RU64202U1 - INSTALLATION FOR DEEP BIOLOGICAL CLEANING OF HOUSEHOLD AND INDUSTRIAL WASTE WATER - Google Patents

Abstract

The utility model relates to the biological treatment of wastewater using activated sludge in suspension, in particular to biological treatment plants (UBO) and is intended for wastewater treatment of residential and industrial buildings. UBO, contains a housing with equalization and activation chambers, an aeration system (SA) with aeration and pumping equipment for water and sludge connected to compressors connected to a control unit with the possibility of turning on the supply of compressed air to the aeration system in at least two successively alternating process cycles purification, wastewater treatment cycle with recirculation of activated sludge and the withdrawal of purified water from the installation and the active water treatment cycle, according to the utility model, UBO is additionally equipped with an active sludge and a after-treatment chamber with a filter and an active means for cleaning the filter with the removal of contaminants, as well as means for entering and withdrawing purified water, while the SA is made in the form of two aeration subsystems (AP) with the corresponding groups of means for pumping and aeration (HS), each of which is designed to work only in one of the mentioned wastewater treatment cycles and is connected to the corresponding compressor, while the compressor of one of the APs is connected to the control unit with the possibility of turning it on only in cycles implicit water purification, AP and the other compressor is connected to the control unit with the possibility of switching into operation only in cycles of wastewater treatment with recirculation of the activated sludge and treated water output from the plant, wherein the installation body is formed from sheet polymeric material. In preferred embodiments, the filter is made of at least two layers with a lower sand layer located on the supporting grid and the upper gravel layer, while in the space between the bottom of the after-treatment chamber and the supporting grid there is an active filter cleaning agent made in the form of a distribution pipe connected to the CA through a pressure pulsator, a means for removing contaminants from the after-treatment chamber is made in the form of an airlift with a flow line connected to the equalization chamber, both AP compressors are connected emergency distributor ensuring the possibility of switching the air supply to one or other heavy CA from one compressor, at failure of the other compressor, wherein the emergency valve is designed as a solenoid valve, as the resin material used polyethylene, or vinyls, or other such materials.

Description

The utility model relates to the biological treatment of wastewater using activated sludge in suspension, in particular to biological treatment plants (UBO) and is intended for wastewater treatment of residential and industrial buildings.

Known UBO, containing a housing with aeration tank cylindrical shaft, clarifier departments of flotation and degassing, water pipes, aerators and compressors, see SU No. 1174385, M.cl. С02F 3/02, 1984

This device is complex in design and inefficient in operation.

The closest analogue of the claimed utility model is a UBO containing a housing with equalization and activation chambers, a silt sump, an aeration system with five compressors, pumps and aerators connected to the control unit, with the possibility of providing direct and reverse wastewater treatment cycles. The control unit also provides automatic control of the operating modes of the installation in accordance with a predetermined program, with the possibility of correcting the operating mode (with uneven flow of wastewater) according to the signals of the level sensors, see patent RU No. 2162062, M.cl. С02F 3/00, 95 g.

The disadvantages of this UBO are the unreliability of the design and significant costs for the manufacture and operation of the installation, due to the excessive number of compressors (respectively, pipelines), failure of at least one of which leads to an emergency stop of the installation. In addition, in this installation, the water treatment cycle ends after the sedimentation process of sludge, which takes quite a long time. As a result, part of the microorganisms enter the treated water, which reduces the quality of treatment.

The technical problem solved by the claimed utility model is to increase reliability, simplify the design and reduce costs during the construction and operation of the installation, without compromising the quality of cleaning.

The solution to this problem was achieved due to the fact that the UBO, containing a housing with equalization and activation chambers, an aeration system with aeration and pumping water and sludge connected to compressors connected to the control unit with the possibility of turning on the supply of compressed air to the aeration system in at least than two sequentially alternating cycles of the treatment process, the wastewater treatment cycle with recirculation of activated sludge and the withdrawal of purified water from

of the installation and cycle of active water purification, according to the utility model, the UBO is additionally equipped with an activated sludge stabilization chamber and a post-treatment chamber with a filter and an active means for cleaning the filter with the removal of contaminants, as well as means for introducing and discharging purified water, while the aeration system is made in the form two aeration subsystems with corresponding groups of pumping and aeration tools, each of which is designed to operate in only one of the mentioned wastewater treatment cycles and is connected to the corresponding the compressor, while the compressor of one of the aeration subsystem is connected to the control unit with the possibility of turning it on only in active water treatment cycles, and the compressor of the other aeration subsystem is connected to the control unit with the possibility of turning it on only in the wastewater treatment cycles with recirculation activated sludge and the withdrawal of purified water from the installation, while the housing of the installation is made of sheet polymer material. In preferred embodiments, the filter is made of at least two layers with a lower sand layer located on the supporting grid and the upper gravel layer, while in the space between the bottom of the aftertreatment chamber and the supporting grid there is an active filter cleaning agent made in the form of a distribution pipe connected to the aeration system through a pressure pulsator, the means for removing contaminants from the after-treatment chamber is made in the form of airlift with a flow line connected to the equalization chamber, both compressors aeration subsystems are connected to the emergency distributor with the possibility of switching the air supply to one or another group of means for pumping and aeration of the aeration system from one compressor, if another compressor fails, while the emergency distributor is made in the form of an electric fan, polyethylene is used as a polymeric material , or vinyl plastic, or other similar materials.

The drawing schematically shows a General view of the installation (longitudinal section).

The UBF contains a housing “K” with a surge chamber A, an activation chamber B, a secondary sump B, an activated sludge stabilization chamber G, a pump 1 in the form of an airlift for pumping untreated water, which is housed in a filter for coarse sewage 2, made in the form of a perforated casing, an aerator 3 equalization chamber A. In addition, the installation contains a guide-retainer 4 of the filter of coarse sewage, a sludge pump 5 in the form of airlift for pumping excess activated sludge from activation chamber B. Aerator 6 and a sludge pump 7 in the form of airlift are installed in chamber D and for pumping excess activated sludge. Chamber A is equipped with a nozzle 8 for entering wastewater, respectively, chamber B is equipped with a nozzle 9 for discharging purified wastewater. Equalization chamber A is equipped with a control float level sensor (switch) 10 and an emergency float sensor

level (switch) 11. The activation chamber B is equipped with an aerator 12, the aerator 3 of equalization chamber A is equipped with an aeration element 13 Position 14 in the drawing indicates the level of sludge in chamber B, position 15 indicates the maximum level of waste water in chamber B, position 16 indicates the level of sludge in chamber D, position 17 indicates the level of activation of the reverse cycle (recirculation mode) position 18 indicates the level of inclusion of the direct cycle (operating mode), position 19 indicates the emergency level The installation also includes a control unit 20 a guard with a timer 21, an alarm 22. The aeration system is equipped with two compressors 23 and 23A, connected respectively to the distributors 24 and 25 for two groups of means for pumping and aeration in the process of wastewater treatment. The first group consists of a compressor 23 connected through a distributor 24 to a pump 1 in chamber A, an aerator 12 in chamber B and a pump 26 in the form of an airlift for pumping treated wastewater from chamber B to a secondary settling tank 27. The second group consists of a compressor 23A connected through a distributor 25 to an aerator 3 of activation chamber A, a pump 28 for removing floating contaminants from the secondary sump B, a sludge pump 5 in the form of an airlift for transferring sludge from chamber B to chamber D and a pump 29 connected to the pipe 9 for supplying purified wastewater to the after-treatment.

Compressors 23 and 23A can also be connected to the emergency distributor 30 made in the form of an electric valve connected to the control unit 20. The emergency distributor 30 is connected with the possibility of periodic switching of one of the compressors 23 or 23A (for example, if one of them fails) to the system aeration when switching to any of the two modes of wastewater treatment In addition, the installation is equipped with a after-treatment chamber 31 with a two-layer filter in the form of a sand layer 32 and a gravel layer 33 located on the carrier grid 34. The means for filter regeneration is made in the form of a distribution pipe 35 located in the space between the carrier grid 34 and the bottom of the chamber 31. The means for removing contaminants is made in the form of a pump (airlift) 36, the flow line of which is connected to surge chamber A and connected to the distributor 24 for the withdrawal of purified water is made in the form of a pump (airlift) 37 connected to the distributor 25.

The UBO operation is as follows.

Contaminated wastewater enters surge chamber A, with averaging of volley discharges in it and preliminary treatment of wastewater with activated sludge. Partially treated wastewater is pumped from this chamber by pump 1 into activation chamber B, in which complete biological treatment of wastewater takes place. After purification, a mixture of treated wastewater and active

the sludge is pumped by pump 28 to the sedimentation tank 27 of the secondary sump B, where the sludge sediment flows back into the activation chamber B. Sludge of purified water is pumped by the pump 29 to the after-treatment chamber 31. If the flow of wastewater is insufficient and the level of wastewater in the equalization chamber A is reduced to a predetermined minimum level 17, then, at the signal of the float level sensor 10, the compressor 23 of the aeration system group is turned on in the wastewater treatment cycle with recirculation of activated sludge and the withdrawal of purified water from the installation. In this cycle, aeration of equalization chamber A is carried out, sludge is pumped out (by pump 5) from activation chamber B to the stabilization chamber of activated sludge G, where sludge is divided into fractions, while the lightest most active sludge is drained back into the equalization chamber, and the heavier sludge is recycled settles down the camera. When reaching the upper working level 18 in surge chamber A, the float level sensor 10 is triggered by the signal of which the compressor 23A of the aeration system group is switched on in the cycle of active water treatment. If during the wastewater treatment cycle in the surge chamber A the level of wastewater rises due to the influx of untreated water into it, then the time of this cycle is automatically reduced in proportion to the amount of newly arrived untreated water (if there is no influx of untreated water, the phases are approximately the same). The optimum amount of activated sludge in chamber B is automatically maintained by pump 5, by pumping a certain amount of a mixture of activated sludge with wastewater into chamber D, after the end of each cycle. Thus, in the course of work, the activated sludge is automatically removed and its concentration is maintained at the level necessary for optimal treatment. The cleaning efficiency depends on the number of cycles (4-5 times a day). The stabilized sludge formed in chamber D is removed from it in a liquid state through fecal transport. The concentration of dry sludge under normal conditions is 2-3%, i.e. 20-30 kg / m ³ . The sludge is pumped out through a hatch (not shown in the drawing) with a periodicity of sludge removal of approximately 1 time in 70 days. Wastewater is treated in the after-treatment chamber 31 by filtering water through a two-layer sand and gravel filter. Filter clogging, such as siltation, is eliminated or the filter is purged by supplying compressed air, for example, from compressor 23 to the distribution pipe 35. The dirt is removed from the filter surface by pump 36 (the flow line of which is connected to surge chamber A) connected through distributor 24 to compressor 23. The outlet is cleaned water from the installation for recycling (household needs) is carried out by the pump 37 connected through a distributor 25 to the compressor 23A. The control unit provides the ability to automatically or manually (due to the timer) control the operation of the installation. The ability to adjust the operating mode allows the use of this installation for the treatment of industrial wastewater

water It is advisable that the housing "K" of the installation was made of sheet polymer material. In this case, it is advisable to use reinforced polymer sheet material already mastered by the industry with an external surface made in the form of trough-like depressions between vertical and horizontal protrusions (in the case this surface of the sheets is external). As the sheet polymer material for the manufacture of the housing can be used sheet polyethylene, or vinyl plastic, or other similar materials. However, the most preferred material is foamed polypropylene and its foamed varieties - three-layer integral extrusion, cast, and stamped polypropylene. Foamed polypropylene and its varieties have the best performance for use as a structural material for UBO housings. This material is chemically inert, has increased durability. does not age, is well processed and welded, lightweight and relatively cheap. The execution of the housing of sheet polymer material provides a significant (up to 50 years) service life of the installation.

This unit is designed for cleaning up to 30 m ³ / day, which corresponds to at least 300 conventional consumers and is marked with a trade logo.

Claims (5)

1. Installation for deep biological treatment of domestic and industrial wastewater, comprising a housing with equalization and activation chambers, an aeration system with means for aeration and pumping of water and sludge connected to compressors connected to a control unit with the possibility of turning on the supply of compressed air to the aeration system in at least two successively alternating cycles of the treatment process, the wastewater treatment cycle with recycling of activated sludge and the withdrawal of purified water from the installation and the active water treatment cycle, from characterized in that the installation is additionally equipped with an activated sludge stabilization chamber and a post-treatment chamber with a filter and active means for cleaning the filter with the removal of contaminants, as well as means for introducing and discharging purified water, while the aeration system is made in the form of two aeration subsystems with corresponding groups of means for pumping and aeration, each of which is designed to operate only in one of the mentioned wastewater treatment cycles and is connected to the corresponding compressor, while the compressor is one of aeration subsystem is connected to the control unit with the possibility of turning it on only in active water treatment cycles, and the compressor of another aeration subsystem is connected to the control unit with the possibility of turning it on only in wastewater treatment cycles with recirculation of activated sludge and the withdrawal of purified water from installation, while the installation casing is made of sheet polymer material. 2. Installation according to claim 1, characterized in that the filter is made of at least two layers with a lower sand layer located on the supporting grid and the upper gravel layer, while in the space between the bottom of the after-treatment chamber and the supporting grid there is an active filter cleaning agent, made in the form of a distribution pipe connected to the aeration system through a pressure pulsator. 3. Installation according to claim 1, characterized in that the means for removing contaminants from the after-treatment chamber is made in the form of an airlift with a flow line connected to the surge chamber. 4. Installation according to claim 1, characterized in that both compressors of the aeration subsystems are connected to the emergency distributor with the possibility of switching the air supply to one or the other group of means for pumping and aeration of the aeration system from one compressor, if the other compressor fails, this emergency distributor is made in the form of electric fan. 5. Installation according to claim 1, characterized in that the polyethylene material used is polyethylene or vinyl plastic or other similar materials.