SU996331A1 - Method for inhibiting hydrogen sulfide oxidation in solutions - Google Patents

Description

The invention relates to wastewater treatment, namely to the treatment of wastewater containing hydrogen sulfide. A known method of converting hydrosulfide ions HS and sulfide ions S ¹ to molecularly dissolved HjS by blowing water with flue gases containing. СО ^, or acidification with sulfuric or hydrochloric acid to pH £ 5 [1].

However, this method requires complex hardware design of anti-corrosion materials. In addition, when purging with flue gases, the removal of hydrogen sulfide into the atmosphere is possible.

Closest to the proposed technical essence and the achieved result is a method of inhibiting the oxidation of hydrogen sulfide in solutions by introducing anthraquinone. The process is carried out in a strong alkaline environment at a pH of 9-12. With a decrease in pH of 70-80%, hydrogen sulfide is oxidized to 'elemental sulfur of £ 23.

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

The purpose of the invention is to increase the degree of inhibition.

The goal is achieved in that according to the method of inhibiting the oxidation of hydrogen sulfide in solutions by introducing a reagent, carbamide is introduced as a reagent.

Urea is introduced in an amount of 0.20.3 g / L.

Example 1. In a solution containing 8 g / l of sulfuric acid and 50 mg / l of hydrogen sulfide, o, 02 _to g / l of urea is introduced. After two days, 18 mg / L of elemental sulfur was detected in the solution. Without the introduction of urea, 25 mg / L of elemental sulfur was found in the same solution.

Example 2. Into a solution of the composition of Example 1, 0.03 g / L of urea is introduced. After two days, 15 mg / L of elemental sulfur was detected in the solution.

Example 3. 0.2 g / l of urea are introduced into a solution containing 100 g / l of sulfuric acid, ZOOg / l of sodium sulfate, 160 mg / l of hydrogen sulfide and 20 mg / l of elemental sulfur and mixed in a closed vessel. After 4 hours, 44 mg / L of elemental sulfur was detected in the solution. Without the introduction of urea, 96 mg / L of elemental sulfur was found in the same solution and under the same conditions.

Example 4. In the solution of the composition according to example 3 injected 0.3 g / l of urea. After 4 hours, 38 mg / L of elemental sulfur was detected in the solution.

The invention allows to reduce the content of elemental sulfur in a solution by 2-3 times. In this case, the load on the filtering or flotation equipment for sulfur removal decreases correspondingly, as a result of which the required number of flotation apparatuses decreases or the operating time of the filters between their washes increases. At the same time, the work of all technological equipment is improving.

Claims (2)

399633 Example4. In a solution of the composition of Example 3, 0.3 g / l of urea is added. After 4 h, JB mg / L of elemental sulfur was found in the solution. The invention makes it possible to reduce the content of elemental sulfur in the solution by a factor of 2-3. This reduces the load on the filtering or flotation equipment, respectively. sulfur removal, resulting in a reduction in the required number of flotation devices or an increase in filter operation time between washes. At the same time, the work of all technological equipment is improved. 14 Claims i. The method of inhibiting the oxidation of hydrogen sulfide in solutions by introducing a reagent, is released by the fact that, in order to increase the degree of inhibition, urea is used as a reagent. 2. Method pop. 1, being dissociated and so that the carbamide is introduced in an amount of 0.2-0.3 g7l. Sources of information taken into account in the examination 1. Klko VA, Apeltsin I.E. Purification of natural waters. M., stroiizdat / 1971, p. 477. 2. USSR author's certificate No. 488792, cl. C 02 F 1/72, 1976.