SU1081131A1 - Apparatus for biochemical purification of waste liquors - Google Patents

Abstract

1. APPARATUS FOR BIOCHEMICAL PURIFICATION OF WASTE WATER, comprising a loading air filter box, sprinklers, a pallet located under the agro filter housing, a cylindrical tank with vertical partitions not reaching to the bottom, separate trays for collecting oily and sludge water, distinctive and dispersed water that does not reach the bottom of the vertical septum, trays the fact that, in order to increase the intensity, efficiency and stabilization of wastewater purification by ensuring the treatment of (.-MtLflt - treating excess biofilm, increasing the capacity of the device and reducing gozatrat on the air supply, it is equipped with inclined walls attached to the lower edges of the outer partitions, forming a chamber of mineralization located above them, and below them - a settling chamber and filtering pipes placed above the lower edges of the inner vertical partitions. 2. The device according to claim 1, о This means that it is provided with pepper pipes installed on the tray, communicating the mineralization chamber and the loading space of the aerofilter. Q ". 3. The device according to paragraphs. and 2, that is, with the fact that it is equipped with thin-layer modules, placed in the lower part of the settling screen and in the upper part of the mineralization chamber by vertical partitions. 4. Device on PP. 1-3, that is, since there is a hole in the wall of the reservoir, which communicates the catchment tray 00 with the settling chamber.

Description

The invention relates to wastewater treatment, in particular to devices for biochemical treatment, and can be used in various sources for the treatment of domestic and industrial wastewater from organic pollution. A device for biochemical wastewater treatment is known, consisting of a body with a load and a sprinkler, a central vertical tubing with an axial rotor connected to the sprinkler, a cylindroconical tank, divided vertically by semi-submersible partitions into the zone of salinity and settling (1}. However, the liquid for recycling is taken from the zone of mineralization, in which the maximum concentration of organic substances, which increases the load on organic substances on the biofilter, thereby worsening his cleaning efficiency. The central tube with the rotor does not allow to regulate the degree of recirculation when the concentration of organic substances in the waste liquid entering the system is changed, and thereby to conduct the cleaning process on the biofilter under optimal conditions. In addition, the device has poor hydraulic conditions for the deposition of biofilm due to its structural features. The closest to the present invention is a device for the biochemical treatment of wastewater, containing a housing with loading and located m over it with a sprinkler, a cylindrical tank, divided by vertical non-bottoming, partitions into the mineralization zone and settling area, collecting trays of the purified liquid, receiving tank and pump for supplying liquid to the installation 2. The disadvantages of the known device are low intensity wastewater treatment and biological mass due to the absence of forced air supply to the biofilter feed and the mineralizer, the dependence of the purification efficiency on the outside air temperature, That directly goes to the biofilter loading, the inability to recycle and, therefore, wastewater treatment with a high concentration of organic pollutants, the inability to control the amount of air supplied while changing the flow rate and concentration of the wastewater being treated. The device does not provide an efficiently separated sewage and biological mass due to poor hydraulic conditions of biofilm deposition. The effi- ciency of tertiary treatment of wastewater in the mineralization zone is low, since it has low concentrations of biological mass and dissolved oxygen. In addition, the supply of mineralized biomass to the loading of the biofilter leads to its sedimentation and to a decrease in the efficiency of wastewater treatment and throughput capacity of the device. 7D whose invention is to increase the intensity, efficiency and stabilization of wastewater treatment by providing treatment of excess biofilm, increasing pro; (accelerating ability of the device and reducing energy consumption for air supply. This goal is achieved by the device comprising a load-loaded aerofilter body, sprinklers, a pallet located under the aerofilter body, a cylindrical constrictor with vertical coaxially located in it and not reaching the bottom partitions, trays for collecting purified and sludge water, are provided with inclined partitions attached to the lower edges of the external partitions, forming a chamber of mineralization above them, and below m - the settling chamber and filter pipes {3, located above the lower edges of the internal vertical partitions. The device is equipped with an overflow pipe installed at the bottom of the pallet, communicating the mineralization chamber and the loading space of the aerofilter, as well as thin-layer modules located at the bottom of the settling chamber and in the upper part of the mineralization chamber between the vertical partitions.In addition, a hole is made in the wall of the tank, indicating a catchment tray with a settling chamber. The drawing shows the proposed device, a longitudinal section. The device consists of a housing 1 with a pallet 2 and sprinklers 3 and 4 installed above the loading of the aerofilter, two concentrically arranged reservoirs forming the salinity chambers 5 and 6 settling, thin-layer modules 7 and 8, a vertical pipe .9 with a hydraulic gate 10, pipes 11 for air bypass from the space above the mineralization chamber to the sub-loading space of the aerofilter, airlift 12, vertical annular partition 13 not reaching the bottom, dividing the mineralization chamber into mineralization zones 14 and 15 settling, trays 16 for collecting sludge water, annular channel 17. for mill water, ring tray 18 for draining purified water, pipelines 19

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removal of purified water, 20 sludge water, 21 mineralized sludge and a pump 22. The device also contains a pipe 23 serves to supply source wastewater to the installation, a pipe 24 for supplying treated wastewater

, water for recirculation, pipe 25 for supplying sludge and recirculating water to the installation, loading 26 of the aerofilter, In tray 18

. hole 27 was made, and filter tubes 28 are placed in chamber 14.

The device works as follows.

The wastewater through pipe 23 is supplied to the installation and is evenly distributed through the loading 25 of the aerofilter with the sprinkler 3. The stack down the loading surface towards the force-supplied upward air flow, the wastewater is subjected to biochemical Oshtka under the influence of the microorganisms of the biological film attached to the loading. Having passed the loading, the waste water along with the excess biofilm removed from the load enters the sump 2 and from there through the hydraulic valve Sh through the pipe 9 into the settling chamber 6. When the wastewater is blown through the thin-layer module 8, effective separation of the liquid and biofilm occurs. The openings 27 in the housing enter the catchment tray 18 located on the outside of the settling chamber in the area of the openings and are removed from the installation through the pipe 19. If it is necessary to recirculate, a part of the treated wastewater flows through the pipe 24 to the pump 22 and together with the sludge water.

again it is fed to the loading of the aerofilter through pipe 25 and sprinkler 4. Biofilm seeding - crawls along the sloping walls of the bottom of the settling chamber to the lower part of the cone and the airlift 12 is pumped into the minerae 5

lization. Compressed air is supplied to the mineralization zone through the filter tubes 28, under the influence of oxygen of which npKv originates the mineralization (oxidation) of the biological film. In zone 15, equipped with a thin-layer module 7, there is a separation of sludge water and mineralized biofilm. Silt water is collected by trays 16, enters channel 17, then through pipes 20 and 25 by means of a pump 22 and irrigator 4, together with the recirculating fluid, is fed back to the cleaning. The precipitated mineralized biofilm is removed through pipe 21.

The design of the installation provides for the possibility of operating without recirculation, as well as repeated purification of sludge water. In this case, water from channel 17 through pipes 20 and 24 enters pipe 19 and is discharged from the installation.

The compressed air supplied to the mineralization zone is collected under the tray 2, through the pipes, transferred to the charging space of the aerofilter, reused to feed the aerofilter load. Passing through fluid D to the zone of mineralization, the air acquires the temperature of the fluid, so that a stable operation of the aerofilter is achieved regardless of the ambient air temperature.

The use of the proposed device will allow an increase in the oxidizing power and productivity of about 10 times as compared with the best sewage treatment, as well as stable cleaning at low ambient temperatures. Re-use of air supplied to the miprasralization zone for aeration of the aerofilter load, bakes its rash onal 1st use and reduces energy costs, pa its flow.

Claims (4)

1. DEVICE FOR BIOCHEMICAL WASTE WATER TREATMENT, comprising an air filter housing with loading, sprinklers, a pallet located under the air filter housing, a cylindrical tank with vertical partitions coaxially placed in it and not reaching the bottom, trays for collecting purified and silt water, characterized the fact that, in order to increase the intensity, efficiency and stabilization of wastewater treatment by ensuring the processing of excess biofilm, increasing the throughput of the device and reducing energy costs by air supply, it is equipped with inclined partitions attached to the lower edges of the external partitions, forming a mineralization chamber located above them, and under them - a settling chamber and filter tubes placed. above the lower edges of the internal vertical partitions. 2. The device according to π. 1, with the fact that it is equipped with an installed-! on the pallet bypass pipes communicating the mineralization chamber and the filling space of the air filter. 3. The device according to 1ΤΠ.1 and 2, which is characterized in that it is equipped with thin-layer modules !, located in the lower part of the settling chamber and in the upper part of the mineralization chamber between vertical vertical partitions. 4. The device according to paragraphs. 1-3, the result of which is that a hole is made in the wall of the tank that communicates the catchment tray with the settling chamber.