherein the deposited zeolite further comprises a binder. 15. The article according to claim 14, wherein the binder is ZrO2. 16. The article according to claim 1, wherein the substrate is ceramic and selected from the group consisting of cordierite, cordierite-alumina, silicon, nitride, zircon mullite, spodumene, alumica-silica magnesia, zircon silicate, sillimanite, a magnesium silicate, zircon, metalize, alpha-alumina and an aluminosilicate. 17. The article according to claim 1, wherein the substrate is metallic and composed of one or more metals or metal alloys. 18. The article according to claim 1, wherein the zeolite has an atomic ratio of copper to aluminum from about 0.30 to about 0.50. 19. An ammonia SCR catalyst article comprising a metallic or ceramic substrate having deposited thereon a copper ion-exchanged aluminosilicate zeolite having a CHA crystal structure and containing at least about 2.00 weight percent copper, expressed as copper oxide, wherein the ammonia SCR NOx conversion performance of the catalyst article at about 200° C. after hydrothermal aging is at least 90% of the NOx conversion performance of the catalyst article at about 200° C. prior to hydrothermal aging, wherein the hydrothermal aging comprises aging of the catalyst article in the presence of 10% H2O at 800° C. for 50 hours. 20. The article according to claim 19, wherein the zeolite has a mole ratio of silica to alumina from about 25 to about 40. 21. The article according to claim 20, wherein the zeolite has an atomic ratio of copper to aluminum from about 0.30 to about 0.50. 22. The article according to claim 19, wherein the zeolite has an atomic ratio of copper to aluminum from about 0.30 to about 0.50. 23. The article according to claim 19, wherein the ammonia SCR NOx conversion performance of the catalyst article at 210° C. after hydrothermal aging is at least 90% of the NOx conversion performance of the catalyst article at 210° C. prior to hydrothermal aging, wherein the hydrothermal aging comprises aging of the catalyst article in the presence of 10% H2O at 800° C. for 50 hours.
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