RU2308322C2 - Carbon monoxide oxidation catalyst - Google Patents

Abstract

FIELD: oxidation catalysts.

SUBSTANCE: invention relates to carbon monoxide oxidation catalysts suitable to remove carbon monoxide from emission gases. Catalyst according to invention contains cadmium telluride and indium antimonide at weight ratio 95:5.

EFFECT: increased activity and selectivity of catalyst.

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Description

The invention relates to catalysts for the oxidation of carbon monoxide (II), promising for the purification of exhaust gases from it.

Known catalysts for the oxidation of CO, containing in most cases the metals of the platinum group, or mixtures thereof with oxides of metals of variable valency (Mn, Fe, Cu, Cr, CO, etc.), or a mixture of metal oxides with bentonite clay (Patent RU No. 2156164. Catalyst oxidation of carbon monoxide / L.A. Voropanova, O.G. Lisitsyna, 2000), or metal alloys with rare-earth elements (Patent RU No. 2171712. Carbon monoxide oxidation catalyst / V.I. Kononenko, I.A. Chupova, V. G. Shevchenko et al., 2001).

The disadvantages of these catalysts are the complex composition, expensive feedstock, the complexity of manufacturing and high temperatures of the most noticeable catalytic conversion of CO.

The objective of the invention is to increase the activity and selectivity of the catalyst with respect to the oxidation reaction of carbon monoxide.

The specified technical result is achieved in that the catalyst for the oxidation of carbon monoxide, according to the claimed technical solution, contains cadmium telluride and indium antimonide in a mass ratio of 95: 5.

The catalyst, which includes cadmium telluride and indium antimonide, provides an increase in activity, which is manifested in an increase in the degree of conversion of CO by about 2.3 times and selectivity in the oxidation of CO: the main product is CO ₂ .

The catalyst is used in the oxidation reaction of carbon monoxide as follows. 1 g of catalyst is loaded into the reaction tube of a pulsed catalytic installation, and immediately before the process, it is activated at 200 ° C in an argon flow for 2 hours. After this, the reaction mixture is passed through the reaction tube with a fixed catalyst bed in the ratio CO: O ₂ = 1: 2 at a pressure of 1 atm. The carrier gas may be argon or air. The volumetric feed rate of the carrier gas is 1.5 l / h. The reaction is carried out in the temperature range of 20-250 ° C. Analysis of the reaction products is carried out chromatographically.

Studies have shown that when using the inventive catalyst, the main reaction product is CO ₂ .

The test results of the catalyst are shown in the table.

As can be seen from the table, the proposed catalyst composition CdTe: InSb = 95: 5 already at 100 ° C has a high activity (up to 82%) and selectivity (up to 100%) in the oxidation of carbon monoxide to CO ₂ .

The manufacturing technology of this catalyst is simple, and therefore, not laborious.

To obtain 1 g of the catalyst, 0.05 g and 0.95 g of fine powders of indium antimonide and cadmium telluride are thoroughly mixed and placed in a quartz ampoule. Then the ampoule is pumped to a residual pressure of ~ 0.13 Pa and sealed. A sealed ampoule with substances is heated in a furnace, vibrating, at 1000 ° C for 20 hours. The resulting catalyst is ground in an agate mortar to particles with a diameter of 1-1.5 mm.

Claims (1)

A carbon monoxide oxidation catalyst containing cadmium telluride and indium antimonide in a weight ratio of 95: 5.