Exhaust inlet metallic foam trap coupled to a downstream monolithic precious metal catalyst
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-053/74
B01D-053/75
B01D-053/86
B01D-053/94
출원번호
UP-0316594
(2005-12-22)
등록번호
US-7521033
(2009-07-01)
발명자
/ 주소
Galligan, Michael Patrick
Dettling, Joseph Charles
출원인 / 주소
BASF Catalysts LLC
대리인 / 주소
Loeb, Bronwen M.
인용정보
피인용 횟수 :
0인용 특허 :
32
초록▼
The present invention is directed to an improved apparatus and method of minimizing catalyst poisoning from exhaust gas streams containing inorganic deposits and particulate matter. More specifically, the present invention is directed to an upstream metallic foam trap and a downstream monolithic pre
The present invention is directed to an improved apparatus and method of minimizing catalyst poisoning from exhaust gas streams containing inorganic deposits and particulate matter. More specifically, the present invention is directed to an upstream metallic foam trap and a downstream monolithic precious metal catalyst, wherein the trap physically blocks inorganic deposits and particulate matter from poisoning the downstream catalyst. The present invention is also directed to a metallic foam trap containing a coat comprising a first metallic thermal arc sprayed layer and optionally a second refractory metal oxide.
대표청구항▼
What is claimed is: 1. An exhaust treatment apparatus comprising: (a) an upstream metallic foam trap, wherein said metallic foam contains a coat comprising a metallic thermal arc sprayed layer and wherein a catalyst for the breakdown of exhaust gases is not employed on said metallic foam; and (b) a
What is claimed is: 1. An exhaust treatment apparatus comprising: (a) an upstream metallic foam trap, wherein said metallic foam contains a coat comprising a metallic thermal arc sprayed layer and wherein a catalyst for the breakdown of exhaust gases is not employed on said metallic foam; and (b) a downstream precious metal catalyst. 2. The exhaust treatment apparatus of claim 1, wherein said metallic thermal arc sprayed layer is selected from the group consisting of Ni, Ni/Al, Ni/Cr, Ni/Cr/Al/Y, Co/Cr, Co/Cr/Al/Y, Co/Ni/Cr/Al/Y, Fe/Al, Fe/Cr, Fe/Cr/Al, Fe/Cr/Al/Y, Fe/Ni/Al, Fe/Ni/Cr, 300 and 400 series stainless steels. 3. The exhaust treatment apparatus of claim 1, wherein said metallic foam is selected from the group consisting of stainless steel, titanium, Fecralloy, aluminum zirconate, aluminum titanate, aluminum phosphate, cordierite, mullite and corundum. 4. The exhaust treatment apparatus of claim 1, wherein said metallic foam is coated with said metallic thermal are sprayed layer and a refractory oxide layer. 5. The exhaust treatment apparatus of claim 4, wherein said refractory oxide layer includes one or more refractory oxides selected from the group consisting of alumina, gamma-alumina, titania, zirconia, zirconia-alumina, zirconia-titania, titania-alumina, lanthana-alumina, baria-zirconia-alumina, niobia-alumina, and silica-leached cordierite. 6. An exhaust treatment apparatus comprising: (a) an upstream Fecralloy foam trap, wherein a catalyst for the breakdown of exhaust gases is not employed on said metallic foam; and (b) a downstream precious metal catalyst. 7. The exhaust treatment apparatus of claim 6, wherein said metallic foam is coated with a metallic thermal arc sprayed layer. 8. The exhaust treatment apparatus of claim 7, wherein said metallic thermal arc sprayed layer is selected from the group consisting of Ni, Ni/Al, Ni/Cr, Ni/Cr/Al/Y, Co/Cr, Co/Cr/Al/Y, Co/Ni/Cr/Al/Y, Fe/Al, Fe/Cr, Fe/Cr/Al, Fe/Cr/Al/Y, Fe/Ni/Al, Fe/Ni/Cr, 300 and 400 series stainless steels. 9. The exhaust treatment apparatus of claim 8, wherein said metallic thermal arc sprayed layer is coated with a refractory oxide layer, wherein said refractory oxide layer includes one or more refractory oxides selected from the group consisting of alumina, gamma-alumina, titania, zirconia, zirconia-alumina, zirconia-titania, titania-alumina, lanthana-alumina, baria-zirconia-alumina, niobia-alumina, and silica-leached cordierite. 10. An exhaust treatment apparatus comprising: (a) an upstream metallic foam trap said foam trap containing at least one perforated skewed channel therethrough; and (b) a downstream precious metal catalyst. 11. The exhaust treatment apparatus of claim 10, wherein said metallic foam is selected from the group consisting of stainless steel, titanium, Fecralloy, aluminum zirconate, aluminum titanate, aluminum phosphate, cordierite, mullite and corundum. 12. The exhaust treatment apparatus of claim 11, wherein said metallic foam trap is a Fecralloy foam trap. 13. The exhaust apparatus of claim 10, wherein said metallic foam trap is coated with a metallic thermal arc sprayed layer selected from the group consisting of Ni, Ni/Al, Ni/Cr, Ni/Cr/Al/Y, Co/Cr, Co/Cr/Al/Y, Co/Ni/Cr/Al/Y, Fe/Al, Fe/Cr, Fe/Cr/Al, Fe/Cr/Al/Y, Fe/Ni/Al, Fe/Ni/Cr, 300 and 400 series stainless steels. 14. The exhaust treatment apparatus of claim 13, wherein said metallic foam is coated with said metallic thermal arc sprayed layer and a refractory oxide layer. 15. The exhaust treatment apparatus of claim 14, wherein said refractory oxide layer includes one or more refractory oxides selected from the group consisting of alumina, gamma-alumina, titania, zirconia, zirconia-alumina, zirconia-titania, titania-alumina, lanthana-alumina, baria-zirconia-alumina, niobia-alumina, and silica-leached cordierite. 16. A method of minimizing poisoning of small engine exhaust catalysts, said method comprising: (a) providing an exhaust flow apparatus comprising: (i) an upstream metallic foam trap containing a coat comprising a metallic thermal arc sprayed layer, wherein said trap physically traps exhaust stream components, which may be poisonous to downstream precious metal catalysts; and (ii) at least one downstream precious metal catalyst for breaking down exhaust gases; and (b) directing the engine exhaust stream through said apparatus. 17. The method of claim 16, wherein said metallic foam is selected from the group consisting of stainless steel, titanium, Fecralloy, aluminum zirconate, aluminum titanate, aluminum phosphate, cordierite, mullite and corundum. 18. The method of claim 16, wherein said metallic foam trap is coated with a metallic thermal arc sprayed layer selected from the group consisting of Ni, Ni/Al, Ni/Cr, Ni/Cr/Al/Y, Co/Cr, Co/Cr/Al/Y, Co/Ni/Cr/Al/Y, Fe/Al, Fe/Cr, Fe/Cr/Al, Fe/Cr/Al/Y, Fe/Ni/Al, Fe/Ni/Cr, 300 and 400 series stainless steels. 19. The method of claim 18, wherein said metallic thermal arc sprayed layer is coated with a refractory oxide layer, wherein said refractory oxide layer includes one or more refractory oxides is selected from the group consisting of alumina, gamma-alumina, titania, zirconia, zirconia-alumina, zirconia-titania, titania-alumina, lanthana-alumina, baria-zirconia-alumina, niobia-alumina, and silica-leached cordierite. 20. The method of claim 16, wherein a catalyst for the breakdown of exhaust gases is not employed on said metallic foam.
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