UA23277U - Plant for waste water purification - Google Patents

Abstract

A plant for waste water purification contains the circulation aeration basin of circular type with the carrier for microbial flora, device for the supplying polluted water, back activated sludge, removal sludge mixture, device for circulation, aeration and mixing. It also contains a located into a circular aeration basin second radial collector. The waste outlet opening in the internal wall of aeration basin is equipped with the reticulated device made in the form of the reticulated drum equipped with the device for its rotation and collector. The carriers for microbial flora are made in the form of the free-swimming plastic carriers for attached microbial flora, placed in the part of aeration basin volume. The movable bridge for service is located on the external basin ring.

Description

Description of the invention

The useful model belongs to wastewater treatment plants and can be used for wastewater 2 purification by the method of biochemical destruction of pollutants using suspended and immobilized cultures of microorganisms.

A well-known device for wastewater treatment according to (patent of Ukraine Mo59 cl. СО2Е3/12, 1993), which includes an aeration tank made in the form of a closed ring, equipped with a system of forced circulation, instant mixing and aeration, means of supplying source water and return activated sludge, means removal of 70 sludge water mixture.

The disadvantage of the installation is that it can be used only for small sewage treatment plants in small settlements (capacity up to 1000-1500m/day). For settlements with wastewater inflow of more than 1,500mZ/day, placement of a post-treatment filter with an inert carrier in the center of the aeration tank is constructive /5 Impossible. In addition, in this device, the secondary sump can only be of a vertical type, which does not make it possible to use it for the capacities of sewage treatment plants (WTP) of more than 1500 m3/day.

The disadvantage of this installation is also the absence in the aerotank of a combination of suspended and immobilized on an inert medium and adapted to specific oxygen conditions of microorganism cultures.

The closest technical solution to the claimed useful model is a sewage treatment device

Water (Patent of Ukraine Mo35276, IPC 6 СО2Е3/14, СО2ЕЗ/З0И, which contains a case made in the form of a rectangular closed circuit, a means of supplying contaminated water, return activated sludge, removal of the sludge-water mixture, a means of circulation, control and mixing. Placement of aeration means and mixing is toned down: in the initial zone of the closed circuit, with a length of no more than 1/2 of the total length of the device, a means of aeration and mixing is placed, made in the form of a perforated pipeline, in the next zone of the closed circuit, a means of mixing is placed, made in the form of two embedded propeller mixers cassettes with a volumetric inert carrier of attached microflora are installed along the perimeter of the device.

The disadvantage of this device is its local functionality, limited only to aeration treatment of wastewater. When using this device, it is necessary to build additional structures for settling and further treatment of wastewater. The inert loading material, which is used as a carrier of attached microflora, is located in blocks along the perimeter of the device. The negative aspect of this solution is the fact that only part of the wastewater circulating in the aeration tank is subject to treatment with the attached microflora. The main part of the He circulating flow bypasses the blocks with an inert carrier as a result of the fact that in the middle of the block the hydraulic resistance c is much greater than in the free space of the aero tank. Being in the closed space of the blocks, self-regeneration of immobilized microflora carriers is limited. and

In addition, the installation has a single air supply system for aeration and regeneration, which does not allow to clearly adjust the air supply for aeration.

Device according to (patent Mo35276)| does not include post-cleaning functions, therefore, when using this device, it is necessary to build an additional facility for post-cleaning on filters with attached microflora.

The useful model is based on the task of creating a device for a full cycle of biological treatment of "0 significant volumes of wastewater by equipping the installation with a settling and post-treatment system and a new 2 s constructive solution for the location of an inert carrier with immobilized microflora in the aeration basin, which ensures the effect of deepening wastewater treatment with the compactness of the installation. c The task is solved due to the fact that the sewage treatment plant, which contains a ring-type circulation aeration basin with a microflora carrier, a means of supplying contaminated water, return activated sludge, removal of the sludge mixture, means of circulation, aggradation and mixing, according to

The GI of the useful model is additionally equipped with a secondary sump located in the middle of the ring aeration basin and designed as a radial, the inner wall of the aeration basin is equipped with a mesh device, and made in the form of a mesh drum, equipped with a device for its rotation and a baffle, while

GI microflora carriers are designed as free-floating plastic carriers of attached microflora located in part of the volume of the aeration pool, and a movable bridge is located on the outer ring of the pool

Sh- service. "m In addition, between the aeration basin and the secondary sedimentation tank, an aftertreatment filter can be placed, which consists of blocks, each of which has a device for distributing waste water and an air lift device for moving the regeneration liquid into the aeration basin, a common collection tray with gate valves and 5B divided between the air supply system for aeration and the air supply system for regeneration.

This installation allows to optimize the conditions of the cleaning process and thereby increase the depth of wastewater treatment while simultaneously reducing sludge growth, reliable regeneration of inert carriers of immobilized microflora, as well as maximum compactness of the sewage treatment plant block.

The circulation aeration tank is modified in such a way that it does not have partitions that can create 60 stagnant zones, and the carriers of immobilized microflora are structurally made in the form of free-floating self-regenerating elements placed in the structure of a horizontal circulation sludge flow. If necessary, such a device has the ability to change media volumes during operation. This design makes it possible to effectively remove both organic compounds of nitrogen and phosphorus from wastewater in one aeration volume. This fact determines the economic expediency of applying this modification and its relevance in the conditions of growing requirements for the values of the final concentrations of nitrogen and phosphorus compounds in purified water and the need to correlate these requirements with European standards in the near future.

Under the conditions of free distribution in the flow of the sludge mixture of immobilization microflora carriers in the process of self-regeneration, the quantitative and qualitative characteristics of the biofilm formation process reach a dynamic equilibrium adapted to the quality of incoming wastewater. A characteristic feature of the biofilm on free-floating media is the ability to firmly attach large bundles of filamentous organisms to it. The strong structure of the biofilm and the improved sedimentation properties of the particles rejected from it make it possible to keep active biomass in the "aerotank-secondary settling tank" system and minimize the swelling of active sludge.

The discharge hole for supplying the sludge mixture to the settling tank has a mesh device to prevent the penetration of immobilization microflora carriers into the secondary settling tank. This device, rotating at the expense of the 7/0 Subhydrodynamic action of the flow, prevents accumulation of free-floating media near the hole and thus the formation of additional hydraulic resistance in the hole for feeding the sludge mixture into the secondary sedimentation tank.

In case of a need for a degree of deep post-cleaning, the installation is equipped with blocks of biofilters, which are located in a ring between the settling tank and the aeration basin. In total, depending on the power and size of the device, there can be from 8 to 12 separate biofilters, each of them works independently, but all are hydraulically connected in a common collection tray. Regeneration of filters is carried out by a separate air duct system for each filter separately. This makes it possible not to overload the aeration system by selecting a known amount of air for regeneration. Mounted airlifts in the collective trays of post-cleaning filters allow washing water to be supplied after regeneration directly to the aero tank. At the same time, the collective tray of post-cleaning filters has at least two outlet pipelines of purified water and a system of sliding gates that close, separating the part of the tray that belongs to the post-cleaning filter, which is subject to regeneration.

A useful model is explained by drawing.

Figure 1 shows a biological wastewater treatment plant, plan view; in Fig. 2 - longitudinal section; in Fig. 3 - a fragment of the longitudinal section of the post-cleaning biofilter; in Fig. 4 - a fragment of the plan of the aeration basin and biofilters; Fig. 5 is an image of a mesh device.

The wastewater treatment plant includes a wastewater treatment tray 1, an annular aeration basin 2, equipped with disk aerators 3, a means of ensuring the circulation of the sludge mixture 4, a collection well 5 with a mesh device 6, a radial type sedimentation tank 7 with a rotating farm of sludge pumps 8 and collecting tray 9, blocks of post-cleaning biofilters 10, separated by walls 11, common collection tray 12 for post-cleaning filter blocks, divided by post-cleaning blocks by shutters 13, drop-down bell distributors 14 M. from post-cleaning filter 10 with sliding flaps 15, airlift chamber well 16, airlifts 17, inventory pumps 18, wells 19 for emptying filter blocks after cleaning. The aeration system for the regeneration of the post-cleaning filter 20 is equipped with valves 21, the aeration system for saturating the sludge mixture with air oxygen 22 is equipped with valves 23. In the cavity of the aeration basin, a free-floating plastic load 24 is located.

In the after-cleaning filter blocks, between the limiting mesh membranes 26, there is a plastic loading device 25, gate valves 27 on the outlet pipelines 28. On the outer ring of the pool 2, there is a movable service bridge bridge 29.

The mesh device 6 consists of a mesh drum 30, a sump 31, a motor 32, an axis 33, blades 34.

A sewage treatment plant works like this.

The wastewater to be treated is fed into the aeration basin 2 through tray 1 and is picked up by the circulating flow of the sludge mixture due to the action of means 4, starting to move in it due to turbulence. . Through the aeration system 22, air is supplied to the aerators C located on the bottom of the aeration basin 2. In the volume of the annular aeration basin 2, the plastic loading 24, on which the microflora is immobilized, moves freely in the flow. Thus, in addition to the free-floating microflora in the aeration basin 2 is present

There is a known amount of attached microflora, which actively participates in the oxidation of sewage pollution, which ensures the growth of filamentous bacteria to it, in addition, in the outer layer of the attached biofilm, the process of nitrification takes place using dissolved oxygen, and in the depth of the biofilm layer, in conditions of oxygen deficiency, processes of denitrification and removal of phosphorus compounds. Thus, polluted wastewater in the process of circulation is oxidized and freed from nitrogen compounds.

Part of the sludge mixture circulating in the annular aeration tank 2 enters the collecting well 5 for feeding into

Ш is the center of the secondary radial sump 7. The sludge mixture enters the well 5 through the mesh device 6, which is equipped with a motor 32 or rotates around the axis 33 due to the hydrodynamic forces of the flow of the sludge mixture, which is directed through the vanes 34 into the collecting well 5 into the secondary radial sump 7.

The mesh device 6, rotating in the direction of the circulation flow in the aeration basin 2, prevents the free-floating plastic load 24 from accumulating near the spillway into the well 5 of feeding the sludge mixture into the secondary sedimentation tank 7. Individual media attracted by the flow to the mesh drum 30 are removed when it is rotated by the sedimentation tank 31 and are picked up by the general circulation flow of aeration basin 2.

From well 5, the sludge mixture enters the central part of the secondary settling tank of radial type 7 through the pipeline, in which the separation of purified water and sludge takes place. Sludge settles to the bottom of the secondary sump 7 and is sucked by sludge suction devices located on the farm 8, which rotates on the sump. Sludge is piped into the sludge chamber and returned to the aeration basin by pumps (not shown), and excess sludge is returned to further processing.

Purified water drains through the edge of tray 9, located on the perimeter of the secondary sedimentation tank 7. From tray 9, purified wastewater enters the post-treatment filter blocks 10 through bell-shaped distributors 14 and 65. download 25.

In the filter 10, the treated wastewater undergoes further treatment, which merges into the common tray 12 of the after-treatment filters 10. From the tray 9 of the after-treatment filter, wastewater flows through the normally open gate valves 27, located on diametrically opposite sides of the annular common tray 12 of the after-treatment filter 10 and further along the outlet pipelines are discharged.

After-cleaning filters 10 need periodic regeneration. The regeneration of the post-cleaning filters 10 takes place as follows: the post-cleaning filter blocks 10 are taken out for regeneration in turn in order to prevent overloading of the aeration system 22 of the installation and reducing the air supply to the aeration pool 2.

In the post-cleaning filter block 10, which is subject to regeneration, part of the common lot 12 of the post-cleaning 7/0 filters 10 is isolated by slide valves 15, which are located on both sides in the separate walls 11 of the post-cleaning filter block 10, which is subject to regeneration. Thus, the liquid from this block no longer enters the common tray 12 of the post-cleaning filter and is further discharged. At the same time, the corresponding valves 21 on the regeneration aeration system 20, which belong to the after-cleaning filter block, are opened for regeneration.

The air enters the perforated pipe of the regeneration system and the filter loading takes place 25. 7/5 At the same time, the air enters the air lift, which begins to direct the biocenosis, spent and separated from the filter loading media, into the aeration basin 2, from where it, together with the sludge mixture of the basin 2, will enter into the secondary sump 7 and together with the floating sludge will be removed for further processing.

At the same time, the purified wastewater from the secondary sedimentation tank 7 from the lot 9 continues to flow into the filter unit 10, which is taken out for regeneration, and serves as a liquid for the removal of spent and separated biocenosis from the media into the aeration pool 2 by airlifts 17.

If necessary, the emptying of each filter block 10 is carried out as follows: the gate valves 15 in the dividing walls of the common tray 12 of the post-treatment filter block 10 are closed, the gate valve on the lowering bell-shaped distributor 13, which supplies purified wastewater from the ring collection tray 9 to the secondary sump, is closed 7. In this way, water access to the after-cleaning filter block 10, which is subject to emptying, is completely isolated.

Next, an inventory submersible pump 18 is introduced into the upper hole of the bell pipe 19, which is used to empty the capacity of the post-cleaning filter block 10.

All operations with gate valves, devices for ensuring circulation 4 and repair work in the M zone of the aeration basin 2 and the post-cleaning filter 10 are carried out from the mobile bridge 29. cha

Claims (1)

The formula of the invention c so 35 1. Installation for wastewater treatment, containing a ring-type circulating aeration basin with a microflora carrier, a means of supplying polluted water, return activated sludge, removal of the sludge mixture, means of circulation, aeration and mixing, which is distinguished by the fact that additionally contains a secondary settling tank located inside the ring aeration basin, designed as a radial one, and the discharge opening in the inner wall of the aeration basin is equipped with a mesh device, made in the form of a mesh drum, equipped with a device for its rotation and a settling tank, while the microflora carriers are made of free-floating plastic carriers of attached microflora placed in part of the volume of the aeration pool, and a movable service bridge is located on the outer ring of the pool. :z" 2. Installation according to claim 1, which differs in that between the aeration basin and the sump there is an aftertreatment filter, which consists of blocks, each of which contains a device for distributing waste water and an airlift device for moving the regeneration liquid into the aeration basin, total collection tray with sliding d) latches and separate air supply systems for aeration and air supply systems for regeneration. (95) name) - 50 that p 60 b5