SU1629255A1 - Process for purification of effluents from sulfide dyes - Google Patents

Abstract

The invention relates to wastewater treatment methods by oxidation and can be used in textile industry plants containing sulfur dyes. The aim of the invention is to increase the degree of purification of wastewater from sulfur dyes and the disposal of dye contained in the sludge. The method is carried out by treating the waste water with air with the preliminary introduction of hydrogen peroxide and sodium sulfate and subsequent filtration. Moreover, the treatment with hydrogen peroxide ailment at 85-90 0f and sodium sulfate is introduced in such an amount that its concentration in the solution is 150-200 g / l. The proposed method allows, in comparison with the known method, to increase the degree of wastewater purification from sulfur dyes by 37%, as well as to obtain a dye with qualitative indicators that make it possible to reuse it for dyeing fabrics. 2 tab. with y

Description

The invention relates to methods for treating wastewater containing sulfur dyes by oxidation and can be used for treating wastewater from textile industry enterprises.

The purpose of the invention is to increase the degree of wastewater treatment and utilization of the dye contained in the sediment.

For carrying out the process, waste water containing sulfur dyes is / treated with hydrogen peroxide at

85-90 ° C, the metal salt is introduced and the dye is separated, and sodium sulfate is used as the metal salt, and the dye is separated at a concentration of this salt in a solution of 150-200 g / l.

Concentrated wastewater from the sour dye plant containing 32–36 g / l of sulfur black dye, including its leuco form, 22–24 g / l of sodium sulfide, 27–29 g / l of sodium thiosulfate, 6–7 g / l of sodium hydroxide 2-3 g / l of sodium chloride & Yu

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and 0.3-0.4 g / l of sufoxide, is loaded into a tank equipped with a jacket for heating with steam and a bubbler for supplying air.

A 34% solution of hydrogen peroxide in an amount of 10 ml pa of 1 l of wastewater and sodium sulfate in an amount of 48-100 g per

1 liter of wastewater, which, taking into account NaaS04, is 10 ml per 1 liter of wastewater and 22-24 g / l fat when oxidized. sodium in the amount of 57.1 g / l, which is NaeS ---- and 27-29 g / l NafcSijp), results in a total concentration of this salt in the treated wastewater 150-200 g / l.

After adding hydrogen peroxide and sodium sulfate for 2 hours, the wastewater is flushed with air, maintaining the temperature in the tank at 85-90 ° C.

At the end of the bubbling, the contents of the tank are filtered under vacuum. The filtered dye is washed with water and fed to reuse, and the filtrate and wash water are treated to release crystalline sodium sulfate, most of which is returned to the dye. An excess of crystalline sodium sulfate is obtained as a marketable product. Purified water is returned to the fabric finishing process.

The residual content of the dye in the leukoform in the wastewater is 300–350 mg / l, which corresponds to a purification degree of 99.0–98.9%. The content of synthetic surfactants in the treated wastewater is 0.1-0.2 g / l. The composition of the regenerated dye,%: black sulfur dye 95-96, sodium sulfate 5-6.

The results of wastewater treatment by the proposed method are presented in table.1.

As follows from Table 1, a change in the concentration of sodium sulfate to a decrease in comparison with that indicated in the formula leads to a decrease in the degree of purification of wastewater from the dye.

Changing the concentration of sulfate in the downward direction increases the pollution of the released dye and, accordingly, deteriorates its quality., Example 1. Concentrated Christmas-tree waters of the sulphurous paint shop. Contents 32 g / l of black sulphide dye, 22 g / l

15

20

25

thirty

considering NagSO / i, which is formed during the oxidation of 20 g / l of NacS and 27 g / l, this results in a total concentration of this salt in the treated wastewater of 159 g / l.

After adding hydrogen peroxide and sodium sulfate for 2 hours, the wastewater is treated with airdrome, maintaining the temperature in the vessel at 85 ° C.

At the end of the bubbling, the contents of the tank are filtered under vacuum. The filtered dye is washed with water and fed for reuse, and the filtrate and washings are treated to liberate crystalline sodium sulphate, most of which is returned to the dye. An excess of crystalline sodium sulfate is obtained as a marketable product. The purified water is returned to the fabric finishing process.

The residual content of the dye in the filtrate is 350 mg / l, which corresponds to a purity of 98.9%.

The composition of the regenerated dye. %: black sulphurous dye 96, sodium sulfate 4.

Example 2. The method is carried out as in Example 1, the dyeing section at a sodium sulfate concentration of 200 g / l, for which 107.1 g / l of NaeSOSO is added to the waste water 45.

The residual content of the dye in the filtrate is 300 mg / l, which corresponds to a purity of 99%.

The composition of the regenerated dye is 50 l,% black sulfur dye 95, sodium sulfate 5.

Example 3. The method is carried out as in Example 1, the dyeing section at a sodium sulfate concentration of 175 g / l, for which 82.1 g / l of NagSO is added to the wastewater.

The residual content of the dye in the filtrate is 325 mg / l, which corresponds to a purity of 98.95%.

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40

55

sodium, 27 g / l sodium thiosulfate, 6 g / l sodium hydroxide, 2.3 g / l

sodium chloride and 0.3 g / l of sulfoxide, are loaded into a tank equipped with a jacket for heating with steam and a bubbler for air supply.

A 34% solution of hydrogen peroxide in an amount of 10 ml per 1 l of wastewater and sulphate is added to the wastewater. sodium in the amount of 57.1 g / l that

five

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five

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taking into account NagSO / i, which is formed during the oxidation of 20 g / l of NacS and 27 g / l, this results in a total concentration of this salt in the treated wastewater of 159 g / l.

After adding hydrogen peroxide and sodium sulfate for 2 hours, the wastewater is treated with airdrome, maintaining the temperature in the vessel at 85 ° C.

At the end of the bubbling, the contents of the tank are filtered under vacuum. The filtered dye is washed with water and fed for reuse, and the filtrate and washings are treated to liberate crystalline sodium sulphate, most of which is returned to the dye. An excess of crystalline sodium sulfate is obtained as a marketable product. The purified water is returned to the fabric finishing process.

The residual content of the dye in the filtrate is 350 mg / l, which corresponds to a purity of 98.9%.

The composition of the regenerated dye. %: black sulphurous dye 96, sodium sulfate 4.

Example 2. The method is carried out as in Example 1, the dyeing section at a sodium sulfate concentration of 200 g / l, for which 107.1 g / l of NaeSOSO is added to the waste water 5.

The residual content of the dye in the filtrate is 300 mg / l, which corresponds to a purity of 99%.

The composition of the regenerated dye is 0 L,% black sulfur dye 95, sodium sulfate 5.

Example 3. The method is carried out as in Example 1, the dyeing section at a sodium sulfate concentration of 175 g / l, for which 82.1 g / l of NagSO is added to the wastewater.

The residual content of the dye in the filtrate is 325 mg / l, which corresponds to a purity of 98.95%.

five

0

five

The composition of the regenerated dye,%: black sulfurous dye 95.5, sodium sulfate 4.5.

Example 4. The method is carried out analogously to example 1, the dyeing section at a sodium sulfate concentration of 125 g / l, for which 32.1 g / l is added to the wastewater.

The residual content of the dye in the filtrate is 140P g / l, which corresponds to a purification degree of 56%.

The composition of the regenerated dye. %: black sulfur dye 98, sodium sulfate 2.

Example 5. The method is carried out analogously to example 1, the dyeing section at a sodium sulfate concentration of 230 g / l, for which 137.4 g / l is added to the wastewater.

The residual content of the dye in the filtrate is 300.3 mg / l, which corresponds to a purity of 99.1%.

The composition of the regenerated dye,%: black sulfur dye 72, sodium sulfate 28.

Example 6. The method is carried out according to Example 1, but after adding hydrogen peroxide and sodium sulfate, the wastewater is treated with air for 2 hours, maintaining the temperature in the tank at 90 ° C.

The residual content of the dye in the filtrate is 351 mg / l, which corresponds to a degree of purification of 98.9%.

The composition of the regenerated dye,%: black sulfur dye 96, sodium sulfate 4.

Example 7 (by a known method). Concentrated wastewater from the shop of sulfur dyeing containing 32 g / l dye (including its leuco form), 22 g / l sulphide

sodium, 27 g / l sodium thiosulfate, 6 g / l sodium hydroxide, 2 g / l sodium chloride, and 0.3 g / l sulfoxide are loaded into a container.

28 mg / l and 400 mg / l FeSO3 are added to the wastewater.

The wastewater is then treated with lime to a pH of 8.4 and the precipitate formed is separated.

The degree of wastewater treatment is 58%, the residual dye content in the wastewater is 13.5 g / l.

The composition of the selected dye,%: black sulphurous dye 13.4, mineral impurities 9.66.

Comparative results are presented in table 2.

The use of the proposed method in comparison with the known one allows to increase the degree of wastewater purification from sulfur dyes by 37%, as well as to obtain a dye with qualitative indicators that make it possible to reuse it for dyeing fabrics.

Claims (1)

Invention Formula The method of sewage treatment from sulfur dyes, including the treatment with hydrogen peroxide, the introduction of metal sulphate and the separation of sediment, so that In order to increase the degree of wastewater treatment and utilize the dye contained in the sediment, hydrogen peroxide treatment is carried out at 85- 90 ° C and aeration, and sodium sulfate is used as metal sulfate at a concentration of this salt in a solution of 150-200 g / l. Indicators The values of the indicators when the concentration of NagSOf in solution Table 1 100 g / l 1 125 g / l J150 g / l И75 g / l J200 g / | 230 g / l J260 g / l table 2 Indicators G1 famous proposed Residual dye content in wastewater (mg / l 18,500 Degree of wastewater treatment,% 58 Composition of the regenerated dye,%: black sulphurous dye 13.4 mineral impurities9, 66 moisture 76.94 Cleaning method G1 300-350 98.90-99.00 95-96 5-4 2