RU2558581C1 - Method of sewage water purification and system for its realisation - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: method includes biological purification of water, after which solution of reagent and solution of lime milk are additionally and successively introduced into purified water, with mixing of obtained solutions, after which, oxidised coagulated admixtures are precipitated in laminar mode in precipitator by means of precipitation lamellas. Watered sediment is mixed with flocculent, mixed, then, coagulated admixtures are precipitated in laminar mode in precipitator by means of precipitation lamellas, and precipitated admixtures are removed from precipitator by conveyor, and purified water is mixed with water, obtained after biological purification. System of sewage water purification includes device of biological purification, unit of after-purification of liquid and unit of sediment dehydration. Unit of after-purification includes reservoirs, connected by pipelines with devices for preparation of reagent of hydrogen peroxide and lime milk, and equipped with mixers, with one of reservoirs being connected with precipitator with pipeline, in which unit of precipitation lamellas is placed.

EFFECT: reduction of specific capital investments, labour consumption and energy cost of water volume unit purification as a result of reduction of purification stages.

3 cl, 1 dwg

Description

The invention can be used for the treatment of wastewater concentrated by organic pollution, including coke production water.

A known method of wastewater treatment (see RF Patent No. 2490216, class C02F 3/34, C12R 1/39, publ. 08/20/2013), including filling the filter dam with purified water and keeping the water in it for at least 3 days. Then the wastewater is passed through a filter dam consisting of rocks: crushed stone or sand-gravel mixture, or a mixture of mudstone with siltstone.

A known method of biochemical wastewater treatment (see RF Patent No. 2263080, class C02F 3/34, C12N 1/20, C12R 1:06, C12R 1:08, publ. 10/27/2005), including the neutralization of the purified water with a mixture of calcium oxide and calcium carbonate, followed by treatment with microorganisms. As microorganisms, a consortium of microorganisms Bacillus brevis and Arthrobacter species IB DT-5 is used.

The disadvantages of the known methods include the fact that the treatment process for contaminated organic effluents takes a long time, takes up large production areas and the required degree of treatment is not always achieved.

The essence of the proposed method of wastewater treatment is that after the biological treatment, having brown color due to humic acids, the reagent solution and the solution of milk of lime are additionally and sequentially introduced into the purified water, mixing the resulting solutions, and then oxidized precipitate in the laminar mode and coagulated impurities in the precipitant using precipitation lamellas, the irrigated precipitate being sent to dehydration and the purified water to the consumer. The irrigated sediment is mixed with the flocculant, mixed and then, in a laminar mode, coagulated impurities are precipitated in the precipitator using precipitation lamellas, the settled impurities being removed from the precipitant by a conveyor, and the purified water is mixed with water obtained after biological treatment.

The wastewater treatment system is additionally equipped with a liquid after-treatment unit and a sludge dewatering unit, and in the after-treatment unit there are tanks connected by pipelines to hydrogen peroxide and lime milk preparation plants and equipped with mixers, one of the tanks being connected by a pipeline to the precipitator in which the block of precipitation lamellas.

In the dehydration unit, a flocculant preparation unit is located, connected by a pipeline to the sludge dewatering unit, and the unit itself is equipped with a mixer, a block of precipitation lamellas and a conveyor.

The use of the invention provides the following technical result:

- reduction of specific capital investments, labor intensity and energy costs of cleaning a unit volume of water as a result of a reduction in the levels of treatment.

The specified technical result in the implementation of the invention is achieved by the fact that the method of wastewater treatment includes biological treatment.

The peculiarity lies in the fact that after biological treatment, having brown color due to humic acids, the reagent solution in the form of hydrogen peroxide and the solution of milk of lime are additionally and sequentially introduced into the purified water, while mixing the resulting solutions, and then oxidized and precipitated in a laminar mode coagulated impurities in the precipitant using precipitation lamellas, the irrigated sediment being sent to dehydration and the purified water to the consumer. The watered sediment is mixed with the flocculant, mixed, and then, in a laminar mode, coagulated impurities are precipitated in the precipitator using precipitation lamellas, and the settled impurities are removed from the precipitator by a conveyor, and the purified water is mixed with water obtained after biological treatment.

The wastewater treatment system includes a biological treatment plant. In addition, the purification system is additionally equipped with a liquid post-treatment unit and a sludge dewatering unit, and in the post-treatment unit there are tanks connected by pipelines to hydrogen peroxide and lime milk preparation units and equipped with mixers, one of the tanks being connected by a pipeline to the precipitator in which the unit is located from precipitation lamellas.

In the dehydration unit, a flocculant preparation unit is located, connected by a pipeline to the sludge dewatering unit, and the unit itself is equipped with a mixer, a block of precipitation lamellas and a conveyor.

The analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information and identification of sources containing information about analogues of the invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the invention.

Therefore, the invention meets the condition of "novelty."

The design of the invention is presented in the drawing.

The system consists of a liquid post-treatment unit A, sludge B dewatering unit, pipeline 1, biological treatment plant 2, pump 3, pipeline 4, tanks 5, 6 and 7, precipitator 8, mixers 9 and 10, reagent preparation unit 11 (for example, peroxide hydrogen), lime milk preparation unit 12, block 13 made of Christmas tree slats, pump 14, pipe 15, pump 16, pipe 17, sludge dewatering unit 18, block 19 made of settling lamellas, conveyor 20, containers 21, flocculant preparation unit 22 (for example , Praestol 2540), pump 24, pipeline 25.

The system operates as follows. Water from the pool through the pipeline 1 is pumped into the biological treatment plant 2, where it is purified from organic impurities. However, even after biological treatment, the water remains highly contaminated with humic acids and has a dark brown color. After biological treatment, the purified water is pumped through a pipeline 3 to a container 5, where the prepared solution of hydrogen peroxide reagent is supplied from unit 11, where it is mixed with a stirrer 9 for 2-3 minutes. After mixing, the solution flows into tank 6, where it is supplied from unit 12 the prepared solution of milk of lime, where it is mixed for 2-3 minutes with a stirrer 10. After mixing, the solution flows in a laminar mode to precipitator 8 where the humic acids oxidized and coagulated in an aqueous solution precipitate on and the surface of the precipitation lamellas of the block 13. The clarified water is discharged into the tank 7, and from there by the pump 14 through the pipeline 15 is supplied to the production.

Waterlogged sludge deposited at the bottom of tanks 5, 6, 7 and precipitator 8 is periodically pumped 16 through a pipe 17 to the sludge dewatering unit 18. The Praestol 2540 flocculant solution is supplied from the installation 22 through the pipeline 23. After mixing, the solution flows in the laminar mode to the precipitation part of the installation 18, where impurities coagulated in the aqueous solution are deposited on the surface of the precipitation lamellas of the block 19. The purified water is pumped through the pipeline 25 to capacity 5 for re-cleaning. The precipitate deposited on the surface of the precipitation lamellas is periodically shaken off and deposited on the bottom of the installation tank 18, from where it is removed by conveyor 20 into the container 21.

Thus, the above description indicates the fulfillment when using the invention of the following set of conditions:

- a tool embodying the invention, in its implementation is intended for the treatment of wastewater concentrated by organic pollution, including water from coke production;

- for the claimed method and device in the form as they are described in the stated claims, the possibility of their implementation using the means and methods described in the application is confirmed;

- a tool embodying the invention in the implementation, is able to achieve the perceived by the applicant the technical tasks: reduction of specific capital investments, labor and energy costs of cleaning a unit volume of water as a result of a reduction in cleaning steps.

Claims (3)

1. A method of wastewater treatment, including biological treatment, after which a reagent solution and a solution of milk of lime are additionally and sequentially introduced into the water to be purified, mixing the resulting solutions, and then oxidized coagulated impurities are deposited in the precipitator in a laminar mode using precipitation lamellas, the watered sludge is sent to dehydration, and the purified water to the consumer, characterized in that the watered sludge is mixed with a flocculant, mixed, and then in the laminar mode zhdayut coagulated impurities in the precipitator by means of settling lamellae, the deposited impurities are removed from precipitator conveyor, and purified water is mixed with water, resulting after biological purification. 2. A wastewater treatment system, including a biological treatment plant, characterized in that the system is additionally equipped with a liquid aftertreatment unit and a sludge dewatering unit, and in the aftertreatment unit there are containers connected by pipelines to hydrogen peroxide and lime milk reagent treatment plants and equipped with mixers, moreover one of the tanks is connected by a pipeline to a precipitator, in which a block of precipitation lamellas is located. 3. The system according to claim 2, characterized in that the flocculant preparation unit is located in the dehydration unit, connected by a pipeline to the sludge dewatering unit, and the unit itself is equipped with a stirrer, a block of precipitation lamellas and a conveyor.

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