UA64453C2 - Plant for waste water biological purification - Google Patents

Abstract

A plant for waste water biological purification contains a cylinder- shaped tank where on the bottom without air-gap a vertical cylinder large-diameter baffle is mounted and fixed on the small-diameter stake. The baffle of smaller diameter together with the bottom form an aeration zone where the aeration device and container with upper and lower circle gagger-guide paths are placed. On the gaggers the elements of wire-line rope grab are placed. The aeration device contains sequentially mounted an air pipe-line, a collector, perforated circular elements. The baffle of larger diameter together with a tank wall form a sludge zone and together with the small-diameter baffle it form suspended active sludge layer. A clearing zone is formed by cylindrical baffle of he smaller diameter and the wall of a tank. In the upper part of clearing zone is mounted a circular tray. Over aeration zone there is a mesh filter, a container with a bag made of filter fabric fixed with grids and also the container with filtering bag where upper airlift socket ends.

Description

Description of the invention

The invention belongs to the constructions of biological purification of polluted water, it can be used for purification of domestic water and wastewater close to it in composition.

For the most rational use of water resources, great attention is paid to treatment facilities and installations. The intensification of industry, the improvement of the improvement of cities and villages, their growth, and the increase in requirements for the quality of wastewater treatment require the creation and improvement of structures with deep cleaning. Biological purification is especially important in large settlements, where the amount of wastewater is significant and requires constant purification with a sufficiently high level of purification quality.

Currently, as well as in the future, a significant role is assigned to biological methods of urban and industrial wastewater treatment, as the most economical, simple and reliable.

The basis of the complex of facilities for the biological treatment of urban and industrial wastewater are biofilters and aeration tanks of 12 different designs. Treatment plants are connected in a single technological line, the work of each affects the other.

Therefore, the intensification of the work of biological treatment facilities is complex. The main tasks of biological treatment are: increasing throughput and efficiency, reducing capital and operating costs, including labor-intensive maintenance and energy-intensive technological processes, rational use of land plots.

Among the facilities for biological wastewater treatment, there are devices that provide wastewater treatment with high doses of activated sludge - float tanks. Known designs of floating tanks have a general scheme of operation, which consists in the fact that wastewater after mechanical cleaning is fed into a pressure-free aeration zone, which is equipped with appropriate aeration devices. The sludge mixture from the aeration zone is saturated with air, which is mixed with clarified wastewater and fed to the pressureless zone of the flotation sludge separator. with

The design of the installation of biological wastewater treatment |(1| based on an aerotank-settlement with Ge) by low-pressure pneumatic aeration is known. The structure has a wastewater pipeline, an air supply pipeline, a tray for feeding the sludge mixture, a central chamber, a sump, a tray for the removal of purified water, an aerator, return windows for the return of the sludge mixture, a pipe for the removal of excess sludge mixture. The design has proven itself well during the treatment of concentrated wastewater with sharp fluctuations in composition and during volley discharges, and for the treatment of wastewater that has the characteristic formation of "swelling" activated sludge. oh

Because the filamentous and other bacteria, which at the same time show their activity, are well fixed on the inert carrier, they are not removed from the aerotank system - the secondary settling tank. The well-known design provides a high cleaning capacity, but with relatively low capital costs and rational use of land plots, it also has a sufficiently high labor intensity of maintenance and is not long-term in use. 3o The known design of the biological treatment plant |2) is adopted as a prototype. The structure is an ee, a circular tank divided into aeration and settling zones by a sloping partition that does not reach the bottom. Along the entire length, in the lower part of the partition, a jet-directed visor is made, which descends into the aeration zone at an angle of 452. Wastewater through inlets located at a distance of 4-5 meters "is fed into the aeration zone, where it is mixed with activated sludge and blown with air. From the sludge aeration zone, the 7 70 mixture enters the sedimentation zone through the bottom slot under the inclined partition and, after passing through the balanced layer of sludge, is removed from the structure. хз For forced circulation of activated sludge in the settling zone, sludge bunkers are provided, into which activated sludge from the upper part of the balanced layer enters, from where it is pumped by airlifts to the aeration zone. The distance between the bunkers is assumed to be equal to 4-5 meters, their upper edges are located horizontally by 0.3-0.5 mm at 75 below the surface of the balanced layer of sludge, the walls must have an inclination of at least 602. The discharge of circulating sludge into the aeration zone is shifted in plan relative to waste water intake. t» Clarified wastewater enters the lower part of the aeration zone, where air is supplied by pneumatic or pneumomechanical means, which ensures the process of biochemical oxidation, and also creates the circulation movement of substances in this zone and the suction of the sludge mixture from the circulation zone of the settling tank. 1 50 The invention is based on the task of creating an improved design of a biological wastewater treatment plant with a higher oxidizing capacity and which ensures stable operation of the plant during sharp discharges of the incoming wastewater mixture, or during volley discharges, by using a special loading, which reduces the swelling of activated sludge.

The set task is solved by the fact that in the installation of biological wastewater treatment, which contains a tank in the form of a closed container, in which at least two partitions are placed, which form

GF) at least four zones, one of which is an aeration zone, and at least one of the partitions has an inclined 7 conical surface and forms an annular gap near the bottom of the tank; an aeration device installed in the aeration zone, containing at least one perforated air duct in the form of at least one ring pipe; pipelines for the supply of waste water, the removal of purified water and the removal of excess activated sludge; a water-collecting ring tray connected to the pipeline for the removal of purified water; and at least one filter, the tank is made in the form of a cylinder, in it a vertically cylindrical partition of a larger diameter with a height of not more than half the height of the tank is installed on the bottom without a gap, and a partition of a smaller diameter is fixed on the racks in such a way that its lower edge in the form of an inclined conical surface forms two annular gaps, one with the bottom of the tank, and the second with a partition of a larger diameter, while the partition of a smaller diameter together with the bottom form an aeration zone, in the latter is placed a container with upper and lower concentrically located ring guides made of stainless material , connected to each other by rigid radially installed elements, and the upper and lower ring guides are installed one above the other and at the same distance from each other, connected to each other in such a way as to form a rigid structure, for example, the upper and lower central ones (closest to each other to the center) rings and peripheral (the most are located from the center) the upper and lower rings are connected by vertical racks; on the upper and lower, respectively, concentrically located ring guides, hooks are welded, on which the rope loading elements of the "Yorzh" type are installed; the aeration device is located in the aeration zone in the lower part of the tank, it contains a serially installed air duct, a collector, perforated 7/0 ring elements, while the air duct consists of a supply nozzle (located perpendicular to the axial tank) and an aeration nozzle, which is connected to collector and passes through the center of the tank, the collector is made in the form of a pipe horizontal to the bottom, connected in the middle to the aeration nozzle and connected in at least two places to each of the perforated rings, made in the form of increased standard sizes, and the perforated rings are assembled from straight sections of pipes, have a lower 7/5 perforation in the form of diametrical holes, the diameter of which is set within 2 mm and so that their total area on one pipe is no more than 0.4 of the cross-sectional area of the pipe; a partition of a larger diameter together with the wall of the tank form a sludge zone, and together with a partition of a smaller diameter - a zone of a suspended layer of active sludge; in the lower part of the sludge zone there is an annular perforated pipe of the sludge zone, which has a lower perforation in the form of diametrical holes, connected to the airlift by means of a tee; the illumination zone is formed by a cylindrical partition of a smaller diameter and the wall of the tank, in the upper part of the illumination zone there is a ring tray connected to the outlet pipe, in the upper part above the aeration zone there is a mesh filter, a container with a filter fabric bag, reinforced with gratings, as well as a container with a filter bag in which the upper nozzle of the airlift ends.

Essential features common to the prototype: the tank in the form of a closed container, the presence of at least two partitions in the tank, which form at least four zones, one of which is an aeration zone; at least one of the partitions has an inclined conical surface and forms an annular gap near the bottom of the tank; i) an aeration device installed in the aeration zone, which contains at least one perforated air duct in the form of at least one ring pipe; the pipeline for the supply of wastewater, the removal of purified water and the removal of excess activated sludge; water-collecting ring tray connected to the purified water discharge pipeline; so zo! at least one filter.

The essential distinguishing features of the applied biological wastewater treatment plant ensure the obtaining of a technical result as follows: "d - the tank is made in the form of a cylinder; - a vertical cylindrical partition of a larger diameter is installed in the tank at the bottom without a gap; - - the height of the partition is not more than half the height of the tank; "o - in the tank, a partition of smaller diameter is fixed on the racks; - a partition with a smaller diameter has an inclined conical surface; - a partition of a smaller diameter is fixed in such a way that its lower edge (in the form of an inclined conical surface) forms two annular slits; "- two annular slits are made in such a way that one of them is formed with the bottom of the tank, and the second - 3 - n-) with a partition of a larger diameter; - a partition with a smaller diameter together with the bottom form an aeration zone; ;" - a container with upper and lower concentric ring guides is placed in the aeration zone; - ring guides are made of stainless material;

Ge" - ring guides are rigidly connected to each other by radially installed elements; - the upper and lower ring guides are installed one above the other and at the same distance from each other; o - the upper and lower ring guides are connected to each other in such a way as to form a rigid structure, for example, the upper and lower central (closest to the center) rings and the upper and lower peripheral (furthest sl 50 from the center) rings the rings are connected by vertical racks; - on the upper and lower, respectively, concentrically located ring guides, welded hooks; 4) - on which the rope loading elements of the "Yorzh" type are installed; - the aeration device is located in the aeration zone in the lower part of the tank; - the aeration device includes a serially installed duct, a collector, and perforated ring elements; - the air duct consists of a supply nozzle (located perpendicular to the axial

F) tank) and aeration pipe; ka - the aeration pipe is connected to the collector and passes through the center of the tank; - the collector is made in the form of a pipe horizontally located to the bottom of the tank; in - the collector is connected in the middle to the aeration nozzle and is connected to perforated rings in at least two places; - perforated rings are made in the form of enlarged standard sizes; - perforated rings are assembled from straight sections of pipes, have bottom perforation in the form of diametrical holes; 65 - the diameter of the holes is set within 2 mm and so that their total area on one pipe is no more than 0.4 of the cross-sectional area of the pipe;

- a partition with a larger diameter together with the wall of the tank form a sludge zone; - a partition of a larger diameter together with a partition of a smaller diameter form a zone of suspended layer of active sludge; - in the lower part of the sludge zone there is an annular perforated pipe of the sludge zone; - the perforated pipe of the sludge zone has lower perforation in the form of diametrical holes; - the perforated pipe of the sludge zone is connected to the airlift by means of a tee; - the lighting zone is formed by a cylindrical partition of smaller diameter and the wall of the tank; - a ring tray is installed in the upper part of the lighting area; 70 - the ring tray is connected to the outlet pipe; - in the upper part of the tank, above the aeration zone, there is a mesh filter, a container with a bag made of filter cloth, reinforced with gratings, as well as a container with a filter bag, in which the upper nozzle of the air lift ends.

Distinctive features of the technical solution, which is claimed in combination with common essential features with the 7/5 prototype, ensure the achievement of a technical result, such as: achieving in the biological wastewater treatment plant a higher oxidizing power and stability of the plant operation during sharp emissions of a mixture of wastewater, which comes, or during salvo emissions, reducing the swelling of activated sludge.

In the proposed installation, the flow of water to be cleaned and circulating waste is organized from top to top, and in the zone of the suspended layer from bottom to top. Separation of the flow of circulation consumption and

The consumption of purified water is carried out due to a forced change in the direction of movement of the flow of circulation consumption in the sludge zone with the help of an airlift. Airlift is also designed to remove excess activated sludge. This is achieved by using a two-level spillway on the airlift.

Figure 1 shows the design of the biological wastewater treatment plant; in Fig. 2 - an aeration device (top view) with attached perforated rings; in Fig. 3 - the same as in Fig. 2, a cross-section of the aeration device along the length of the collector from the side; in Fig. 4 - the design of the airlift; in Fig. 5 - the design of the container, front view; Fig. b is the same as Fig. 5, a view of the container structure from above (you can see concentrically arranged rings with hooks).

The installation of biological wastewater treatment consists of a tank 1 in the form of a cylinder, in which a vertically cylindrical partition (larger diameter) 3 is installed on the bottom 2 without a gap, with a height of no more than one and a half times the height of the tank 1, and is fixed on racks (not shown and not marked), a partition 4 of a smaller diameter with an inclined annular surface 5. The partition 4 with its inclined surface 5 forms two annular gaps 6 and 7, one 6 - with the bottom 2 of the tank 1, and the second 7 - with the partition C, while the partition 4 with "E inclined annular surface 5 and together with the bottom 2 of the tank 1 form the aeration zone 8. In the aeration zone 8, the container 9 (see Fig. 5 and Fig. b) is installed on the racks 10, 11. The container 9 has upper 12, 13, 14, 15, 16, « 17 and lower 18, 19, 20, 21, 22, 23 are ring guides made of stainless material, which are connected to each other by rigid radially installed elements 24, 25, 26, 27. Moreover, upper 12, 13, 14, 15, 16, 17 and lower 18, 19, 20, 21, 22, 23 circles these guides, respectively, for example, the ring guide 12 and the ring guide 18, are installed at the same distance one above the other, and the inner 17 and 23 and the outer 12 and 18 ring guides are connected to each other by additional vertical elements with racks (not marked) so that " form a rigid structure of the container 9. On the upper 12, 13, 14, 15, 16, 17 and the lower 18, 19, 20, 21, 22, 23 -in concentrically located ring guides, welded hooks 28, their number is determined by technological conditions . On the hooks 28, the elements (Fig. 1) of the rope are installed according to the number of hooks; loading 29 type "Yorzh". The aeration device (Fig. 2) is located in the aeration zone 8 in the lower part of the tank 1, consists of sequentially installed air duct 30, collector 31 (Fig. 1, 3), perforated

32 ring elements (Fig. 2). At the same time, the ZO air duct consists of a supply nozzle 33

Ge" (located perpendicular to the axial tank) and the aeration nozzle 34, which is connected to the collector 31 and passes through the center of the tank 1. The collector 31 is made in the form of a pipe horizontal to the bottom 2 (see Fig. 2), connected in the middle to aeration nozzle 34, and, at least in two places, connected (see Fig. 2) to each of them from perforated rings 32 (their number is selected from the technical conditions), made in the form of increasing standard sizes. Moreover, the perforated rings are assembled from straight sections of pipes, have lower perforations in the form of o-diameter holes, the diameter of which is set within 2 mm and so that their total area on one pipe is no more than 0.4 of the cross-sectional area of the pipe.

Partition Z of a larger diameter together with the side wall of tank 1 form a sludge zone 35, and together with a partition 4 of a smaller diameter - a zone of suspended layer 36 of active sludge. In the lower part of the sludge zone 35, there is an annular perforated pipe 37 of the sludge zone 35, which has a lower perforation in the form of diametrical holes (not shown and not marked) and is connected to the air lift 38 (Fig. 4) by means of a tee (not

F) shown and not marked). Airlift 38 has lower 39 and upper 40 nozzles. The lower nozzle 39 is located in the aeration zone 8, equipped with a shut-off valve (not marked), and the upper 40 is inserted into the container 41.

The illumination zone 42 is formed by a cylindrical partition 4 of a smaller diameter and the wall of the tank 1. In the upper part of the illumination zone 42, an annular tray 43 is installed, which is connected to the discharge nozzle 44. In the upper part, above the aeration zone 8, there is a nozzle 45 for the supply of wastewater, which located above the mesh filter 46, and the container 47, equipped with a bag (not marked) of filter cloth, reinforced with bars; as well as a container 41 with a filter bag 48, in which the upper nozzle 40 of the airlift 38 ends. The airlift 38 is equipped with a purge nozzle 49 connected to the air duct 30 through a shut-off valve 50. 65 The installation is serviced from a specially equipped platform 51.

The installation is equipped with covers, as well as ventilation equipment for the removal of gases and air, which is carried out through the ventilation pipe 52.

Operation of the installation

Waste water from the place of its formation through the pipeline enters the upper part of the aeration zone 8 through the pipe 45, passes through the mesh filter 46, made of stainless steel with 20x20 mm windows, which ensures the retention of large insoluble additives that may be in the wastewater (mesh filter 46 for 1/4 of its height, the lower part is immersed in liquid, it is removable for ease of use). Waste water, entering the aeration zone 8, undergoes biochemical oxidation under the action of activated sludge microorganisms and oxygen in the air, which is supplied to the lower part of the aeration zone 8 through the supply pipe 33, the aeration pipe 34, the collector 31 and through perforated pipes 32 (Fig. 2) aeration system. Aeration of wastewater is carried out on the entire plane of aeration zone 8. In aeration zone 8, there are 29 rope loading elements of the "Yorzh" type, which during the process of biological purification of wastewater provide an increase in the oxidizing power of the installation, and which allows maintaining the biocenosis of suspended active sludge in the installation and fixed in the form of a biological film.

Waste water in combination with activated sludge through the annular gap 6, which is formed by the conical partition 5 at the bottom of the installation 2, through the gap 7, which is formed by the conical partition 5 and the overflow partition C, enters the zone of the suspended layer 36 of activated sludge by overflow. The zone of the suspended layer 36 of activated sludge is formed by overflow Z and cylindrical-conical 4-5 partitions of the aeration zone 8. Purified wastewater through the layer of suspended layer 36 of activated sludge enters the clarification zone 42, from where it is removed from the installation through the annular collection tray 43 through the outlet pipe 44 .

The separation of the sludge mixture is carried out under the action of separating the flows of purified water and circulating active sludge, which in turn is diverted (settling) into the sludge zone 35, which is formed by the partition C and the wall of the tank 1.

With the help of the air lift 38 and the perforated pipe 37 connected to it, the circulating sludge of the sludge zone 35 is returned (raised, overflowed through the partition 3) to the aeration zone 8.

The container 41 has a filter bag 48 for collecting and dewatering excess activated sludge. and)

The sludge water, passing through the filter bag 48, is returned to the aeration zone, and the excess activated sludge remains in the filter bag 48. As the excess sludge of the activated sludge accumulates in the bag 48, it is removed to a landfill or compost. Circulation consumption due to airlift should be not less than 50095 of the consumption due to airlift, which enters in the mixture of waste water for treatment.

The dose of activated sludge can reach up to 6-8 g/l in the given installation, depending on the organic load on the activated sludge. "IS

The increased amount of biological mass ensures stable operation of the installation during sharp fluctuations in the composition of wastewater entering for treatment and/or volley discharges. In addition, the probability of ""swelling" of activated sludge decreases, because the filamentous bacteria that cause this phenomenon are well fixed on He rope loadings and do not fall with the sludge mixture into the zone of the suspended layer of activated sludge and the settling zone.

The container with rope loading allows to significantly increase the working dose of activated sludge and, accordingly, the oxidizing capacity of the installation. At the same time, high quality of wastewater treatment is ensured. "

The installation can be widely used in the national economy for the purification and rapid recovery of wastewater used for technical needs.

Materials used: 1. Yu.V. Voronov et al. "Reconstruction and intensification of sewage treatment works",

Moscow Stroyizdat, 1990, pp. 66-68 - analogue. 2. "Sewerage of settlements and industrial enterprises". Directory of the designer, m.

Ge» Stroyizdat, 1981. - prototype. sh» iz

Claims (1)

The formula of the invention is 20 Installation of biological purification of wastewater, containing a reservoir in the form of a closed container, in which at least two partitions are placed, which form at least four zones, one of which is an aeration zone, and at least one from the partitions has an inclined conical surface and forms an annular gap near the bottom of the tank; an aeration device installed in the aeration zone containing at least one perforated air duct in the form of at least one ring pipe; pipelines for the supply of waste water, the removal of purified water and the removal of excess activated sludge; water-collecting ring tray connected to the purified water discharge pipeline; (F) and at least one filter, which is characterized by the fact that the tank is made in the form of a cylinder, in it a vertically cylindrical partition of a larger diameter with a height not greater than half the height of the tank is installed on the bottom of the GI without a gap, and a partition of a smaller diameter is fixed on the racks in such a way that its lower edge in the form of an inclined conical surface forms two annular slits, one with the bottom of the tank, and the second with a partition of a larger diameter, while the partition of a smaller diameter together with the bottom form an aeration zone in which the container with the upper and the lower concentrically located ring guides made of stainless material, connected to each other by rigid radially installed elements, and the upper and lower ring guides are installed one above the other and at the same distance from each other 65, connected to each other so that they form a rigid structure, for example, the upper and lower central (closest to the center) ki and peripherally (farthest from the center) located upper and lower rings connected by vertical racks; on the upper and lower, respectively, concentrically located ring guides, hooks are welded, on which the rope loading elements of the "Yorzh" type are installed; the aeration device is located in the aeration zone in the lower part of the tank, it contains an air duct, a collector, perforated ring elements installed in series, while the air duct consists of a supply nozzle (located perpendicular to the axial tank) and an aeration nozzle, which is connected to the collector and passes through the center of the tank, the collector, made in the form of a pipe horizontal to the bottom, connected in the middle to the aeration nozzle and connected in at least two places to each of the perforated rings, made in the form of increased standard sizes, and the perforated rings 70 are assembled from straight sections of pipes, have lower perforation in the form of diametrical holes, the diameter of which is set within 2-3 mm and so that their total area on one pipe is no more than 0.4 of the cross-sectional area of the pipe; a partition of a larger diameter together with the wall of the tank form a sludge zone, and together with a partition of a smaller diameter - a zone of a suspended layer of active sludge; in the lower part of the sludge zone there is a ring perforated pipe of the sludge zone, which has a lower perforation in the form of diametrical /5 holes, connected to the airlift by means of a tee; the illumination zone is formed by a cylindrical partition of a smaller diameter and the wall of the tank, in the upper part of the illumination zone there is a ring tray connected to the outlet pipe, in the upper part above the aeration zone there is a mesh filter, a container with a filter fabric bag, reinforced with gratings, as well as a container with a filter bag in which the upper nozzle of the airlift ends. c z (8) (ze) iv) « « (Se) - I.Y and? (o) sh» sh» 1 syu» ime) 60 b5