Disclosure relates to a slip catalyst for reducing NO2 content in an exhaust train of an internal combustion engine flowed through by an exhaust gas flow, which has an oxidizing catalyst for the formation of NO2 and a particulate filter arranged downstream for binding carbon black particles and simu
Disclosure relates to a slip catalyst for reducing NO2 content in an exhaust train of an internal combustion engine flowed through by an exhaust gas flow, which has an oxidizing catalyst for the formation of NO2 and a particulate filter arranged downstream for binding carbon black particles and simultaneous and/or subsequent reaction of the same with NO2 formed on the oxidizing catalyst, having a substrate that is provided with a coating, which coating reduces a proportion of NO2 in the exhaust gas flow flowing through. The coating has at least two elements from the group of rare-earth metals, which are present in the coating in the form of a salt or an oxide or in an elementary form and in a concentration of more than 300.0 g/m3.
대표청구항▼
1. A slip catalyst for reducing a NO2 content in an exhaust train of an internal combustion engine flowed through by an exhaust gas flow, which has an oxidizing catalyst for the formation of NO2 and a particulate filter arranged downstream for binding carbon black particles and simultaneous and/or s
1. A slip catalyst for reducing a NO2 content in an exhaust train of an internal combustion engine flowed through by an exhaust gas flow, which has an oxidizing catalyst for the formation of NO2 and a particulate filter arranged downstream for binding carbon black particles and simultaneous and/or subsequent reaction of the same with NO2 formed on the oxidizing catalyst, comprising: a substrate that is provided with a coating, which coating reduces a proportion of NO2 in the exhaust gas flow flowing through,wherein the coating has at least two elements from the group of rare-earth metals, which are present in the coating in the form of a salt or an oxide or in an elementary form and in a concentration of more than 300.0 g/m3 to 50000.0 g/m3,wherein the coating contains barium and/or manganese and palladium and/or rhodium, and is essentially free of platinum. 2. The slip catalyst according to claim 1, wherein the coating has elements of the rare earth metals selected from the group comprising lanthanum, yttrium, cerium, neodymium and/or samarium. 3. The slip catalyst according to claim 1, wherein the coating has vanadium. 4. The slip catalyst according to claim 1, wherein the coating has a lower coating layer on which an upper coating layer containing the rare earth metals is deposited. 5. The slip catalyst according to claim 4, wherein the lower coating layer is composed essentially of aluminum oxide. 6. The slip catalyst according to claim 4, wherein the upper coating layer contains particles of crystalline silicon dioxide or a glass-like silicon dioxide phase, which particles on average are smaller than 100 nm. 7. The slip catalyst according to claim 1, wherein the substrate is formed from a ceramic material, in particular cordierite. 8. The slip catalyst according to claim 1, wherein the substrate is embodied with parallel channels, which extend from an inlet side to an outlet side of the substrate. 9. The slip catalyst according to claim 8, wherein in a plane perpendicular to the parallel channels the substrate has fewer than 250, preferably approx. 100 to 200, cpsi. 10. An exhaust train of an internal combustion engine, comprising an exhaust gas purification device flowed through by an exhaust gas flow, which device has an oxidizing catalyst and optionally a particulate filter, wherein a slip catalyst for the reduction of a NO2 content in the exhaust train flowed through by the exhaust gas flow is arranged downstream, wherein the slip catalyst is embodied according to claim 1. 11. The exhaust train according to claim 10, wherein in the radial direction, the slip catalyst has lateral plates that are impermeable to gas and on which the slip catalyst is held in a housing of the exhaust train. 12. The exhaust train according to claim 10, wherein a nozzle for the injection of hydrocarbons is arranged between the oxidizing catalyst or the particulate filter and the slip catalyst. 13. The slip catalyst according to claim 1, wherein the internal combustion engine is a diesel engine.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (7)
Tsuji Shinji,JPX, Catalyst for purifying exhaust gas and process for producing the same.
Kim Gwan (Olney MD) Ernest Michael V. (Catonsville MD), Stabilized and doubly promoted platinum group metal catalysts for emission control and method of making same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.