RU2021124064A - CATALYTIC SYSTEM AND METHOD FOR CATALYTIC COMBUSTION OF AMMONIA TO NITROGEN OXIDES IN A MEDIUM PRESSURE UNIT - Google Patents

Claims (14)

1. Catalytic system for the catalytic combustion of ammonia to nitrogen oxides in a medium-pressure plant, with a plurality of catalytic mesh layers (6, 7) woven or crocheted from wire based on the precious metal platinum, which, arranged one behind the other in the direction (5) flow of fresh gas, form a catalyst packing (4), characterized in that the catalyst packing consists of a front assembly with three catalyst gauzes having a first average surface density, and located behind the front ensemble, the downstream ensemble of catalyst mesh layers having the second average surface density, and the average surface density of the front ensemble is less than the second average surface density by 1.5-29%, and the fact that the first average surface density lies in the range from 410 to 530 g/m ² , and the second average surface density in range from 540 to 790 g/m ² . 2. Catalyst system according to claim 1, characterized in that the weight reduction is not more than 25%. 3. Catalyst system according to claim. 1 or 2, characterized in that the first average surface density lies in the range from 415 to 510 g/m ² and the second average surface density in the range from 575 to 710 g/m ² . 4. Catalyst system according to one of the preceding claims, characterized in that the network layers of the catalyst of the forward and downstream ensembles are made of precious metal wire having the same thickness, and in that the network layers of the catalyst of the forward ensemble consist of a crocheted knitted structure with a first knitted weave and a first stitch size, or a woven structure with a first knitted weave and a first stitch size, or a knitted knitted structure with a first knitted weave and a first stitch size, and the net catalyst layers of the lower ensemble are composed of a crochet knitted structure with a second knitted weave and a second stitch size, or from a woven structure with a second weave and a second stitch size, or from a knitted knitted structure with a second knitted weave and a second stitch size, the first stitch size being larger than the second time loop measure. 5. The catalytic system according to one of the preceding claims, characterized in that the individual surface density of the network layers of the catalyst of the forward ensemble is constant or increases sequentially in the direction of flow of fresh gas. 6. The catalytic system according to one of the preceding claims, characterized in that the network layers of the catalyst of the forward and downstream assemblies consist of platinum and rhodium. 7. Catalyst system according to one of the preceding claims, characterized in that the catalytic mesh layers (6; 7) comprise a front group (7) of mesh layers with one mesh layer or several mesh layers of a first rhodium-rich precious metal wire, and behind the front group, downstream a group (6) of mesh layers of a second rhodium-poor metal wire, wherein the mesh layer (7) or one of the mesh layers of rhodium-rich metal wire forms a front mesh layer (7) facing fresh gas, and wherein the rhodium content of the rhodium-rich precious metal wire is greater than or equal to 7% by weight and does not exceed 9% by weight, and at least 1 percentage point higher than the rhodium content of the rhodium-poor precious metal wire. 8. Catalyst system according to claim 7, characterized in that the proportion of rhodium in the rhodium-poor precious metal wire is between 4 and 6% by weight. 9. The catalytic system according to claim 7 or 8, characterized in that the proportion of rhodium in the rhodium-rich precious metal wire is from 7.8 to 8.2 wt.%, and the proportion of rhodium in the rhodium-poor precious metal wire is from 4 .8 to 5.2% by weight. 10. The catalytic system according to one of paragraphs. 7-9, characterized in that the weight fraction of the front group of mesh layers (7) is less than 30%, preferably less than 25% and particularly preferably less than 20% of the total weight of the catalyst packing (4). 11. The catalytic system according to one of paragraphs. 7-10, characterized in that the front group contains a maximum of three mesh layers (7). 12. The catalytic system according to one of paragraphs. 7-11, characterized in that the front group of mesh layers (7) is formed from the frontmost mesh layer (7). 13. The catalytic system according to claim 12, characterized in that the most forward mesh layer (7) is laid on the mesh layers (6) of the downstream group. 14. Method for the catalytic combustion of ammonia to nitrogen oxides in a medium-pressure plant by passing fresh gas containing ammonia and oxygen through the catalytic system (2), while ammonia is burned, and fresh gas with an ammonia content of 9.5 to 12 vol.% under pressure in the range from 3.5 to 7 bar and the temperature of the catalyst grid in the range from 870°C to 920°C is carried out with a flow rate in the range from 6 to 16 tN/m ² ⋅day through the catalytic system (2) according to one of paragraphs . 1-13.