SU789427A1 - Method of waste water purification in aniline-paint industry - Google Patents

Description

(54) METHOD FOR CLEANING WASTE WATER ANILINO-COLORFUL

poymychlnnosti

The invention relates to the treatment of industrial wastewater with a high concentration of organic acid and acidic organic compounds that are difficult to contaminate, in particular waste water-paint industry.

A known method of cleaning waste 6od1 production gilanov dyes includes the following. The chemical treatment of wastewater with lime milk, sulfuric and nitric acids, again with lime yulok, iron sulphate, followed by biological treatment 1.

When cleaning the effluent by the indicated method, to ensure the required purification effect, industrial effluents are diluted 100-10 times with biological waste before biological treatment. The cost of cleaning is 1-2 rubles per 1 m.

The closest in technical essence and dostigaenyumu result to the proposed is a method for purifying wastewater anilnno-paint production vklyuchakhtsy chlorination, deodorizing air neytralizgschiyu, processing flocculation ntami, otstsshvanie and averaging clarified drain dvuhs tupenchatuyu byologicheskuyu cleaning and final processing wastewater flocculation ntagm and coagulant ntami. This method allows

5 to obtain purified water with KPK-Usbiologichesky oxygen demand (20-30 mg / l; VPKPoAN 200-300 mg / l, which allows it to be dumped into the reservoir during the flood period or pumped

10 to underground horizons 2.

The disadvantages of this method are the formation, as a result of chlorination of wastewater, of highly toxic chlorine derivatives of organic compounds that are poorly biochemically resistant, degradation, and 6onHiidff pacxofl reagents, leading to an increase in the mineralization of wastewater.

20 (the method's method does not solve the issue of complex wastewater treatment of aniline-colorful production up to the indicators that allow discharging treated wastewater into the reservoir without disturbing

25 nor its ecological regime or create an in-out production scheme.

The purpose of the invention is to increase the degree of purification of waste water aniline-krv

30 juicy production and their reuse in the technical system; water supply, The goal is achieved by the fact that according to the method of purification of industrial wastewater, having a high concentration of organic and mineral pollution, by neutralizing with an alkaline agent, settling; And a two-stage biological cleansing, the wastewater before neutralization is treated with excess-active sludge with its denaturation, and after neutralization and two-stage biological treatment, the waste water, purified from suspended matter, they are deeply cleaned successively by adsorption or ozonation, cleaning in a sectional biological pond with subsequent adjustment of the salt composition of purified water by ion exchange. Acidic wastewater treatment with excess activated sludge prior to neutralization leads to denaturation of the protein part (microorganism) of activated sludge by wastewater mineral acids and adsorption of denaturated sludge by flakes of a significant part of organic substances from wastewater. Wastewater after treatment with excess active sludge and settling is subjected to step neutralization with alkaline agent, subsequent removal and two-step biological treatment. A step neutralization creates favorable conditions for the formation of hypothesis crystals. Sediment after step neutralization and denatured activated sludge is well dehydrated, which makes it possible to increase the load on the filter-presen by a factor of 2-3. The second stage of biological wastewater treatment provides for the removal of most of the hardly oxidizable organic pollutants from the wastewater and ensures intensive nitrification of ammonium nitrogen. After two-biologiches Coy purification and sedimentation of the waste is subjected to post-treatment ozonirova Niemi or adsorption with activated charcoal, to ozonation occurs bleaching effluents and trudnookisl emye biological way organic contamination transfer are in oxidizable, that allows to intensify further biological treatment, nitrification and spinning trifikadiyu sewage in a sectional biological pond and sewage disintegration. The use of a sectional biological pond allows the disposal of wastewater residual nitrogen: ammonium, nitrate and nitrite. Under the aerial conditions of the first section, creating it, for example, with the help of surface machinic aggregates, a part of the residual MIC is removed and the most severe nitrification of mono nitrogen is removed. Under the anaerobic conditions of the second section, the processes of denitrification of nitrates and nitrites under the influence of mycoorganisms intensively flow with molecular nitrogen and release into a gaseous state. In this tadium the purification process ends with the biological transyration of nitrogen, it is almost completely removed from the wastewater. A third of the biological pond cutting pradna is known for deodorizing water by oxygenating it under aerobic conditions created, for example, by the surface of the water. The final stage of the purification process in a biological pond is a damper, where sedimentation of suspended solids, clarification of waste liquid and stabilization of water occur. The clarified waste water after the sedative is passed through sand filters or microfilters for final removal of suspended solids and is fed to the correction of the salt composition by the method of ion exchange. The water thus purified is reused for the needs of the technical water supply. Example. Source water with a characteristic: (chemical oxygen demand) 10,000 mg / l; 6000 + 7500 mg / l, pH 1-2.5; the content of nitro compounds, amino compounds and ammonium, respectively 120200, 600-900 and 450 mg / l; chromaticity 7000-9000 °, from the averager enters the mixer, where it is mixed with excess active sludge of 99.2% moisture in a 4: 1 ratio, then settled in settling basins and fed to neutralizers, where it is subjected to three-stripe neutralization with a 10% Ca. (OH) 2. and again defend in the septic tanks. At the same time, the MFV effluent decreases to 3500-4000 mg / l, the pH rises to 9.0. Then, the wastewater is diluted by 2 times with household waste water, resulting in the MFR equal to 1900 mg / l, and containing amino compounds , nitro compounds and ammonium, respectively, 250200, 35-60 and 300 mg / l. Further production wastewater undergoes two-stage biological treatment in aeration tanks and secondary septic tanks. At the first stage in aerotanks with a concentration of activated sludge of 6-7 g / l, aeration is carried out by turbo-aerators, and at the second stage, in aerotanks with a concentration of active sludge of 2-3 g / l, the drains are subjected to pneumatic aeration with compressed air. After a two-stage biological treatment, upholding the YAP for wastewater

Claims (1)

SUMMARY OF THE INVENTION ^ A method for treating wastewater of the aniline-dye industry, including neutralization with an alkaline agent, 30 settling and two-stage biological treatment, characterized in that., In order to increase the degree of purification and the possibility of using purified water in the technical water supply system, the wastewater is treated before neutralization activated sludge with its denaturation, and after biological treatment. wastewater. is subjected to subsequent purification by ozonation or adsorption and denitrification in section Onn biological pond under aerobic and anaerobic conditions, followed by ion exchange.