Catalyst system for the reduction of NOx and NHemissions
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-050/00
F01N-003/00
출원번호
US-0065470
(2002-10-22)
등록번호
US-7332135
(2008-02-19)
발명자
/ 주소
Gandhi,Haren S
Cavataio,John Vito
Hammerle,Robert Henry
Cheng,Yisun
출원인 / 주소
Ford Global Technologies, LLC
대리인 / 주소
Porcari,Damian
인용정보
피인용 횟수 :
75인용 특허 :
26
초록▼
This catalyst system simultaneously removes ammonia and enhances net NOx conversion by placing an NH3-SCR catalyst formulation downstream of a lean NOx trap. By doing so, the NH3-SCR catalyst adsorbs the ammonia from the upstream lean NOx trap generated during the rich pulses. The stored ammonia the
This catalyst system simultaneously removes ammonia and enhances net NOx conversion by placing an NH3-SCR catalyst formulation downstream of a lean NOx trap. By doing so, the NH3-SCR catalyst adsorbs the ammonia from the upstream lean NOx trap generated during the rich pulses. The stored ammonia then reacts with the NOx emitted from the upstream lean NOx trap--enhancing the net NOx conversion rate significantly, while depleting the stored ammonia. By combining the lean NOx trap with the NH3-SCR catalyst, the system allows for the reduction or elimination of NH3 and NOx slip, reduction in NOx spikes and thus an improved net NOx conversion during lean and rich operation.
대표청구항▼
The invention claimed is: 1. An emission control system for controlling NOx and NH3 emissions from an exhaust stream, the system comprising: a lean NOx trap in communication with the exhaust stream for reducing NOx emissions, wherein the lean NOx trap is optimized for NH3 generation by removing oxy
The invention claimed is: 1. An emission control system for controlling NOx and NH3 emissions from an exhaust stream, the system comprising: a lean NOx trap in communication with the exhaust stream for reducing NOx emissions, wherein the lean NOx trap is optimized for NH3 generation by removing oxygen storage capacity of the lean NOx trap; and a NH3-SCR catalyst in communication with the exhaust stream for adsorbing NH3, wherein the NH3 adsorbed by the NH3-SCR catalyst reacts with NOx in the exhaust stream to improve the reduction of NOx and NH3. 2. The emission control system of claim 1, wherein one or more alternating layers of the lean NOx trap and the NH3-SCR catalyst are provided in a single catalytic converter shell such that a top layer comprising the lean NOx trap positioned over a bottom layer comprising the NH3-SCR catalyst is repeated one or more times. 3. The emission control system of claim 1, wherein one or more alternating layers of the lean NOx trap and NH3-SCR catalyst are provided in a single substrate such that a top layer comprising the lean NOx trap positioned over a bottom layer comprising the NH3-SCR catalyst is repeated one or more times. 4. The emission control system of claim 1, wherein one or more alternating zones of the lean NOx trap and NH3-SCR catalyst are provided in a single catalytic converter shell such that an upstream zone comprising the lean NOx trap positioned upstream of a downstream zone comprising the NH3-SCR catalyst is repeated one or more times. 5. The emission control system of claim 4, wherein each alternating zone of the lean NOx trap and alternating zone of the NH3-SCR catalyst have a 1" length and 1" width. 6. The emission control system of claim 4, wherein each alternating zone of the lean NOx trap and alternating zone of the NH3-SCR catalyst have a ��" length and a width of ��". 7. The emission control system of claim 4, wherein each alternating zone of the lean NOx trap and alternating zone of the NH3-SCR catalyst have a length of ��" and a width of ��". 8. The emission control system of claim 1, wherein one or more alternating zones of the lean NOx trap and NH3-SCR catalyst are provided in a single substrate such that an upstream zone comprising the lean NOx trap positioned upstream of a downstream zone comprising the NH3-SCR catalyst is repeated one or more times. 9. The emission control system of claim 1, wherein the lean NOx trap generates a sufficient quantity of NH3 to force the reaction between NOx and NH3, whereby NH3 emissions are eliminated and net NOx conversion improved. 10. The emission control system of claim 1, wherein the lean NOx trap is optimized for NH3 generation by removing oxygen storage capacity of the lean NOx trap. 11. The emission control system of claim 1, wherein the lean NOx trap comprises a precious metal selected from the group consisting of platinum, palladium, rhodium and combinations thereof; and a NOx storage material selected from the group consisting of alkali metals, alkali earth metals, rare earth metals and combinations thereof. 12. The emission control system of claim 1, wherein the lean NOx trap comprises platinum. 13. The emission control system of claim 1, wherein the lean NOx trap comprises a composite of cerium and zirconium. 14. The emission control system of claim 1, wherein the lean NOx trap comprises one or more materials for NH3 generating and NOx storage. 15. The emission control system of claim 1, wherein the NH3-SCR catalyst comprises one or more NH3 adsorbing materials, wherein the NH3 adsorbing materials are capable of converting NOx and NH3 to nitrogen. 16. The emission control system of claim 1, wherein the NH3-SCR catalyst comprises a base metal and a support selected from the group consisting of alumina, silica titania, zeolite and their combinations. 17. The emission control system of claim 1, wherein the NH3-SCR catalyst comprises a metal selected from the group consisting of Cu, Fe and Ce and a zeolite. 18. The emission control system of claim 1, wherein the lean NOx trap and the NH3-SCR catalyst are placed in a single catalytic converter shell. 19. The emission control system of claim 1, wherein the NH3-SCR catalyst is separate from and downstream from the lean NOx trap. 20. An emission control system for controlling NOx and NH3 emissions from an exhaust stream produced by the combination of an air/fuel mixture in an internal combustion engine, the system comprising: a lean NOx trap in communication with the exhaust stream for NOx reduction wherein the lean NOx trap comprises a lean NOx trap formulation which includes one or more NOx storage and wherein the lean NOx trap is optimized for generation by minimizing oxygen storage capacity of the lean NOx trap; a NH3-SCR catalyst in communication with the exhaust stream for adsorbing NH3, wherein the NH3-SCR catalyst comprises a NH3-SCR catalyst formulation which includes one or more NH3 adsorbing materials; and wherein the lean NOx trap formulation and the NH3-SCR catalyst formulation are placed on one substrate. 21. The emission control system of claim 20, wherein a layer of the lean NOx trap formulation and a layer of the NH3-SCR catalyst formulation are placed on the substrate to form a two-layer washcoat. 22. The emission control system of claim 20, wherein the lean NOx trap formulation and the NH3-SCR catalyst formulation are homogeneously mixed to form a single washcoat layer on the substrate. 23. The emission control system of claim 20, wherein the lean NOx trap formulation and the NH3-SCR catalyst formulation are heterogeneously mixed to form a single washcoat layer on the substrate. 24. An emission control system for controlling NOx and NH3 emissions from an exhaust stream produced by the combination of an air/fuel mixture in an internal combustion engine, the system comprising: a lean NOx trap in communication with the exhaust stream for NOx reduction, to provide a NOx reducing exhaust stream including NOx and NH3, wherein the lean NOx trap is optimized for NH3 generation by removing oxygen storage capacity; and a NH3-SCR catalyst in communication with the exhaust stream for adsorbing NH3, wherein the NH3 adsorbed by the NH3-SCR catalyst reacts with NOx in the NOx reduced exhaust stream to improve the reduction of NOx and NH3. 25. The emission control system of claim 24, wherein the lean NOx trap generates a sufficient quantity of NH3 to force the reaction between NOx and NH3, whereby NH3 emissions are eliminated and net NOx conversion improved. 26. The emission control system of claim 24, wherein the lean NOx trap comprises a precious metal selected from the group consisting of platinum, palladium, rhodium and combinations thereof; and a NOx storage material selected from the group consisting of alkali metals, alkali earth metals, rare earth metals and combinations thereof. 27. The emission control system of claim 24, wherein the lean NOx trap comprises platinum. 28. The emission control system of claim 24, wherein the lean NOx trap comprises a composite of cerium and zirconium. 29. An emission control system for controlling NOx and NH3 emissions from an exhaust stream produced by the combination of an air/fuel mixture in an internal combustion engine, the system comprising: a lean NOx trap in communication with the exhaust stream for NOx reduction, to provide a NOx reducing exhaust stream including NOx and NH3, wherein the lean NOx trap is optimized for NH3 generation by minimizing oxygen storage capacity; and a NH3-SCR catalyst in communication with the exhaust stream for adsorbing NH3, wherein the NH3 adsorbed by the NH3-SCR catalyst reacts with NOx in the NOx reduced exhaust stream to improve the reduction of NOx and NH3.
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