RU2163836C2 - Method of removing hydrocarbons from industrial gas emissions - Google Patents

Abstract

FIELD: gas treatment. SUBSTANCE: gas emission is cleaned by air oxygen oxidation in presence of cement-containing catalyst composed of, wt %: manganese dioxide 20-40, copper oxide 20-30, nickel oxide 10-15, and talum - the balance. EFFECT: increased cleaning efficiency. 1 tbl

Description

 The invention relates to methods for cleaning exhaust gases from hydrocarbons and may find application in the refining, petrochemical and other industries.

 Known methods for the deep oxidation of hydrocarbons by atmospheric oxygen using various catalysts prepared both on the basis of expensive precious metals Pt and Pd, as well as cheaper transition metals (N.M. Popova, Catalysts for purifying gas emissions from industrial production. - M .: Chemistry, 1991 . - 175 p.).

 Closest to the proposed method in terms of technical nature and the achieved result is a method of deep oxidation of hydrocarbons in the presence of an industrial catalyst of the NTK-4 brand based on base metals - Cu, Cr, Zn (Pletneva E.V. et al. Catalytic oxidation of organic substances in gas emissions industrial production // Modern Chemical Chemical Engineering for Air Purification - Saratov, 1992. - P. 32 - 33).

The known method is implemented when passing gases containing hydrocarbons through the catalyst bed at a temperature of 300 ^o C, however, in this case, the oxidation depth does not exceed 95 - 97%.

 The disadvantage of this method is the low degree of purification.

 The aim of the present invention is to increase the degree of purification of exhaust gases from hydrocarbons.

The goal is achieved by the proposed method of purification of exhaust gases from hydrocarbons, which consists in the oxidation of the latter with atmospheric oxygen at a temperature of 280 - 300 ^o C in the presence of a cement-containing catalyst based on transition metals - Mn, Cu, Ni and characterized by the following chemical composition, wt.%:
manganese dioxide - 20 - 40
copper oxide - 20 - 30
nickel oxide - 10 - 15
talyum (high alumina technical cement TU 6-03-339-79) - the rest
The method is as follows.

The catalyst is loaded into the reactor, it is heated in a stream of air to 250 ^o C, after which a steam-air mixture of hydrocarbon is fed.

 Example.

A model vapor-air mixture (air and an oxidizable component) with a hydrocarbon concentration of 400-8200 mg / m ^{3 is} passed through a static layer of Mn, Cu, Ni-cement-containing catalyst (5 cm ³ ). At the outlet of the reactor, gases are analyzed by gas-liquid chromatography using a chromatographic column — 5% SE-30 on inertone.

 The catalyst was tested in operation for 100 hours, while its activity throughout this time remained constant.

Due to the presence of a cement component in the catalyst, the latter is characterized by very high strength (mechanical strength 270 kg / cm ² ), which contributes to an increase in its service life in industrial conditions.

 According to the proposed method, the degree of purification is increased to 100% against 95 - 97% with the known method; the process is not accompanied by destruction and entrainment of the catalyst due to the cement component (see table).

Claims (1)

The method of purification of exhaust gases from hydrocarbons by oxidation with atmospheric oxygen at 280 - 300 ^o C in the presence of a heterogeneous catalyst, characterized in that the process is conducted in the presence of a cement-containing catalyst of the following chemical composition, wt.%:
Manganese Dioxide - 20 - 40
Copper oxide - 20 - 30
Nickel oxide - 10 - 15
Talum - Else

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