Base metal activated rhodium coatings for catalysts in three-way catalyst (TWC) applications
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01J-023/00
B01J-023/02
B01J-023/08
B01J-023/10
B01J-023/40
B01J-023/42
B01J-023/70
B01J-023/74
B01J-021/04
B01D-053/94
B01J-023/89
B01J-035/04
B01J-023/20
B01J-023/63
B01J-027/232
B01J-035/00
출원번호
US-0732523
(2015-06-05)
등록번호
US-9579604
(2017-02-28)
발명자
/ 주소
Hatfield, Randal L.
Golden, Stephen J.
Ngo, Johnny T.
출원인 / 주소
Clean Diesel Technologies, Inc.
대리인 / 주소
Alston & Bird LLP
인용정보
피인용 횟수 :
0인용 특허 :
60
초록▼
Close-coupled catalysts (CCC) for TWC applications are disclosed. The novel CCCs are implemented using light-weighted ceramic substrates in which a thin coating employing a low loading of Iron (Fe)-activated Rhodium (Rh) material composition, with Iron loadings and an OSM of Ceria-Zirconia, are depo
Close-coupled catalysts (CCC) for TWC applications are disclosed. The novel CCCs are implemented using light-weighted ceramic substrates in which a thin coating employing a low loading of Iron (Fe)-activated Rhodium (Rh) material composition, with Iron loadings and an OSM of Ceria-Zirconia, are deposited onto the substrates. Different CCC samples are produced to determine and/or verify improved light-off (LO) and NOX conversion of the CCCs. Other CCC samples produced are a CCC including a standard (non-activated) Rh thin coating and a heavily loaded CCC with a single coating of Pd/Rh material composition. The CCC samples are aged under dyno-aging using the multi-mode aging cycle and their performance tested using a car engine with ports on the exhaust to measure the emissions, according to the testing protocol in the Environmental Protection Agency Federal Test Procedure 75. During testing, the thin coatings of Fe-activated Rh exhibit improved light-off and NOx conversion efficiency.
대표청구항▼
1. A catalytic system comprising: a ceramic substrate coated with Fe-activated Rh at a loading of about 90 g/L. 2. The catalytic system of claim 1, wherein the Fe-activated Rh is supported on a OSM comprising one selected from the group consisting of Cc, Zr, Nd, Pr, Y, and combinations thereof. 3. T
1. A catalytic system comprising: a ceramic substrate coated with Fe-activated Rh at a loading of about 90 g/L. 2. The catalytic system of claim 1, wherein the Fe-activated Rh is supported on a OSM comprising one selected from the group consisting of Cc, Zr, Nd, Pr, Y, and combinations thereof. 3. The catalytic system of claim 1, wherein the Fe is present at about 7% (w/w). 4. The catalytic system of claim 1, wherein the Rh is present at less than about 0.5% (w/w). 5. A catalytic system comprising: a ceramic substrate coated with Fe-activated Rh;wherein the Rh loadings are from about 1 g/ft3 to about 20 g/ft3 and the Fe loadings are from about 1 g/ft3 to about 20 g/ft3; andwherein the Fe-activated Rh is supported on a OSM. 6. The catalytic system of claim 5, wherein the Rh loadings are about 3 g/ft3. 7. The catalytic system of claim 5, wherein the Fe loadings are less than about 7 g/ft3. 8. The catalytic system of claim 5, wherein the Fe is present at about 7% (w/w). 9. The catalytic system of claim 5, wherein the Rh is present at less than about 0.5% (w/w). 10. The catalytic system of claim 5, wherein the OSM comprising one selected from the group consisting of Ce, Zr, Nd, Pr, Y, and combinations thereof. 11. The catalytic system of claim 5, wherein the OSM comprising a Ce—Zr oxide. 12. The catalytic system of claim 5, wherein the OSM comprising a Ce—Zr oxide having a fluorite phase. 13. The catalytic system of claim 5, wherein the Fe-activated Rh is applied at a loading of less than about 10 g/ft3. 14. The catalytic system of claim 5, wherein the Fe-activated Rh is applied at a loading of greater than about 3 g/ft3.
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