RU19772U1 - SEWAGE TREATMENT DEVICE - Google Patents

Abstract

1. A device for treating wastewater, including a housing with inlet and outlet nozzles for liquid, sludge and foam product, inside divided into a receiving chamber, a thin-layer clarification unit and an output chamber with a liquid level regulator, characterized in that to increase the efficiency of water treatment, the device is additionally equipped with an electrical processing unit installed in the receiving chamber, a coalescence filter located in the output chamber, consisting of a grid located at the top and a granular load of granules at the bottom l with a hydrophobic surface with a decreasing top-down size of 5.0 ... 0.5 mm.2. A device for treating wastewater according to claim 1, characterized in that the electrical processing unit is made in the form of a block of flat electrodes. A waste treatment device according to claim 1, characterized in that the granules of the granular charge are made of ferromagnetic material. A device for treating wastewater according to claim 1, characterized in that the coalescence filter mesh is multilayer with the number of layers from 3 to 15.5. A device for treating wastewater according to claims 1 and 2, characterized in that the mesh sizes of the mesh layers vary from top to bottom from 3 to 0.1 mm.

Description

Author: Ksenofontov Boris Semenovich

USEFUL MODEL - DEVICE FOR PROCESSING STOCHNB1HVOD

The proposed utility model - a device for wastewater treatment relates to processes and devices for wastewater treatment.

A device for treating wastewater is known, including a housing with an inlet nozzle for a liquid and outlet nozzles for a liquid, sludge and foam product, inside a thin-layer clarification unit and an outlet chamber with a liquid level regulator III, divided into a receiving chamber. A significant disadvantage of the known device is the low efficiency of water purification from pollution. This disadvantage is eliminated by using the proposed device.

A utility model is proposed - a device for treating wastewater, including a housing with inlet and outlet nozzles for liquid, sludge and foam product, inside divided into a receiving chamber, a thin-layer clarification unit and an output chamber with a liquid level regulator, characterized in that to increase the cleaning efficiency the water device is additionally equipped with an electrical processing unit installed in the receiving chamber, a coalescent filter located in the output chamber, consisting of a grid located at the top, and at the bottom granular loading from granules with a hydrophobic surface with a size decreasing from 5.0 to 0.5 mm from top to bottom, and the electric processing unit is made in the form of a block of flat electrodes, and

granules of granular loading are made of ferromagnetic material and the coalescence filter mesh is multilayer with the number of layers from 3 to 15, while the mesh sizes of the mesh layers vary from top to bottom from 3 to 0.1 mm.

The proposed device for wastewater treatment consists of a housing 2, on the outside of which there is an inlet pipe 1 for supplying dirty water, outlet pipes for outputting foam product 6, purified water 12 from the device

MKI 7 V01 F 13/08, V 01 D 21/00

sediment 13, and inside it is divided into a receiving chamber 3, containing an electric processing unit in the form of a block of flat electrodes 4 connected to a current source (not shown in the figure), a thin-layer clarification unit 5, an output chamber 7, in which a coalescent filter 8 is located, made at the top of a multilayer mesh 9, and at the bottom of a granular load of granules 10 with a hydrophobic surface with a decrease in their size from the upper layer to the bottom and a device for controlling the level of liquid 11. (see Fig. 1).

The proposed device operates as follows. Source (dirty water enters the device 2 through the pipe 1 and then passes in the receiving chamber 3 through the block of electrodes 4 made of flat metal plates. The water treated in the electric field becomes an unstable system and part of the impurities contained in it precipitates, which is discharged through the nozzle 4. Water from the receiving chamber 3 by gravity passes the block of thin-layer clarification 5 and the output chamber 7 enters, in which the cleaning is successively carried out in the coalescent filter 8 from top to bottom, consisting from the top located mogoglosnoy mesh 9 and a granular load 10, consisting of granules with a hydrophobic surface with decreasing granule size from 5.0 to 0.5 mm, using a combination of new elements can improve the efficiency of water purification by suspended solids by 15 25%, and for petroleum products and fats by 20 - 30% compared with the same indicators used when using the known device.

Captured light fractions of contaminants with a specific gravity less than water, for example, oil products, oils, fats, etc., are collected in the upper floating layer in the form of a foam product, which is discharged through the pipe 6.

Next, the purified water is discharged from the device through the fluid level controller 11 and the outlet pipe 12.

The use of the proposed device is possible in all sectors of the economy for wastewater treatment from sedimenting (fine particles of sand) and floating (petroleum products, fats) substances.

Claims (5)

1. A device for treating wastewater, including a housing with inlet and outlet nozzles for liquid, sludge and foam product inside divided into a receiving chamber, a thin-layer clarification unit and an output chamber with a liquid level regulator, characterized in that to increase the efficiency of water treatment, the device is additionally equipped with an electric processing unit installed in the receiving chamber, a coalescence filter located in the output chamber, consisting of a grid located at the top and a granular load of granules at the bottom l with a hydrophobic surface with a decreasing top-down size of 5.0 ... 0.5 mm.  2. A device for treating wastewater according to claim 1, characterized in that the electrical processing unit is made in the form of a block of flat electrodes.  3. The device for wastewater treatment according to claim 1, characterized in that the granules of granular loading are made of ferromagnetic material.  4. A device for treating wastewater according to claim 1, characterized in that the coalescent filter mesh is multilayer with the number of layers from 3 to 15. 5. A device for treating wastewater according to claims 1 and 2, characterized in that the mesh sizes of the mesh layers vary from top to bottom from 3 to 0.1 mm.