Results of application of porous permeable SHS catalytic blocks in multistage converters, 
 diesel exhaust gases

Abstract

BACKGROUND: According to the statements of leading experts in the diesel industry, in order to introduce standards for the levels of harmful emissions into the atmosphere, it is necessary to use particulate filters and catalytic converters, which will increase the efficiency of exhaust gas conversion and improve the environmental performance of diesel engines.
 AIMS: Educing harmful emissions into the atmosphere, improving the quality and reducing the cost of cleaning exhaust gases during the implementation of the life cycles of transport energy facilities by using porous SHS blocks in catalytic converters and particulate filters.
 METHODS: Stand tests of prototypes of neutralizers of the AltSTU design with one, two and three stages of purification were carried out. The first stage is a particulate filter made of porous permeable SHS material, the second stage is an oxidizing SHS block, the third stage is a catalytic reducing SHS block. To obtain catalytic blocks by the SHS method, the following charge composition was used: iron scale 18X2H4MA -47.5%; chromium oxide PH-1 according to TU 882-76 17.7%; nickel powder PNK-OT-1 according to GOST 9722-79 4.9%; aluminum powder according to TU 485-22-87 grade ASD-1 15%, copper 11%; aluminum oxide 3.8%; iridium 0.01%. The charge of the recovery unit consisted of 14.5% copper. The resulting blocks had a permeable structure and high strength. The average pore size was 180 microns. Neutralizers were installed butt-to-butt with a turbocharger.
 RESULTS: It was revealed that NOx emissions according to the load characteristic of the KamAZ-740 diesel engine at 2600 min-1 decrease at average effective pressures Pe equal to 0.03; 0.55; 0.77 MPa from 3.82...11.62...9.49 g/m3, respectively, to 3.23...6.52...4.61 g/m3 or approximately 13...44...53%. Reduction of emissions of solid particles at the same loads was 75; 45; 63%, of hydrocarbons 72; 53; 54%. The minimum specific fuel consumption was observed in the range of 1600...2000 min-1 according to the external speed characteristic. When using a neutralizer with two catalytic units installed in series, emissions from hydrocarbon exhaust decreased from 3.12...1.21 to 0.90...0.29 g/m3, or by 71...76%. The degree of CO conversion was 78...73%; NOx 4...52%, and the total purification coefficient was a coaxial installation of additional blocks made of SHS-catalytic materials has led to an improvement in the quality of cleaning up to =0,698. Over 360 hours of operation, the efficiency of PM conversion decreased from 55 to 45%, CO from 58 to 46%, NOx from 65 to 44%, which indicated the beginning of deactivation of catalysts.
 CONCLUSIONS: The use of multi-stage neutralizers with SHS-catalytic units can reduce emissions of hydrocarbons by 1.95 times, carbon monoxide by 3.6 times, nitrogen oxides by 2 times, solid particles by 3 times, ensuring compliance with Russian standards.