RU178554U1 - INSTALLATION OF BIOLOGICAL CLEANING OF HOUSEHOLD WASTES - Google Patents

Abstract

The utility model relates to wastewater treatment technology under anaerobic, aerobic and anoxic conditions and can be used for biochemical treatment and deep purification of domestic and industrial wastewater close to them in composition. The technical result of the claimed utility model is to provide effective treatment of domestic wastewater with a significant reduction in the accident rate of the installation. To achieve the technical result, it is proposed to install a biological treatment of domestic wastewater containing a cylindrical body having at least one inlet and a system for discharging treated wastewater, divided into four compartments by vertical partitions, and the compartments are placed in the following order: receiving compartment, in which receives contaminated effluents through the inlet of the installation, and which contains an aerator, a mixer, in which the effluents are mixed and averaged in an anaerobic medium using oil, aeration tank, in which the aerator and hair collector are located, a sump, in which the cleaned wastewater discharge system is located, with openings between the compartments in the partitions through which the wastewater is circulated inside the unit, and the circulation pump sets the wastewater circulation. 2 C.p.F., 2 ill.

Description

The utility model relates to the technology of wastewater treatment under anaerobic, aerobic and anoxic conditions and can be used for biochemical treatment and deep purification of domestic and industrial wastewater close to them in composition.

A device for biological wastewater treatment is known from the prior art (RF patent No. 20511290, publ. 12/27/95), containing an air filter with aeration from a rigid aeration tank with jet aerators, a secondary sump with thin-layer modules, pipes for recirculation of the sludge mixture of return sludge recirculation pump.

The disadvantage of this device is the cumbersome design due to the location of individual containers (air filter, aeration tank, secondary sump) one above the other.

Known station for deep wastewater treatment (RF patent No. 2048457, publ. 20.11.95,), which contains sequentially located aeration tanks - sedimentation tanks of the first and second stages, denitrifier, bioreactor, carbon filter, pipelines for the supply of treated water, compressed air, reagents.

A known installation of biological wastewater treatment (RF patent No. 2152907, publ. July 20, 2000) in the form of a rectangular housing including a primary sump, aeration tank with a carrier of attached microflora, separated by vertical partitions into steps, an aeration system, a secondary sump, an active recirculation system sludge and bactericidal treatment unit. The carrier of the attached microflora is made in the form of flat screens installed across the flow across the entire width, the primary sump is divided in height by a partition into two parts and its lower part is additionally equipped with an aeration system, and the installation itself additionally contains an averaging tank with an aeration system and a tank installed aerobic stabilizer with aeration system.

A known installation for deep biological treatment of domestic and industrial wastewater (patent for utility model No. 64024, dated 05.03.2007), comprising a housing with equalization and activation chambers with level sensors, a settling chamber, an aeration system with compressors and pumps and aerators, connected to the control unit, with the possibility of providing direct and reverse wastewater treatment cycles, characterized in that the installation is additionally equipped with a stabilization chamber for activated sludge, while the aeration system is made in the form of two aeration Onsystem subsystems, one of which is made in the form of an aeration subsystem for a direct cleaning cycle, and the other in the form of an aeration subsystem for a reverse wastewater treatment cycle, each of which is equipped with a compressor, while the aeration subsystem for a direct cleaning cycle is connected to the equalization chamber pump, silt pumps of the chamber - the secondary settler and the activation chamber, and the aeration subsystem of the reverse cycle is connected to the aerator of the surge chamber, and the pump for removing floating contaminants of the chamber - the secondary a stand, an aerator of the activation chamber, as well as an aerator and a sludge pump of the stabilization chamber of activated sludge, while the casing of the installation is made of sheet polymer material.

The disadvantage of these devices is the high accident rate due to the presence of equipment (pumps, reagent unit, etc.), which complicates the operation, leads to clogging of units and pipelines, requires frequent maintenance and repair.

As a prototype, we consider a biological wastewater treatment plant (utility model patent No. 65043, dated March 26, 2007), which contains an aeration tank with an aeration system, carriers with attached microflora, a secondary sump with a device for cleaning it with an aeration system according to the utility model in the form of a cylindrical body with a capital partition including a tray for activated sludge, an annular platform, a running trolley and a suction pump, and also has two aerotank zones and a bioreactor zone, as well as a bioshield system from frames consisting of a rod and a fiberglass fabric stretched over them on which a biomass layer is located, and the secondary sump has thin-layer modules. Contaminated drains come from one installation zone to another by gravity and are removed at the last stage into the disinfection chamber.

The disadvantages of the prototype are:

- insufficient effluent treatment;

- the absence in the installation of artificially specified circulation of effluents, effluents come from one zone to another by gravity and can flow both in the forward direction and in the opposite direction.

The task to which the claimed technical solution is directed is to eliminate the above disadvantages.

The technical result of the claimed utility model is the provision of effective treatment of domestic wastewater with a significant reduction in the accident rate of the installation, reducing the frequency and complexity of maintenance.

To achieve the technical result, it is proposed to install a biological treatment of domestic wastewater containing a cylindrical body having at least one inlet and a system for discharging treated wastewater, divided into four compartments by vertical partitions, and the compartments are placed in the following order: receiving compartment, in which receives contaminated effluents through the inlet of the installation and which contains an aerator, a mixer, in which the effluents are mixed and averaged in an anaerobic medium using MDL aeration tank in which the aerator is placed and hair chamber, sump, which houses the effluent exhaust system, wherein the partition walls between the compartments in the openings through which the wastewater circulation inside the installation and the circulation of wastewater circulation pump sets.

The novelty of the claimed utility model is that all four compartments of the installation do not form separate vessels, isolated from each other, the effluent in which is pumped from one compartment to another by airlift pumps located in each compartment, as in the prototype, but containers communicating through holes in the partitions. Thanks to the principle of communicating vessels, the movement of wastewater from compartment to compartment is carried out by gravity without the use of pumps. However, in order to set the movement of effluents through each compartment in the above sequence and to prevent spontaneous flow of effluents in the opposite direction, a circulation pump is used in the installation. Thus, thanks to the through communication between the compartments, it was possible to create a new mechanism for organizing the movement of effluents through all four compartments of the treatment plant using a single circulation pump. At the same time, not only the mechanism for pumping wastewater has changed, but also the nature of the movement of wastewater in the installation. If in known installations the pumping of effluents from one compartment to another is carried out periodically, at different intervals and in different directions, depending on the phase of operation, then in the inventive installation, continuous and multiple circular movement of effluents through all compartments of the installation along a single route is provided. Thereby, continuous wastewater treatment is realized, in which the path of wastewater passage through the compartments of the installation is significantly increased, which means that better treatment indicators are achieved. In addition, the abandonment of airlift pumps for pumping contaminated effluents from one compartment to another, prone to frequent clogging and the fact that the circulation pump only pumps purified effluents from the sump, significantly increases the reliability of the entire treatment plant and reduces its accident rate. The installation also includes a new functional compartment - a mixer, which provides additional intensive mixing (averaging) of wastewater using mixers, which creates more favorable conditions for wastewater treatment in an aeration tank. At the same time, occupying a certain place in the overall technological chain of compartments, it simultaneously performs the function of anoxic wastewater treatment. When mixing the effluents in the mixer, it is also important to prevent spontaneous overflow of effluents back into the receiving compartment through the hole in the partition, this problem is also solved by the presence of a circulation pump in the installation, which sets the movement of the effluents in one direction in a circle, from the receiving compartment to the mixer, then into aeration tank, then to the sump and then back to the receiving compartment. It is the multiple passage of wastewater through all the compartments of the installation in a given sequence that will ensure their effective purification from pollution.

Since the entire movement of wastewater in the installation is set by one circulation pump, changing its productivity (by simply replacing an air jet of one diameter with another) and, thereby, changing the speed of movement of wastewater in the installation, there is an additional opportunity to influence all the main components of the cleaning process effluents - namely, the duration of stay of effluents in each compartment and, accordingly, the time of contact of effluents with activated sludge. Taking into account that the sewage at each sewage facility is individual in its composition and intensity, and the composition of the contaminants contained in them can have significant deviations from the “standard” composition (established by SNiP), then replacing just one nozzle, you can configure the treatment plant for each specific Sewerage facility to achieve the best cleaning performance.

The essence of the utility model is illustrated by drawings.

In FIG. 1 shows a top view in section of the inventive installation, in FIG. 2 shows a detailed side view in section of the inventive installation, where:

1 - entrance to the installation;

2 - a receiving compartment;

3 - coarse aerator;

4 - compressor;

5 - mixer;

6 - mixer;

7 - aeration tank;

8 - fine bubble aerator;

9 - hair collector in a protective housing;

10 - sedimentation tank;

11 - airlift of pure water in a protective pipe;

12 - exhaust pipe;

13 - a protective partition;

14 - circulation pump.

Installation of biological treatment of domestic wastewater contains a cylindrical body, divided into 4 compartments by partitions. The entrance to the installation 1 is located in the receiving compartment 2, in which a coarse bubble aerator 3 is also installed to break up large contaminants and eliminate odors. In the mixer 5, the wastewater is mixed and averaged in anaerobic and anoxic environments using the mixer 6, in the aeration tank 7, in which the fine bubble aerator 8 is placed, the wastes are saturated with oxygen. At the outlet of the aeration tank 7, a hair collector 9 is installed. The hair collector 9 is not placed arbitrarily, but in a strictly defined place, close to the outlet from the aeration tank 7 and, thus, serves as additional protection for the airlift of clean water 11, preventing hair from getting into the outlet treated drains. In addition to the new location of the hair collector, to increase the efficiency of its operation, the hair collector 9 can be placed in a protective housing. Wastewater enters the protective casing from below, passes through the hair collector 9 and enters the sump 10 through the hole in the partition, and the housing can be placed so that the hole in the partition will be located in its upper part. Thus, the hair collector 9 not only catches part of the hair from the water in the corresponding compartment, but also cleans all the water that enters the sump 11 to the final cleaning stage.

The fourth compartment of the installation is a settling tank 10, it houses a system for discharging treated effluents, which may include an airlift of clean water in the protective pipe 11, an exhaust pipe 12 and a protective partition 13. Between the compartments in the partitions are openings through which sewage is circulated inside the installation and the circulation of the effluents sets the circulation pump 14.

The release of treated effluents from the installation can be realized with the help of a new exhaust device consisting of 3 elements: airlift of clean water 11, a protective pipe and a protecting protective partition 13. Airlifts are widely used in various treatment plants for intermediate pumping of sewage inside a separate compartment or between compartments. The novelty is that the airlift is used at the "exit" from the installation. Due to the low productivity, the airlift of clean water 11 significantly slows down the rate of discharge of wastewater from the installation, thereby increasing the residence time of wastewater in it and increasing the quality of treatment, which is especially important for large salvo flows of wastewater into the installation. Also new is that the airlift of clean water 11 is placed in a special vertical protective pipe, which acts as an additional (fifth) “compartment” of the installation, completely isolated from the fourth compartment (settling tank 10), the drains of which contain residues of floating contaminants and silt. The exhaust device operates in such a way that at a normal operating level of effluents in the installation (see Fig. 2), defined by the upper edge of the protective pipe, effluent does not discharge from the installation. The release of effluents begins when the next new portion of untreated effluent arrives at the plant. The overall level of wastewater in the installation (and therefore in the settling tank 10) increases, and through the upper edge of the protective pipe, excess waste water begins to flow from the settling tank 10 to the airlift of clean water 11. The protective pipe is additionally equipped with a partition wall 13, the top of which is located as high as possible possible level of effluents in the installation. Therefore, wastewater enters the protective pipe not through the top of the partition 13, but through the bottom, protecting the airlift of clean iodine 11 from residues of contaminants and activated sludge floating on the surface of the sump 10. This double protection of the airlift of clean water 11 completely eliminates the possibility of an installation accident due to its clogging, which increases the reliability of the entire installation.

Installation of biological treatment of domestic wastewater works as follows.

Through the entrance to the installation 1, the source wastewater enters the receiving compartment 2 of the installation, in which the coarse bubble aerator 3 is installed. In this compartment, the odor is eliminated and the effluents are prepared for further processing. Further, the effluents under the action of the circulation pump 14 enter the mixer 5, in which the effluents are intensively mixed (averaged) using mixers 6, while the mixer 5 is partly an anaerobic treatment zone, and partly an anoxic zone in the installation, in an anoxic (oxygen-free) environment denitrification, i.e. reduction of nitrites and nitrates to atomic (gaseous, released into the atmosphere) nitrogen and a partial decrease in oxygen consumption. After that, the effluent under the influence of the circulation pump 14 flows into the aeration tank 7, in which the fine bubble aerator 8 is installed, in this compartment the main and most effective stage of effluent treatment is carried out, the effluent is saturated with oxygen, as a result of which the organic matter is mineralized and the biochemical oxygen consumption is sharply reduced waste water. Next, the effluent enters the sump 10, from where it can be partially removed from the installation using airlift of clean water 11, and the bulk of the effluent under the action of the circulation pump 14 repeats the cleaning cycle, again entering the receiving compartment 2.

During the operation of these four compartments, accumulation of excess active and stabilized sludge occurs. Its removal is carried out using a submersible pump after deposition with the unit turned off.

The analysis of patent and scientific and technical literature did not reveal technical solutions with a similar set of essential features, which allows us to conclude that the criterion of "novelty" of the claimed utility model is met.

Claims (3)

1. Installation of biological treatment of domestic wastewater, containing a cylindrical body having at least one inlet and a system for discharging treated wastewater, divided into four compartments by vertical partitions, in which holes are made through which wastewater is circulated inside the unit, characterized in that the compartments are arranged in the following order: the receiving compartment, mixer, aeration tank, sedimentation tank, and the entrance to the installation is located in the receiving compartment, the mixer is located in the mixer, the size of the settling tank schena exhaust system effluent, the aeration tank and the receiving compartment are provided with aerators, aeration comprises a hair chamber, circulation and effluent inside the unit sets the circulation pump. 2. The biological treatment plant for domestic wastewater according to claim 1, characterized in that a hair collector is installed in the protective housing at the outlet of the aeration tank. 3. The biological treatment plant for domestic wastewater according to claim 1, characterized in that the treated wastewater discharge system consists of an airlift of clean water placed in a protective pipe and a protective partition, the upper edge of which is located above the maximum level of wastewater in the installation.

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