RU57271U1 - INSTALLATION FOR BIOCHEMICAL CLEANING OF HOUSEHOLD AND CLOSE TO THEM BY COMPOSITION OF INDUSTRIAL WASTE WATERS CONTAINING HEAVY METALS - Google Patents

Abstract

The utility model relates to biochemical treatment of household wastewater and industrial wastewater containing heavy metal ions that are similar in composition and amount of pollutants, and can be used to purify household wastewater during periods of intense melting of snow and long rains when territories adjacent to industrial enterprises (especially mining, metallurgical, etc.), flushing and getting into the domestic sewage of heavy metal ions and sources of acidity (sulph s et al.), as well as industrial waste water containing organic impurities and heavy metals. The objective of the utility model is to increase the efficiency of biochemical treatment of household and industrial wastewater containing heavy metals and compositions close to them and to reduce the environmental burden on the environment. This object is achieved by the fact that the installation for biochemical treatment of domestic and similar in composition industrial wastewater containing heavy metals, including a sewage supply pipe, a primary sump with pipelines for draining clarified water and sludge, aerobic biological treatment plants for the first and second steps, a secondary sump connected to a deep purification device, is equipped with a mixer with a hydrogen sulfide supply pipe connected to it, installed in front of the primary tstoynikom and connected thereto, and supplying the waste water pipe. In addition, the installation is equipped with an additional mixer with a flocculant supply pipe connected to it, installed between the mixer and the primary settler. In addition, the installation can be equipped with an additional mixer with an alkaline reagent supply pipe connected to it, installed between the mixer and the primary settler. The installation can be equipped with an additional mixer with an alkaline reagent supply pipe connected to it, installed after an additional mixer with a flocculant supply pipe. In addition, the installation is equipped with an anaerobic reactor with sulfate-reducing bacteria connected to a hydrogen sulfide supply pipeline.

Description

The utility model relates to biochemical treatment of household wastewater and industrial wastewater containing heavy metal ions that are similar in composition and amount of pollutants, and can be used to purify household wastewater during periods of intense melting of snow and long rains when territories adjacent to industrial enterprises (especially mining, metallurgical, etc.), flushing and getting into the domestic sewage of heavy metal ions and sources of acidity (sulph s et al.), as well as industrial waste water containing organic impurities and heavy metals.

A known installation for biochemical treatment of domestic wastewater containing a sump, aeration tank, where there is removal of contaminants in terms of BOD and nitrification of ammonium nitrogen. The sludge mixture from the aeration tank enters the secondary sump, from where activated sludge is returned to the aeration tank, and the nitrified wastewater enters the second stage aeration tank, after which it goes into the second stage sump (Yakovlev S.V., Voronov Yu.V. Drainage and sewage treatment waters / Textbook for high schools: - M: DIA. 2002, p.296)

The disadvantage of this installation is its low efficiency in the treatment of domestic wastewater containing heavy metals, since at the stage of aerobic digestion, heavy metals inhibit the growth of bacteria, thereby significantly reducing the efficiency of wastewater treatment. In addition, the known installation does not provide a sufficiently high degree of wastewater treatment due to the fact that water treatment from activated sludge is carried out only by settling, without additional post-treatment.

The closest in technical essence and the achieved result is the installation of biochemical treatment of domestic wastewater and composition of industrial wastewater, including a primary sump with pipelines for supplying wastewater and drainage of clarified water and sludge, aeration tanks of the first and second stages with aerators, sludge tanks mixtures of the first and second

steps, a device for fine treatment (AS USSR No. 1710525, C 02 F 3/30, publ. 07.02.92).

A disadvantage of the known installation is its low efficiency in the purification of household waste and industrial wastewater containing heavy metal ions that are close in composition and amount of pollutants, since when heavy metals enter the aerobic treatment zone, a significant amount of aeration microflora is killed, which reduces its activity in the removal of pollutants. So, iron at a concentration of 1.25 mg / l reduces BOD ₅ (biological oxygen consumption in 5 days) of diluted wastewater, at a concentration of 5 mg / 5 it delays the formation of activated sludge at sewage treatment plants and the digestion of sludge in digesters, at this concentration the microflora dies biological filters. Copper in a concentration of 0.4-0.5 mg / l has a detrimental effect on the microflora and inhibits the biological processes of wastewater treatment, delays the reproduction of microorganisms, the ammonification and nitrification of wastewater. At a copper concentration of 1.0 mg / l, the processes of aerobic water treatment with activated sludge are significantly inhibited, the amount of oxidized nitrogen in wastewater decreases, the formation of activated sludge is delayed. Zinc at a concentration of 0.5 mg / L adversely affects the effectiveness of biological wastewater treatment and activated sludge, at a concentration of 1-3 mg / L inhibits biological treatment, at a concentration of 5.1 mg / L, aerobic oxidation at biological treatment plants is significantly reduced . As a result of inefficient cleaning, heavy metals enter the environment, which negatively affects the environment.

The objective of the utility model is to increase the efficiency of biochemical treatment of household and industrial wastewater containing heavy metals and compositions close to them and to reduce the environmental burden on the environment.

This object is achieved by the fact that the installation for biochemical treatment of domestic and similar in composition industrial wastewater containing heavy metals, including a sewage supply pipe, a primary sump with pipelines for draining clarified water and sludge, aerobic biological treatment plants for the first and second steps, a secondary sump connected to a deep purification device, is equipped with a mixer with a hydrogen sulfide supply pipe connected to it, installed in front of the primary tstoynikom and connected thereto, and supplying the waste water pipe.

In addition, the installation is equipped with an additional mixer with a flocculant supply pipe connected to it, installed between the mixer and the primary settler.

In addition, the installation can be equipped with an additional mixer with an alkaline reagent supply pipe connected to it, installed between the mixer and the primary settler.

The installation can be equipped with an additional mixer with an alkaline reagent supply pipe connected to it, installed after an additional mixer with a flocculant supply pipe.

In addition, the installation is equipped with an anaerobic reactor with sulfate-reducing bacteria connected to a hydrogen sulfide supply pipeline.

The presence of a mixer in the composition of the installation for cleaning household wastewater and industrial wastewater close to them and the amount of pollutants with a hydrogen sulfide supply pipe allows intensive mixing of wastewater with hydrogen sulfide, contributing to the maximum interaction of hydrogen sulfide with heavy ions dissolved in water metals with the formation of water-insoluble sulfides with their subsequent removal from wastewater in the concentrate from the primary settling tank ka. As a result, the clarified wastewater after the primary settler enters the aerobic biological treatment facilities without heavy metals, i.e. the inhibitory effect of heavy metals on the microflora of aeration tanks is eliminated and thereby the efficiency of wastewater treatment is increased.

The installation of an additional mixer between the mixer and the primary settler with the flocculant supply pipe connected to it allows intensive precipitation to accelerate the deposition of suspended solids and sulfides of heavy metals and increase the cleaning efficiency by improving the process of flocculation.

Providing the installation with an additional mixer with an alkaline reagent supply pipe connected between the mixer and the primary settler allows adjusting the pH value by mixing wastewater with an alkaline reagent in the event of its decrease during the flood period and the period of prolonged rains and thereby create optimal conditions for implementation the process of aerobic water treatment, which increases the efficiency of treatment.

The simultaneous installation of a mixer with a hydrogen sulfide supply pipe and two additional mixers - with a flocculant supply pipe and with an alkaline reagent supply pipe - allows optimizing the process of preparing wastewater for delivery to the primary sump by intensive mixing, in which a significant amount of suspended solids and almost all heavy metals, and, accordingly, the required quality of clarified wastewater is ensured for its subsequent treatment in the plant Barrier-aerobic biological purification.

An anaerobic reactor with sulfate-reducing bacteria as part of a heavy metal wastewater treatment plant used as a source of hydrogen sulfide produces biologically produced hydrogen sulfide with increased reactivity, which allows increasing the depth and rate of reaction of formation of heavy metal sulfides, and, accordingly, the most complete their removal before the wastewater is supplied for aerobic treatment, which as a result contributes to an increase in the efficiency of wastewater treatment.

The drawing shows the installation diagram.

The installation comprises a sewage supply pipe 1 connected to a mixer 2. The mixer 2 is connected to an anaerobic reactor with sulfate-reducing bacteria 3 by a hydrogen sulfide supply pipe 4 and to a mixer 5 by a pipe 6. A flocculant supply pipe 7 is connected to a mixer 5, and a mixer 5 is connected to a pipe 8 mixer 9, to which the alkaline reagent supply line 10 is connected. The mixer 9 is connected to the primary clarifier 11 by a pipe 12. To the primary clarifier 11, a sediment discharge pipe 13 and a pipeline are connected supply of clarified water 14 to the aerobic biological treatment plant of the first stage — aerobic bioreactor-nitrifier 15 connected by a pipeline 16 to the aerobic biological treatment plant of the second stage — aerobic bioreactor-nitrifier 17, which is connected by pipe 18 to the secondary clarifier 19. A drain pipe is connected to the settler 19 sludge 20, and the pipe 21 it is connected to the device for deep purification - fine filter 22, which is connected to the pipe for the removal of treated waste water 23.

Installation works as follows.

Wastewater through line 1 enters the mixer 2, into which through line 4 from an anaerobic reactor with sulfate-reducing bacteria 3

biologically produced hydrogen sulfide is supplied. In mixer 2, the wastewater is intensively mixed with hydrogen sulfide, as a result of which metal ions react with hydrogen sulfide to form sulfides. Next, the wastewater saturated with hydrogen sulfide is piped through 6 to the mixer 5, where the wastewater is intensively mixed with the flocculant, which is piped 7. After that, the wastewater is piped 8 to the mixer 9, in which intensive mixing wastewater with an alkaline reagent supplied through pipeline 10. Prepared for the efficient deposition of suspended solids and metal sulfides, wastewater through a pipeline 12 wastewater enters the primary sump 11, where the metal sulfides formed in the mixer 2 and suspended solids contained in the water are deposited at the bottom of the sump and are removed through the sludge discharge line 13. The clarified wastewater purified from metals and suspended solids is sent to the aerobic structure through pipeline 14 biological treatment of the first stage - aerobic bioreactor-nitrifier 15, where there is cleaning from organic contaminants. Then, through the pipeline 16, the wastewater is supplied to the aerobic biological treatment plant of the second stage — the aerobic bioreactor-nitrifier 17 for deep biological treatment of organic pollution. Further, through the pipe 18, the wastewater is supplied to the secondary sump 19 to separate the microflora from the biologically purified water. Activated sludge or biofilm is removed through the sludge removal line 20. After this, the clarified and biologically treated wastewater is piped 21 to a deep-purification device 22, where the purification of suspended solids takes place. Treated wastewater is discharged through line 23.

Example.

Conducted laboratory tests of the proposed installation and installation of the prototype with a capacity of 3 m ³ / day.

Household wastewater containing heavy metals was supplied to the plants, the characteristics of which are given in the table. The test results are also shown in the table.

As can be seen from the data presented in the table, the proposed installation in comparison with the prototype provides a higher efficiency of wastewater treatment. As a result, the release of heavy metals into the environment is reduced, i.e. the proposed installation allows to reduce the environmental burden on the environment.

Table Name of indicator Wastewater composition, concentration, mg / l The cleaning efficiency,% After cleaning Before cleaning Suggested installation Famous installation Suggested installation Famous installation PH value 5.5 ... 8.5 7.0 ... 7.5 6.0 ... 7.0 Weighted Islands 40 ... 70 10 twenty 80.35 60.7 COD 30 ... 70 15.0 15.0 ... 35.0 64.3 fifty BOD ₅ 10 ... 20 3.0 5.0 ... 15.0 77.5 33 Nitrite 0.2 ... 0.4 0.05 0,1 ... 0,2 81.25 fifty Nitrogen 2.5 ... 10.5 0.5 2.0 87.6 84.6 ammonium 5 ... 15 0.01 3 ... 12 99.87 thirty Zinc 0.5 ... 3.5 0.1 0.3 ... 2.5 88.55 34.3 Iron is common 0.12 ... 2.0 0.01 0.08 ... 1.5 95.6 58.3 Copper

Claims (5)

1. Installation for biochemical treatment of domestic and similar industrial wastewater containing heavy metals, including a sewage supply pipe, a primary sump with clarified water and sludge removal pipelines, aerobic biological treatment plants of the first and second stages, a secondary sump connected to the device of deep tertiary treatment, characterized in that it is equipped with a mixer with a hydrogen sulfide supply pipe connected to it, installed in front of the primary sump and Connections with it and the waste water supply pipe. 2. Installation according to claim 1, characterized in that it is equipped with an additional mixer with a flocculant supply pipe connected to it, installed between the mixer and the primary settler. 3. Installation according to claim 1, characterized in that it is equipped with an additional mixer with an alkaline reagent supply pipe connected to it, installed between the mixer and the primary settler. 4. Installation according to claim 2, characterized in that it is equipped with an additional mixer with an alkaline reagent supply pipe connected to it, installed after the additional mixer with a flocculant supply pipe. 5. Installation according to any one of claims 1 to 4, characterized in that it is equipped with an anaerobic reactor with sulfate-reducing bacteria connected to a hydrogen sulfide supply pipe.