RU70244U1 - BIOLOGICAL WASTE WATER TREATMENT PLANT - Google Patents

Abstract

Usage: the utility model relates to installations for the biological treatment of domestic wastewater and can be used for deep treatment of hozfekalny wastewater in small towns and detached buildings and cottages. The essence of the utility model: it allows to increase the degree of wastewater treatment, reliability and durability of the installation, as well as to simplify its design and operation due to the fact that the installation for biological wastewater treatment, containing a housing with sewage inlets for the treatment and disposal of purified water divided by partitions into a receiving chamber with an aerator and two level sensors, a sludge tank, aeration tank with an aerator installed in it and a secondary sump, airlift for pumping a mixture of wastewater and activated sludge from the receiver a chamber in the aeration tank with a coarse filter, an airlift for pumping the specified mixture from the aeration tank to the sludge tank and a control unit connected to level sensors and containing a compressor and an electromagnetic valve connected to aerators and airlifts, the receiving chamber is equipped with a vertical perforated partition to form a preliminary aeration chamber of the mixture sewage and activated sludge, a sludge tank and a secondary sump are combined in one chamber and separated from one another by an inclined, not reaching the bottom septum, with the formation the secondary sump chamber, tapering to the bottom, the preliminary aeration chamber is equipped with an aerator, the sludge tank is equipped with an airlift for pumping activated sludge to the preliminary aeration chamber, and the secondary sump is equipped with a purified water storage tank and a purified water pump, the outlet of which is connected to the purified water outlet. 3 s.p. f-ly, 1 ill.

Description

The utility model relates to the field of biological treatment of domestic wastewater and can be used for deep wastewater treatment, in particular sewage wastewater, small towns and detached buildings and cottages.

Numerous compact biological wastewater treatment plants are known from the state of the art, comprising a casing with wastewater supply pipes for treating and discharging treated water, separated by partitions into process tanks, airlifts, aerators and a unit operation control unit / RF Patent No. 2201405, C02F 3 / 02, 2003; RF patent No. 2220112, C02F 3/02, 2003; RF patent No. 2228915 C02F 3/02, 2004 and others.

So, in particular, there is a known installation for biological wastewater treatment, including a casing with sewage supply pipes for treating and discharging purified water, separated by partitions to a receiving chamber, an aeration tank with an aerator installed in it, and a secondary settling tank with an overflow hole, an airlift for pumping wastewater mixture water and activated sludge from the receiving chamber to the aeration tank, airlift for pumping the specified mixture from the aeration tank and airlift for pumping activated sludge from the secondary sump to the aeration tank, as well as sensors for maximum and minimum ur vnya said mixture receiving chamber connected to the air lift operation control unit and the aerator / RF Patent №2162062, C02F 3/00, C02F 3/12, 2001 g. /.

The disadvantages of this installation are the complex design, which complicates its maintenance, as well as the low degree of wastewater treatment, in particular, at their increased costs, since the degree of saturation of wastewater with oxygen for deep biological treatment is insufficient.

A known installation for biological wastewater treatment, including a housing with sewage supply pipes for treatment and drainage of purified water, separated by partitions to a receiving chamber, an aeration tank with an aerator installed in it and a secondary settling tank with an overflow hole, an airlift for pumping a mixture of wastewater and activated sludge from the receiving chamber into the aeration tank, the airlift for pumping the specified mixture from the aeration tank, as well as the sensors of the maximum and minimum levels of the specified mixture in the receiving chamber, connected to the air-lift operation control unit s and aerator, with

this, the aeration tank is equipped with an additional airlift, and the secondary sump is communicated through an overflow hole with a collection well, in which an airlift is installed for pumping a mixture of water and activated sludge into the receiving chamber / RF Patent No. 2233247, C02F 3/12, 2004 /.

The disadvantage of this installation is also the low degree of wastewater treatment due to insufficient aeration, as well as the complexity of its design and, as a consequence, the difficulty in its maintenance.

The closest in technical essence to the proposed one is a biological wastewater treatment plant, comprising a casing with sewage supply pipes for treating and discharging treated water, separated by partitions on a receiving chamber with an aerator and two level sensors, a sludge trap, aeration tank with an aerator installed in it and secondary sump, airlift for pumping a mixture of wastewater and activated sludge from the receiving chamber to the aeration tank with a coarse filter, airlift for pumping the mixture from aeration tank to a sludge tank and control unit phenomenon, coupled with the level sensors and comprising a compressor and a solenoid valve connected to aerators and airlifts / EA Patent №004338, C02F 9/14, 2003 g. /

The disadvantages of this installation are the complexity of its design and, as a result, the difficulty in its maintenance, as well as the low degree of wastewater treatment.

The problem to which the claimed utility model is directed is to create a compact installation of deep biological wastewater treatment simple, reliable and durable in operation.

The technical result from the use of the proposed installation is to increase the degree of wastewater treatment while simplifying the design and operation of the installation.

The problem is solved, and the technical result is achieved due to the fact that in the installation for biological wastewater treatment, comprising a housing with sewage supply pipes for the treatment and removal of purified water, separated by partitions on a receiving chamber with an aerator and two level sensors, a sludge tank, aeration tank with an aerator and a secondary settling tank installed in it, airlift for pumping a mixture of wastewater and activated sludge from the receiving chamber to the aeration tank with a coarse filter, airlift for pumping the mixture from aeration tank to sludge a reed and a control unit connected to level sensors and containing

a compressor and a solenoid valve connected to aerators and airlifts, the receiving chamber is equipped with a vertical perforated baffle with the formation of a preliminary aeration chamber of a mixture of wastewater and activated sludge, the sludge trap and the secondary sump are combined in one chamber and separated from one another by an inclined, not reaching bottom bottom, with the formation of a secondary sump chamber, tapering to the bottom, the preliminary aeration chamber is equipped with an aerator, the sludge tank is equipped with an airlift for pumping activated sludge into the pre-aeration chamber double aeration, and the secondary settler - a storage tank of purified water and a pump for pumping purified water, the outlet of which is connected to the pipe for discharge of purified water.

Preferably, the housing is made of plastic, and also that the perforated partition is made of the same plastic as the installation housing.

The drawing shows a process diagram of the installation.

The installation comprises a housing 1 with sewage supply pipes for treatment 2 and purified water discharge 3, separated by partitions on a receiving chamber 4, aeration tank 5 and a sludge tank 6, combined in one chamber with a secondary sump 7 and separated from the latter by an inclined partition that does not reach the bottom 8, with the formation of the chamber of the secondary sump 7, tapering to the bottom. The receiving chamber 4 contains an aerator 9, two level sensors: a minimum level sensor for the mixture of wastewater and activated sludge 10 and a maximum level sensor for the said mixture 11 and an airlift 12 for pumping the mixture of wastewater and activated sludge from the receiving chamber 4 into the aeration tank 5 with a coarse filter 13 , and is equipped with a vertical perforated partition 14 with the formation of a chamber for preliminary aeration of the mixture of wastewater and activated sludge 15, equipped with an aerator 16. The aerator 17 and airlift 18 for pumping the mixture of wastewater and activated sludge from aero are installed in the aeration tank 5 tank 5 into the sludge tank 6, which is equipped with an airlift 19 for pumping activated sludge into the preliminary aeration chamber 15. The secondary sump 7 in the upper part is equipped with a treated water storage tank 20 and a purified water pump 21, the outlet of which is connected to the purified water outlet 3. The installation is equipped with a control unit 22 connected to level sensors 10 and 11 and containing a compressor 23 and a solenoid valve 24 connected to aerators 9, 16 and 17 and airlifts 12, 18 and 19.

The housing 1 of the installation is preferably made of plastic, for example polypropylene or polyethylene, and as a perforated partition 14 may

for example, a mesh can be used, but it is preferable that the perforated partition is made of the same plastic as the installation body.

Installation works as follows.

Hose-fecal wastewater through the sewage supply pipe for treatment 2 of the housing 1 enters the pre-aeration chamber 15, where it is mixed with activated sludge, while due to the operation of the aerator 16 under the influence of air bubbles, the wastewater with activated sludge is intensively mixed, mechanical the destruction of coarse impurities and the process of oxidation of organic contaminants begins, then through a perforated partition 14 and / or above it by overflowing a mixture of wastewater and activated sludge is fed into the receiving chamber 4 , where they re-aerate (further oxidation occurs) due to the operation of the aerator 9. The perforated baffle 14 makes it possible to separate coarse insoluble contaminants from the bulk of the wastewater received for treatment. The mixture of wastewater and activated sludge treated in the receiving chamber 4 is pumped by airlift 12 to the aeration tank 5, after having previously passed the second stage of filtration through the coarse filter (filter casing) 13 of the airlift 12. In the aeration tank 5, this mixture is further saturated with oxygen and aerator 17 deep mineralization of organic nitrogen compounds - nitrification. A mixture of wastewater and activated sludge, which underwent two stages of filtration and three stages of aeration with airlift 18, is pumped from the aeration tank 5 to the sludge tank 6, combined in one chamber with a secondary settling tank 7 and separated from the latter by an inclined partition that does not reach the bottom 8, with the formation of a secondary chamber clarifier 7, tapering to the bottom. In the secondary sump 7 with a low level of dissolved oxygen, sludge settles and the denitrification process is ongoing. Active sludge from the secondary sump 7 settles to the bottom of the sludge separator 6 (according to the principle of communicating vessels) along an inclined wall 8, and the purified water is collected in the accumulated tank of purified water 20 located in the upper part of the secondary sump 7, from where it is removed from the housing 1 by a pump for pumping purified water 21 installations through the outlet pipe for purified water 3. The activated sludge settled on the bottom of the sludge tank 6 is returned to the preliminary aeration chamber 15, where it is mixed with new portions of wastewater entering the treatment and the cycle oryaetsya.

In the receiving chamber 4 there is an equalization of unevenly entering drains. It has two level sensors: a float switch

the minimum level of the surface of the mixture of wastewater and activated sludge 10 and the float switch of the maximum level of the mixture 11. The float switch 10 in the upper position gives a command to the control unit 22 to turn on the airlifts 12 and 18 for pumping from the receiving chamber 4 to the aeration tank 5 and from the aeration tank 5 to the desilter 6, respectively, and in the lower position - to turn off the airlifts 12 and 18 and turn on the airlift 19 to pump activated sludge from the desilter 6 into the primary aeration chamber 15. The float switch of the maximum mixture level is drained water and activated sludge 11 sends a signal to the control unit 22 to trigger an alarm when the receiving chamber is overflowed 4. The control unit 22 contains a compressor 23 and a three-way solenoid valve 24, which are connected to the aerators by airlifts.

Preferably, the housing 1 of the installation is made of plastic and the perforated partition 14 of the same plastic as the housing of the installation.

The creation in the receiving chamber 4 of the preliminary aeration chamber of a mixture of wastewater and activated sludge 15 allows the main part of the insoluble contaminants to be extracted from the said mixture at the first processing stage, which allows to increase the degree of purification of wastewater supplied to the treatment.

All plant aerators operate continuously. Thus, the proposed installation uses the so-called extended aeration method, which also allows to increase the degree of wastewater treatment. In addition, the exclusion of pauses in aeration, i.e. periodic switching of aerators from working to idle mode and vice versa, improves the reliability and durability of the installation.

The combination of the sludge separator 6 and the secondary sump 7 in one chamber significantly simplifies the design and operation of the installation, since the discharge of the excess activated sludge that is formed must be done less frequently and from only one chamber.

Thus, the proposed technical solution allows us to solve the problem of creating a compact installation of deep biological wastewater treatment simple, reliable and durable in operation.

Claims (4)

1. Installation for biological wastewater treatment, comprising a housing with sewage supply pipes for treatment and drainage of purified water, separated by partitions on a receiving chamber with an aerator and two level sensors, a sludge tank, an aeration tank with an aerator installed in it and a secondary sump, airlift of pumping the mixture sewage and activated sludge from the receiving chamber to the aeration tank with a coarse filter, airlift of pumping the specified mixture from the aeration tank to the sludge tank and a control unit connected to level sensors and containing a compressor an electromagnetic valve connected to aerators and airlifts, characterized in that the receiving chamber is equipped with a vertical perforated baffle with the formation of a preliminary aeration chamber of a mixture of wastewater and activated sludge, the sludge trap and the secondary sump are combined in one chamber and are separated from one another by an inclined one not reaching the bottom a partition with the formation of a secondary sump chamber, tapering down, the preliminary aeration chamber is equipped with an aerator, the sludge tank is equipped with an airlift for pumping activated sludge to measure preliminary aeration, secondary settling tank and - purified water storage container and a pump pumping the purified water, which outlet pipe is connected to the purified water outlet. 2. Installation for biological wastewater treatment according to claim 1, characterized in that the housing is made of plastic. 3. Installation for biological wastewater treatment according to claim 1, characterized in that the perforated partition is made of plastic. 4. Installation for biological wastewater treatment according to claim 2, characterized in that the perforated partition is made of the same plastic as the installation body.