SU1237242A1 - Method of cleaning waste gases from sulphur dioxide - Google Patents

Description

II

The invention relates to the absorption purification of waste gases from sulfur dioxide and can be used in chemical industry, energy, ferrous and nonferrous metallurgy.

The magnesite method of purification of gases from sulfur dioxide is known, based on the use of a suspension of magnesium sulfite crystallite hydrates in a sulfite bisulfite sulfate solution tj as an absorbent.

The main disadvantage of this method is the relatively small absorbance capacity of 0.2 mol / l sulfur dioxide absorbent. .

The closest to the proposed technical essence and the achieved result is the method of gas purification from sulfur dioxide using as an absorbent suspension of crystalline sulfite minium in a sulfite bisulfite sulfate solution containing, in addition, acetone or methyl ethyl ketone 2j. Organic matter binds magnesium bisulfite in a water-soluble complex, which increases the cleaning efficiency by reducing the equilibrium, vapor pressure of sulfur dioxide over the absorbent.

The main disadvantage of this method is the pollution of the exhaust gases with acetone (0.15-0.17 g / m) and its high consumption, which is the average production capacity of 1 ppm 1500 tons / g,

“The purpose of the invention is to prevent the flue gases from being contaminated with organic substances and to reduce their consumption.

This goal is achieved by the fact that according to the method of purifying waste gases from sulfur dioxide by absorption with an aqueous solution containing magnesium ions, in the presence of a complexing organic substance followed by regeneration of the absorbent with magnesium oxide, a complexing agent of 1.0-5 is used as a complexing agent , 0 mol / l.

When the concentration of levulinic acid is less than 1.0 mol / l, the cleaning efficiency is reduced due to an increase in the equilibrium vapor pressure of the bifluid impurity gas Order 3222/8

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sulfur oxide over the adsorbent, and the concentration of levulinic acid, 5.0 mol / l, corresponds to the limiting solubility of the magnesium levulinate formed in these conditions.

Levulic acid, proposed for use, is a by-product of the hydrolytic processing of wood waste and does not find general application in the national household.

Example. Gas containing 0.2% by volume of sulfur dioxide in the amount of 50 m / h is fed to the purification in one 5-unit suspension column with a movable ball packing. The gas velocity in the column is f M / S, the irrigation density is 40 m / m. The absorbent is an aqueous solution containing

 2.5 mol / l levulinic acid. When the pH of the solution at the inlet is 5.5, the gas purification rate is 99% for 5 cycles.

25 The spent absorbent is regenerated at a tank with a stirrer by adding magnesium oxide in an amount equivalent to absorbed sulfur dioxide. As a result of regeneration, a suspension of magnesium sulfite with a concentration of 521.5 g / l is studied.

Losses of levulinic acid with waste gases are practically absent.

JJ Example2. The absorbent is an aqueous solution containing 0.5 mol / l of magnesium levulinate, which corresponds to 1 mol / l of levulinic acid. Other conditions of experience

40 similar to example 1.

When the pH of the solution at the inlet is 5.5, the gas purification rate is 99% for 5 cycles.

Losses of levulinic acid with exhaust gases are practically absent.

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The invention minimizes the loss of levulinic acid organic reagent due to its low volatility.

The proposed method provides an economic effect, since it allows refusing the use of acetone and applying the production waste, levulinic acid.

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The invention minimizes the loss of levulinic acid organic reagent due to its low volatility.

The proposed method provides an economic effect, since it allows refusing the use of acetone and applying the production waste, levulinic acid.

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Claims (1)

METHOD FOR CLEANING EXHAUST GASES FROM SULFUR DIOXIDE by absorption with an aqueous solution containing magnesium ions in the presence of a complexing organic substance followed by regeneration of the absorbent with magnesium oxide, characterized in that, in order to prevent pollution of the exhaust gases with organic substances and reduce their consumption, as a complexing substance use levulinic acid with a concentration of 1.0-5.0 mol / L. e <o ω Yu SB to to