SU1346589A1 - Method of biological cleaning of waste water from dimethylacetamide - Google Patents

Abstract

The invention relates to a method for the biochemical treatment of wastewater containing dimethyl acetamide (DIAA) in chemical plants, in particular in the manufacture of chemical fibers. The aim of the invention is to reduce the cleaning time. Biochemical purification of DMAA is carried out with activated sludge from microscopic fungi of the species PeniciIlium funiculosum, Vertici11idstrum, Alternaria at pH 6.5-8.0, after reaching an additional concentration of DMAA 15-30 mg / l. conducts wastewater treatment with microscopic fungi of Claclosporium lignicola species Penici11ium terras tre, Scopulariops s brevicaule Bain, Aspergillus versicolor, Tri choderma lignorium. The duration of the process is reduced by 15–25%, the volume of aeration tanks is reduced, and thus the capital costs of building aeration facilities are reduced. tab. cl

Description

This invention relates to a process for treating wastewater containing dimethyl acetamide (DMAL) in chemical industry plants, in particular in the manufacture of chemical fibers.

The aim of the invention is to reduce the duration of wastewater treatment from DMAA.

The method is carried out as follows.

Wastewater containing DMAA in the amount of 1000-1600 mg / l is supplied to the aerotanks of the first purification stage, where active sludge is previously introduced, containing microscopic fungi of the species Penicilli Um funlculosum, Vertic 11lastrum, Alternaria raceac in the amount of the total activated sludge. The concentration of activated sludge is maintained within 3-4.5 g / l. .

The specific air flow rate in aeration tanks of the first cleaning stage is 30-40 / m. Then, after settling in the secondary settling tanks, partially treated wastewater with a DMAA content of 15-30 mg / l is supplied, to the second purification stage

In the second stage, the main contamination is dimesh: am.c (DMA) and its oxidation is carried out by treatment with active sludge into which microscopic grids of the following species are introduced; Cladosporium lignicola Penicilltum terrestre, Scopulariopsis bravicaule Bain, as- pergillus versicolor, Trlchoderma. lignorlum in the amount of 30-40% of the total volume of activated sludge of the second stage. The concentration of activated sludge is maintained within 2.5-4 g / l at pH 6.5-7.5. The specific air flow rate in the second stage aerotanks is 20–35 m / m. The duration of aeration at the first stage is 7-9 hours, at the second 15-20 hours,

Purified in aeration tanks: second stage water is supplied to secondary sedimentation tanks, from where circulating activated sludge is returned to aeration tanks in the traditional manner.

Microscopic fungi for the second stage were isolated from DMA-activated sludge in a donor aerosol, operating on a solution of pure DMA.

The adaptation period of the activated sludge from the urban wastewater treatment plant is 50–70 days.

The conditions for the cultivation of microscopic fungi: the concentration of DMA is 100-150 mg / l, the pH value is 6.5-7.5, the medium temperature is 18-22 ° C, the duration of the process is 24-36 hours.

Example. In the first stage, the wastewater is supplied with a DMAA concentration of 1200 mg / l. The concentration of active sludge is 4.5 g / l, pH 7, 5. After 20 hours of aeration in the first

water contains 4 mg / l DMAA and 16 mg / l DMA and is directed to the second stage, where it is cleaned for 20 hours at an active sludge concentration of 2.5 g / l and pH 7.0,

after which the purified water has the following indicators: COD 70 mg / l, VPK 12 mg / l, DMAA and DMA are absent

Example2. The first stage serves wastewater with a 1200 mg / l DMAA concentration. The activated sludge concentration is 4.5 g / l, pH 7.0. After 9 hours of aeration in the first stage, the water contains 15 mg / l DMAA and 160 mg / l DMA and is sent to

the second stage, where it is cleared for 15 hours at an active sludge concentration of 3.2 g / l and a pH of 6.8, after which the purified water has only the following parameters: mg / l,

VPK-14 mg / l, DMAA and DMA are absent.

Example In the first stage. serves wastewater with a concentration of DMAA 1200 mg / l. The activated sludge concentration is 4.2 g / l, pH 7.5. After 9 hours of aeration in the first stage, the water contains 22 mg / l DMAA and 170 mg / l l DMA and is directed to the second stage, where it is cleaned in

for 15 hours at an activated sludge concentration of 3.8 g / l and a pH of 7.2, after which the purified water has the following indicators: COD –80 mg / l, VPK 14 mg / l, DMAA and DMA are absent.

Example4. In the first stage, wastewater is supplied with a DMAA concentration of 1200 mg / l. The concentration of acti-gene sludge is 3.8 g / l; pH 6.5. After 7 hours of aeration in the first

water contains 30 mg / l DMAA and 180 mg / l DMA and is directed to the second stage, where it is cleaned for 15 hours at an active sludge concentration of 4.0 g / l and pH 7.0 j

then the purified water has the following indicators: mg / l, VPK 1A mg / l, DMAA and DMA are absent.

Example In the first stage serves wastewater with a concentration of DMAA 1200 mg / L. The activated sludge concentration is 4.5 g / l, pH 7. After 6 hours of aeration in the first stage, the water contains 50 mg / l DMAA and 200 mg DMA and is directed to the second stage, where it is cleaned for 28 hours at a concentration of activated sludge 3.5 g / l and pH 6.5, after which the purified water has the following indicators: XIIK -70 mg / l, VPK 2 mg / l, DMAA and DMA are absent.

Comparative data of the wastewater treatment process from DMAA according to the known and proposed methods are given in the table.

The table shows that the application of the proposed method provides almost complete purification from DMAA and DMA, and in a time substantially less than in a known process.

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The known method I.32

40 Proposed Method

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Order 5088/22

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The use of the proposed method in the treatment of waste water containing DMAA reduces the duration of the process by 15–25%, and reduces the volume of nitrogen tanks. and reduce the capital cost of building aeration facilities.

Claims (1)

Invention Formula The method of biochemical wastewater treatment from dimethylacetamide activated sludge from microscopic fungi., Penici Ilium funiculosum species. VertfciPiastrum, Alternaria aleracea at pH 6., 5-8.6, characterized in that, in order to reduce the duration of the purification process after reaching a dimethylacetamide concentration of 15-30 mg / l, the wastewater is additionally cleaned with microscopic mushrooms of claclosporium lignlcola species , Penicillium terrestre Scopulariopsis brevlcaule Bain, AspergM lus Verslcolor, Trl-choderma lignortum. 0.1-0.5 O 75-100 -70 14-18 -12 Circulation 850 Subscription