UA28510U - Purifying construction for waste water biological treatment - Google Patents

Abstract

A purifying construction for waste water biological treatment comprises body, in which block unit is disposed, which represents disposed in technological sequence containers for carrying out purification, adjacent of which are made with common wall, auxiliary equipment. Containers are made from reinforced concrete, on which a layer of hydroisolating material is applied from inner side of container, and they are disposed on the perimeter of body in such a way that one part of every container is substituted the wall of body, and auxiliary equipment is disposed on walls of containers in the body of purifying construction.

Description

Description of the invention

The useful model belongs to the field of biological wastewater treatment and can be used for 2 cleaning of domestic wastewater.

A well-known sewage treatment plant for the biological treatment of wastewater |1), which contains an anaerobic bioreactor, an aerobic bioreactor, a sedimentation tank equipped with an air lift with an active sludge recirculation pipeline, a post-purification bioreactor with loading for attached microflora and a decontamination chamber, auxiliary equipment, and a system of transport communications. . This method requires additional 710 construction of a room for installation and maintenance of auxiliary equipment: it involves a significant length of transport communications, a large amount of loading for fixing the microflora.

There is a well-known sewage treatment plant for the biological treatment of wastewater |2), which is closest in technological essence to the one proposed and selected as a prototype. Treatment plant |2) includes a compact installation for biological wastewater treatment, placed in the structure's housing, auxiliary equipment (blowers, 12 chlorinator, etc.) installed in a separate room and connected to the installation by a system of transport communications. The compact installation includes technological containers made in the form of metal panels welded together so that at least one wall of adjacent containers is common. Disadvantages of the treatment plant |21I are: - high cost of technological containers made of metal; - lack of conditions for establishing microflora; - considerable length of transport communications; - the need for a special room for the installation of auxiliary equipment.

The basis of the useful model is the task of improving the sewage treatment plant for the biological treatment of wastewater by manufacturing technological containers from reinforced concrete with a waterproofing coating, placing them along the perimeter of the housing so that at least one wall of each container is replaced by the wall of the housing, 22 installing auxiliary equipment and the main one in one housing sewage treatment plant, in order to achieve a reduction in costs for the construction of a sewage treatment plant, a decrease in the occupied land area, and an increase in the efficiency of treatment.

The task is achieved in a sewage treatment plant for the biological treatment of wastewater, which includes a housing in which a block installation is placed, which is a set of tanks for cleaning in a technological sequence, the adjacent ones of which are made with a common wall, auxiliary equipment. The containers are made of reinforced concrete, with a layer of waterproofing material applied to the inner side of each container and placed along the perimeter of the housing so that at least one wall of the container is replaced by the wall of the housing, and auxiliary equipment is installed on the walls of the containers in the housing of the treatment plant. with

The production of tanks for sewage treatment from reinforced concrete with a layer of 3o waterproofing material applied to the inner side of each tank allows to reduce the cost of the tanks of the block water treatment plant (main equipment) compared to the cost of the prototype tanks made of metal.

The use of reinforced concrete for the manufacture of tanks allows you to ensure the wall thickness is sufficient for the placement of auxiliary (pump) equipment and eliminates the need for the construction of a special room "for auxiliary equipment, which in general leads to a reduction in costs for the construction of a sewage treatment plant, a decrease in the occupied land area and the length of transport communications . c Placing the containers around the perimeter of the unit unit so that at least one wall of the container is replaced by the wall of the unit also leads to a reduction in costs for the construction of a facility for the biological treatment of wastewater under aerobic conditions and a reduction in the occupied land area. Designing the tanks in such a way that at least one of their walls is the wall of the body does not limit the height of the tanks and it is chosen based on the calculation of creating the necessary hydraulic pressure for the direct flow of activated sludge according to the technology, which excludes the use of intermediate capacities for activated sludge and allows to reduce the length of transport communications.

Ge | The waterproofing coating of the walls of each technological container, in addition to protecting the containers, ensures effective adsorption of active microflora, which allows you to create more favorable conditions for its life activity and thus increase the cleaning effect. -k 70 Fig. 1 shows a sewage treatment plant for biological wastewater treatment.

The sewage treatment plant includes building 1, which houses a block installation, which is a container for wastewater treatment: anaerobic bioreactor 2, in which the 1st stage of purification is carried out under anaerobic conditions, anaerobic bioreactor 3, in which the 1st stage of purification is carried out in anaerobic conditions, container 4 with an annex zone, aerobic bioreactor 5, which carries out the 1st degree of purification in aerobic conditions, aerobic 29 bioreactor 6, in which the IInd degree of purification is carried out in aerobic conditions, settling tank 7, biofilter-filter 8. c All these containers are placed along the perimeter of housing 1 in a technological sequence and are made so that adjacent containers have a common wall, and at least one wall of each container is replaced by the wall of housing 1. Containers 2, C, 4, 5, 6, 7, 8 are made of reinforced concrete covered from the inside with waterproofing material. As an option, common walls between adjacent containers can be made of plastic. The treatment facility 60 includes auxiliary equipment, which includes a pump 9 installed on the walls of the container 4 with an annex zone, circulation pumps 10 installed on the walls of aerobic bioreactors 5 and 6, and jet aerators 11.

Pipeline 12 is laid from settling tank 7 to anaerobic bioreactor 2 for recirculation of part of the sludge. For the supply of wastewater from one container to another, the common walls of containers 3-4, 6-7 are made shorter than the other walls of these containers and end at a certain distance from the bottom of the containers, and for the flow of wastewater in the common 62 walls 2-3, 5- 6, 7-8 holes are completed.

The treatment plant works as follows.

Wastewater is fed to the block installation (Fig. 1), namely to anaerobic bioreactor 2, and then to anaerobic bioreactor 3. In these containers, wastewater clarification and fermentation with the help of anaerobic microorganisms takes place in two stages.

Next, the effluents are directed to container 4 with an annexed zone, where the effluents are saturated with oxygen and the liquid is stabilized. Wastewater in tank 4 with annex zone is saturated with oxygen as a result of jet aeration, the oxidation process changes from anaerobic to aerobic.

Partially purified effluents, with the help of pump 9, are fed from container 4 with an annex zone into aerobic 7/0 of the bioreactor. In the aerobic bioreactor 5, the first stage of the aerobic process of biological purification of wastewater from the main mass of organic pollutants takes place. For this, activated sludge is used, which is a biocenosis of mineralizing microorganisms capable of sorbing on the entire surface and oxidizing organic substances of wastewater.

Next, the wastewater flows into the aerobic bioreactor 6, in which the second stage of the aerobic/5 process of biological wastewater treatment takes place. In order to maintain the normal activity of activated sludge microorganisms, in aerobic bioreactors 5 and 6 continuous recirculation of liquid and its saturation with oxygen is provided. To saturate effluents with oxygen in aerobic bioreactors 5 and 6, a jet aeration system is used, which includes circulation pumps 10, which are installed on the walls of aerobic bioreactors 5 and 6, and jet aerators 11.

To clarify and separate the activated sludge, the wastewater after the aerobic bioreactor b flows by gravity into the sump 7. During the oxidation process, the amount of sludge increases continuously due to the growth of microorganisms and the presence of organic pollutants, therefore part of the sludge is periodically sent from the sump 7 to the anaerobic bioreactor 2 pipeline 12.

From the sedimentation tank 7, the wastewater enters the biofilter-filter 8 for further treatment, where the process of biological purification takes place in artificially created conditions. Purification of wastewater from residual concentrations of organic substances is carried out in biofilters-filters 8 at the expense of a fixed biofilm, which is created on an inert load. Cleaning from finely dispersed suspended substances takes place in the filter loading layer of the biofilter-filter 8.

Source of information: о зо 1. Patent for the invention Mo2220918 КИ

Claims (1)

"- Formula of the invention o (ee) Treatment plant for biological treatment of wastewater, which includes a case in which a block water treatment plant is placed, which is a set of tanks for cleaning in a technological sequence, the adjacent ones of which are made with a common wall, auxiliary equipment, which differs in that the containers are made of reinforced concrete, on which a layer of waterproofing material is applied from the inside of the container, and are placed along the perimeter of the housing so that at least one wall of each container is replaced by the wall of the housing, and auxiliary equipment « 70 Installed on the walls of the containers in the housing sewage treatment plant. with . and? ime) (ee) 1 - 70 (42) 60 b5