SU1074574A1 - Method of cleaning gas from hydrogen sulphide and sulphur dioxide - Google Patents

Abstract

A METHOD FOR CLEANING GAS FROM HYDROGEN AND SULFUR BIOXIDE by reacting these impurities in the absorption solution - polyethylene glycol when heated in the presence of a catalyst to form elemental sulfur, characterized in that, in order to reduce the corrosivity of the process, diethanolamine in an amount of 0 / 1- is introduced into the absorption solution. 1.5 wt.%.

Description

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The invention relates to gas purification processes for hydrogen sulfide and sulfur dioxide and can be used in Claus processes and other processes for the production of elemental sulfur.

A known method of gas purification by reacting hydrogen sulfide with sulfur dioxide in the presence of a catcher with the formation of elementary sulfur 1.

The disadvantage of this method is the high corrosivity of the process.

The closest to the invention in its technical essence and the achieved result is a method of purifying gas from hydrogen sulphide and sulfur dioxide, which consists in the interaction of these impurities in a solution of polyethylene glycol with heating, in the presence of a catalyst, with the formation of sulfur 2.

The disadvantage of this method is the high corrosiveness of the process (the corrosion rate is up to 10.6 mm per year), due to thermal decomposition and oxidation of the solvent and the formation of polythionic acids in the presence of water, which are highly corrosive agents.

The purpose of the invention is to reduce the corrosivity of the process.

This goal is achieved by the fact that according to the method of gas purification from hydrogen sulphide, and dioxide, by reacting said impurities, in the absorbing solution - polyethylene glycol, when heated in the presence of a catalyst to form elemental sulfur, diethanolamine is added to the absorption solution in an amount of 0.11, 5 wt.%.

The proposed method reduces the corrosion rate from 10 to 1.3-4 mm per year.

The protective effect of diethanolamine in this medium is based on the fact that it is adsorbed on the metal surface, forming a resistant protective film. Diethanolamine (DEA) is a stronger organic alkali than high molecular weight amines and therefore binds the active acidic components most efficiently. Diethanolamine is a catalyst for the main reaction between hydrogen sulfide and sulfur dioxide and suppresses the side reaction of polythionic acids, reducing the aggressiveness of the environment. DEA at 130 ° C is thermally stable and does not react with elemental sulfur. The protective effect of DEA in the gas phase is based on its relatively high volatility under these conditions, the DEA is partially carried away with the gas and condenses on the walls of the apparatus, also forming a protective film.

An example. In a column filled with a ceramic nozzle, steel samples are placed in the liquid and vapor phase. A gas of composition /%: n, jS 1 is passed through the column; SO 0.5; 25; CO 40. Working solution - polyethylene glycol containing potassium benzoate.

The table presents data on the degree of gas purification and corrosion rate for various additives in 0 working solution of diethanolamine.

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Claims (1)

METHOD FOR CLEANING GAS FROM HYDROGEN SULPHIDE AND SULFUR DIOXIDE by · interaction of these impurities in an absorption solution - polyethylene glycol when heated in the presence of a catalyst with the formation of elemental sulfur, characterized in that, in order to reduce the corrosivity of the process, diethanolamine is introduced in an amount of 0.1- 1.5 wt.%.