Emissions treatment system with ammonia-generating and SCR catalysts
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-050/00
B01D-047/00
B01D-053/94
F01N-003/035
F01N-003/08
F01N-003/20
F01N-003/10
F01N-013/02
출원번호
US-0750001
(2010-03-30)
등록번호
US-9662611
(2017-05-30)
발명자
/ 주소
Wan, Chung-Zong
Zheng, Xiaolai
Stiebels, Suzanne
Wendt, Claudia
Neubauer, Torsten
Boorse, R. Samuel
출원인 / 주소
BASF Corporation
대리인 / 주소
Womble Carlyle Sandridge & Rice, LLP
인용정보
피인용 횟수 :
0인용 특허 :
46
초록▼
Provided are emissions treatment systems for an exhaust stream having an ammonia-generating component, such as a NOx storage reduction (NSR) catalyst or a lean NOx trap (LNT) catalyst, and an SCR catalyst disposed downstream of the ammonia-generating catalyst. The SCR catalyst can be a molecular sie
Provided are emissions treatment systems for an exhaust stream having an ammonia-generating component, such as a NOx storage reduction (NSR) catalyst or a lean NOx trap (LNT) catalyst, and an SCR catalyst disposed downstream of the ammonia-generating catalyst. The SCR catalyst can be a molecular sieve having the CHA crystal structure, for example SSZ-13 or SAPO-34, which can be ion-exchanged with copper. The LNT can be layered, having an undercoat washcoat layer comprising a support material, at least one precious metal, and at least one NOx sorbent selected from the group consisting of alkaline earth elements, rare earth elements, and combinations thereof and a top washcoat layer comprising a support material, at least one precious metal, and ceria in particulate form, the top washcoat layer being substantially free of alkaline earth components. The emissions treatment system is advantageously used for the treatment of exhaust streams from diesel engines and lean burn gasoline engines.
대표청구항▼
1. A emissions treatment system for an exhaust stream of a diesel engine or a lean bum gasoline engine comprising: an in-situ ammonia-generating component; and an SCR catalyst disposed downstream of the ammonia-generating component, wherein the SCR catalyst comprises a molecular sieve having the CHA
1. A emissions treatment system for an exhaust stream of a diesel engine or a lean bum gasoline engine comprising: an in-situ ammonia-generating component; and an SCR catalyst disposed downstream of the ammonia-generating component, wherein the SCR catalyst comprises a molecular sieve having the CHA crystal structure having a mole ratio of silica-to alumina of from about 15 to about 256, wherein the ammonia-generating component comprises a lean NOx trap (LNT) catalytic material disposed on an upstream carrier that is a flow through monolith; where the lean NOx trap (LNT) catalytic material comprises an undercoat washcoat layer and a top washcoat layer, the top washcoat layer exhibiting better low temperature NOx abatement performance than the undercoat washcoat layer. 2. The emissions treatment system of claim 1, wherein the undercoat washcoat layer comprises a support material, at least one precious metal, and at least one NOx sorbent selected from the group consisting of oxides of magnesium, calcium, strontium, barium, lanthanum, cerium, praseodymium, neodymium, and combinations thereof wherein the undercoat washcoat layer is on the carrier; and the top washcoat layer comprises a support material, at least one precious metal, and ceria in particulate form, the top washcoat layer being substantially free of alkaline earth components. 3. An emissions treatment system for an exhaust stream, comprising: an ammonia-generating component that comprises a lean NOx trap (LNT) catalytic material disposed on a carrier, the catalytic material comprising: an undercoat washcoat layer comprising a support material, at least one precious metal, and at least one NOx sorbent selected from the group consisting of alkaline earth elements, rare earth elements, and combinations thereof wherein the undercoat washcoat layer is on the carrier; and a top washcoat layer comprising a support material, at least one precious metal, and ceria in particulate form, the top washcoat layer being substantially free of alkaline earth components; and an SCR catalyst disposed downstream of the ammonia-generating component, wherein the SCR catalyst comprises a molecular sieve having the CHA crystal structure disposed on a carrier. 4. The emissions treatment system of claim 3, wherein the SCR catalyst is effective to suppress a spike in ammonia below a predetermined limit. 5. An emissions treatment system for an exhaust stream, comprising: an ammonia-generating component that comprises a lean NOx trap (LNT) catalytic material disposed on a carrier, the catalytic material comprising: an undercoat washcoat layer comprising a support material, at least one precious metal, and at least one NOx sorbent selected from the group consisting of alkaline earth elements, rare earth elements, and combinations thereof wherein the undercoat washcoat layer is on the carrier; and a top washcoat layer comprising a support material, at least one precious metal, and ceria in particulate form, the top washcoat layer being substantially free of alkaline earth components; and an SCR catalyst disposed downstream of the ammonia-generating component, wherein the SCR catalyst comprises copper and a molecular sieve having the CHA crystal structure with a mole ratio of silica to alumina from about 15 to about 256 disposed on a carrier. 6. The system of claim 5, wherein the small pore molecular sieve comprises SSZ-13. 7. A method of converting NOx in an exhaust gas stream from a diesel engine or lean burn gasoline engine to N2 comprising: routing the exhaust gas stream through the emissions treatment system of claim 5, the method including: (a) contacting the exhaust gas stream comprising NOx in a lean period with the ammonia-generating component that is an LNT to sorb NOx from the exhaust gas stream; (b) periodically altering the air/fuel ratio of the exhaust stream to provide a rich gaseous stream during a rich period; (c) contacting the rich gaseous stream with the LNT to reduce a portion of the sorbed NOx to NH3 and sorbing NH3 on the SCR catalyst; and (d) subsequently reacting NH3 sorbed on the SCR catalyst with NOx in the exhaust gas with the SCR catalyst. 8. A method of converting NOx in an exhaust gas stream from a diesel engine or lean burn gasoline engine to N2 comprising: routing the exhaust gas stream through the emissions treatment system of claim 6, the method including: (a) contacting the exhaust gas stream comprising NOx in a lean period with the ammonia-generating component that is an LNT to sorb NOx from the exhaust gas stream; (b) periodically altering the air/fuel ratio of the exhaust stream to provide a rich gaseous stream during a rich period; (c) contacting the rich gaseous stream with the LNT to reduce a portion of the sorbed NOx to NH3 and sorbing NH3 on the SCR catalyst; and (d) subsequently reacting NH3 sorbed on the SCR catalyst with NOx in the exhaust gas with the SCR catalyst. 9. The system of claim 5, wherein said copper is present in said small pore molecular sieve in an amount of at least about 2.00 weight percent copper oxide.
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