THREE WAY CATALYST HAVING AN NH3-SCR ACTIVITY, AN AMMONIA OXIDATION ACTIVITY AND AN ADSORPTION CAPACITY FOR VOLATILE VANADIUM AND TUNGSTEN COMPOUNDS

Abstract

Three way catalyst having an NH.sub.3-SCR activity, an ammonia oxidation activity and an adsorption capacity for volatile vanadium and tungsten compounds volatilized off an upstream SCR active catalyst.

Claims

1. Three way catalyst having an NH3-SCR activity, an ammonia oxidation activity and an adsorption capacity for volatile vanadium and tungsten compounds volatilized off an upstream SCR active catalyst, the three way catalyst comprising high surface compounds selected from high surface metal oxides, zeolites, silica, non-zeolite silica alumina, and mixtures thereof.

2. The three way catalyst of claim 1, wherein the three way catalyst comprising a bottom layer comprising platinum, alumina and/or titania and optionally palladium coated on a substrate or partly or entirely forming the substrate and a top layer comprising oxides of vanadium, tungsten and titanium admixed with at least one of a high surface coria, alumina, silica, zirconia, non-zeolite silica alumina and zeolite.

3. The three way catalyst of claim 2, wherein the top layer has layer thickness of between 40 ?m and 250 ?m.

4. The three way catalyst of claim 2, wherein the bottom layer has a layer thickness of between 5 ?m and 450 ?m.

5. The three way catalyst of claim 2, wherein the top layer has a porosity of between 20% and 80%.

6. The three way catalyst according to claim 1, wherein the three way catalyst is coated on a substrate with a flow through monolith shape.

7. The three way catalyst according to claim 2, wherein the amount of the top layer in the three way catalyst is between 50 to 500 g per liter of the substrate.

8. The three way catalyst according to claim 2, wherein the amount of the bottom layer in the three way catalyst is between 5 and 255 g per liter of the substrate.

9. The three way catalyst according to claim 2, wherein the bottom layer of the three way catalyst contains 0.0018 g-0.35 g platinum and/or palladium per liter of the substrate.

10. The three way catalyst according to claim 2, wherein top layer of the three way, catalyst comprises per liter of the flow through monolith 1.0 g-20 g vanadium pentoxide, 3 g-40 g tungsten oxide, 40 g-460 g titania, and 0 g-86 g silica, 0-86 g ceria, 0 g-86 g alumina, 0 g-86 g non-zeolite silica alumina and 0 g-86 g of a zeolite.

Description

[0031] FIG. 1 displays the NOx conversion, together with the outlet concentrations of NOx, N.sub.2O, and N.sub.2. The performance under these conditions in NH.sub.3-SCR is documented by a conversion of about 50-60% in the temperature range of interest (250-400? C.) with a low yield of N.sub.2O and a high yield of N.sub.2. FIG. 1 shows NOx conversion for NH3-SCR and outlet concentrations of NOx, N2, and N2O for a Pt/VW-oxide based monolith three way catalyst, using a feed of 250 ppm NOx, 300 ppm NH3, 12% O2, and 4% water in nitrogen at a space velocity of 100000 h.sup.?1.

[0032] FIG. 2 shows the conversion of ammonia, and selectivities to N2, NOx, N2O in the selective oxidation to ammonia. In the temperature range of interest (250-400? C), the ammonia is almost completely converted and the reaction product consists mainly of nitrogen. FIG. 2 shows NH.sub.3 conversion for selective oxidation of ammonia and selectivities to NOx, N.sub.2, and N.sub.2O for a Pt/VW-oxide based monolith three way catalyst, using a feed of 200 ppm NH.sub.3, 12% O.sub.2, and 4% water in nitrogen at a space velocity of 100000 h.sup.?1.

EXAMPLE 1

[0033] This example demonstrates the performance in NH.sub.3-SCR of a three way catalyst. The catalyst consists of Pt impregnated on a glass fiber paper based monolith that is reinforced with TiO.sub.2, on top of which a washcoat layer, containing vanadium and tungsten, titanium dioxide and silica, having NH.sub.3-SCR activity, is applied. The Pt content in the catalyst was 88 mg/l. The content of the SCR active washcoat layer was 197 g/l, of which 5% was silica. The catalyst was degreened at 550? C. for 1 hour prior to the performance test. The reactor feed gas consisted of 250 ppm NOx, of which less than 5% is present as NO.sub.2, 300 ppm NH.sub.3, 12% O.sub.2, and 4% water in nitrogen. The flow rate was adjusted to reach a space velocity of 100000 h.sup.?1, based on the monolith volume.

EXAMPLE 2

[0034] This example shows the performance of the three way catalyst, as characterized in Example 1, for selective oxidation of ammonia to reduce ammonia slip. The catalyst was degreened for 1 h at 550? C. The feed gas used in this measurement was 200 ppm NH3, 12% O2 and 4% water in nitrogen. The flow was adjusted to reach a space velocity of 100000 h-1 based on the monolith volume.