SU1143694A1 - Method of cleaning waste water from organic compounds - Google Patents

Abstract

METHOD OF SEWAGE WATER PURIFICATION FROM ORGANIC COMPOUNDS, including adsorption by a porous polymeric adsorbent and regeneration of the latter with an alkali solution, characterized in that, in order to eliminate waste in the wastewater treatment process, production of p-chlorobenzenesulfamide and simplify the process, regeneration is carried out, 18-20 % alkali solution at 70-80 ° C.

Description

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The invention relates to methods for the treatment of industrial wastewater and can be used in the field of environmental protection: in particular, in the treatment of wastewater from the production of p-chlorobenzenesulfamide.

A known method of purification of wastewater from organic compounds by sorption followed by sorption of the sorbent, in which macroporous styrene-divinylbenzene copolymer is used as the sorbent, followed by regeneration with an alkali alcohol solution l.

The disadvantages of this method are the complexity of the regeneration flowchart due to the presence of a volatile organic solvent in the process, the solvent stripping stage and the recovery stage of absorbed BemectB from the regeneration solutions.

The closest to the proposed technical essence and the achieved effect is the method of purification of wastewater from the production of nitrobenzene, including the fact that Polysorb 40/100 or 30/100 is used as an adsorbent, and regeneration is carried out with a polymeric organic solvent and / or alkali solution . The degree of wastewater treatment by a known method of 90%. 2J.

The disadvantages of this method are the complexity of the regeneration flowchart, the presence of bottoms and the stage of their combustion, the use of organic solvent in the regeneration process, which complicates the requirements for occupational safety. All this makes it impossible to create waste-free technology for wastewater treatment.

The aim of the invention is to eliminate waste in the process of wastewater treatment produced by II-chlorobenzenesulfamide and simplify the process.

This goal is achieved by a method of purifying wastewater from organic compounds, including adsorption by a porous polymeric adsorbent and regeneration of the latter with an 18-20% alkali solution at 70-80 ° C.

The technology of the method is as follows

Wastewater from the production of i-hlobenzosulfamida with a content of 1.8 g / l of p-chlorobenzenesulfamide is passed through a vertical column filled with a porous polymeric adsorbent Polysorb 40/100 with a speed of 1. The volume of the adsorbent in the column is 2.16 "10 m. The column is equipped with heating. The process is carried out until breakthrough into the filtrate of 4 mg / ln-chlorobenzenesulfamide, which corresponds to the MPC of this substance. Just before the breakthrough through the column pass 5 liters of wastewater. The degree of wastewater treatment is 99.8%.

The adsorbent is regenerated by filtering through the adsorbent 500 ml of 20% alkali with a supply rate of 0.5. The alkali solution with the desorbed substance is used as an intermediate in the production of monochloramine. Then the column is washed with 500 ml of water. The obtained washing waters with an alkali concentration of 10% are used in the process when monochloramine is obtained from P-chlorobenzenesulfamide.

Then the waste water is filtered through a regenerated adsorbent until the filtrate has a concentration of 4 mg / ln-chlorobenzenesulfamide. The volume of the effluent discharged is noted and the adsorbent capacity for i-chlorobenzene sulfamide is calculated.

Example 1. Waste water with a content of 1.8 g / l of p-chlorobenzene sulfamide is passed through a vertical column filled with 40/100 adsorb with a speed of 1. Process. Lead before slipping into the filtrate

4 mg / l of p-chlorobenzene sulphamide. Just 5 liters of waste water is passed through before the breakthrough. The regeneration of the adsorbent is carried out by filtering through the adsorbent 500 ml of 20% alkali at a temperature of about 0.5 feed rate. In this mode,

5 cycles adsorption-regeneration. The degree of wastewater treatment is 99.8%, the sorption capacity of polysorb is 13.8-14.4 wt.%, The degree of regeneration of polysorb is 100%.

Example 2. The process is carried out as in Example 1. The regeneration is carried out at. The degree of wastewater treatment is 99.8%, the sorption capacity of polysorb is 13.814, 0 wt.%, The degree of regeneration of polysorb is 100%.

Example. 3. The process is carried out as in Example 1. The regeneration is carried out at 60 ° C. The degree of sewage treatment is 99.8%, the sorption capacity of a polysorb is 11.713 .8 wt.%, The degree of regeneration of a polysorb is 85-93%.

Example 4. The process is carried out as in example 1. The regeneration is carried out at 75 ° C with an alkali with a concentration of 18%. The degree of wastewater treatment is 99.8%, the sorption capacity of polysorb is 13.813 .9 wt.%, The degree of regeneration of polysorb is 100%.

Example 5. The process is carried out as in example 1. Regeneration

carried out with alkali with a concentration of 16%. The degree of wastewater treatment is 99.8%, the sorption capacity of the polysorb is 12.4-13.8 wt.%, The degree of regeneration of the polysorb is 9095%,

The table shows the data on the effectiveness of the proposed method, depending on the alkali concentration and the temperature at which the regeneration stage is carried out.

As follows from the above data, the degree of purification of wastewater containing AND-chlorobenzenesulfamide is 99.8%. The proposed alkali concentration range (18–20%) is chosen from the process conditions that ensure the complete restoration of the adsorption capacity with a high degree of purification. At the alkali concentration below, for example, at 16%, the adsorbent is not fully regenerated - the degree of regeneration of polysorb in the third cycle (experiment 5) is 90%, while the sorption capacity drops from 13.8 to 12.4 wt.%. The use of alkali with a concentration higher than that proposed is uneconomical, since the use of 20% alkali makes it possible to completely restore the initial capacity of the adsorbent.

It follows from the presented data that the proposed regeneration temperature range corresponds to the complete restoration of the capacity of the adsorbent with the minimum energy consumption for heating. Carrying out regeneration at a temperature below the proposed limit.

For example, when, it does not ensure complete recovery of the capacity of the adsorbent — the degree of regeneration of the polysorb in the third cycle (experiment 3) is 85%, the sorption capacity drops to 11.7 wt%. Carrying out the regeneration at a temperature higher than the one proposed is not rational, since the completeness of the regeneration of the polysorb is reached already at 80 s.

The elimination of waste during the purification process is due to the fact that the spent regeneration solution, which is the sodium salt of p-chlorobenzenesulfamide,. It is directly used in production as a semi-product in the preparation of monochloramine, and the washings — an alkali with a concentration of 10% — are used to produce the sodium salt of the h-chlorobenzene sulfamide in the process.

The simplification of the process consists in eliminating from the scheme the use of an organic solvent and its distillation, burning the bottom residue, and removing the desorbed substance. In addition, the elimination of explosive and volatile organic solvents from the process flow diagram improves working conditions.

The technical and economic efficiency of the proposed method is due to the fact that with a high degree of purification (99.8%) and a 100% degree of regeneration of the sorbent production waste is completely eliminated and the cleaning process is greatly simplified.

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13.8 14.0

100 13.8 100

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Claims (1)

METHOD FOR WASTE WATER PURIFICATION FROM ORGANIC COMPOUNDS, including adsorption by a porous polymer adsorbent and regeneration of the latter with an alkali solution, characterized in that, in order to exclude wastes during wastewater treatment in the production of η-chlorobenzenesulfamide and simplify the process, regeneration is carried out, 18-20% - alkaline solution at 70-80 ° C. (Ζ with os X