RU92657U1 - BIOLOGICAL WASTE WATER TREATMENT UNIT - Google Patents

Abstract

1. A block of biological wastewater treatment, consisting of a rectangular tank with a flow-through type aeration tank, divided by vertical partitions into sections, equipped with a continuous pneumatic aeration system, as well as interconnected denitrification and nitrification zones, containing a distribution and collection trays, a secondary settling tank and a sludge pond, combined in one chamber and separated from one another by an inclined partition, a system of return sludge airlifts, characterized in that the aeration tank is made of two or more steps, consisting of a series-connected aeration tank-mixer and an aeration tank with extended aeration, equipped with a polymer load, for immobilization microorganisms, and the polymer load is made in the form of a fibrous porous nonwoven material made of synthetic fibers, and the secondary clarifier is equipped with a system of airlifts for recirculating activated sludge, and a coarse-bubble aeration system is installed in the denitrification zone and, and in the nitrification zone - a fine-bubble aeration system, made with tubular pneumatic aerators with the ability to disperse the air flow for its uniform distribution over the volume of the container and mixing the effluents. ! 2. Block according to claim 1, characterized in that in the nitrification zone there are jet-guiding shields in the form of a thin-layer module for sludge removal and direction of effluents. ! 3. The block according to claim 1, characterized in that the sludge settler contains a system of airlifts with the possibility of removing floating and settled substances and with the possibility of separating the sludge into recirculating and excess. ! 4. Block according to claim 1, characterized in that

Description

It is a utility model for the field of public utilities and is used for biological treatment of wastewater with activated sludge in the contact mode of urban and close to them composition of wastewater of small and medium volumes with a high non-uniformity of pollution.

A technical solution is known (RF patent No. 1834858, IPC _ C02F 3/02, publ. 08/15/1993) - a device for cleaning wastewater containing a primary sump, aeration tank, a secondary sump with thin-layer modules and airlift return sludge, distribution and prefabricated trays and air supply pipes, as well as the primary settler, which is equipped with vertical partitions dividing it into three chambers, not reaching the bottom, while the distribution chamber and thin-layer modules are installed in the central chamber, the outer chambers are equipped with with loading windows, under which the air supply pipes are located, the drainage trays are connected on one side to the aeration tank and, on the other hand, to airlifts that are connected to the distribution tray of the central chamber.

The disadvantage of this technical solution is the need to use additional volumes to organize the averaging of wastewater, the impossibility of carrying out biochemical oxidation processes.

A device for the biological treatment of wastewater (A.S. No. 1798325, IPC C02F 3/00, published on 02.28.93), containing a reservoir, divided into corridors, aerators, sewage pipelines, air, activated sludge, pipelines drainage of sludge mixture and weirs, it is also equipped with a biosorption chamber installed along the longitudinal axis of the tank with an aerator longitudinally placed in its lower part with devices for supplying excess sludge and removal of sludge mixture, partitions of non-woven material, rigidly and cantilever attached to the side camera holes at an angle of 20-70 ° and in a checkerboard pattern, as well as with additional partitions of non-woven material, rigidly and cantileverly attached to the main partitions, while the partitions are installed at a distance from each other and the free end does not reach adjacent partitions and side walls cameras. The disadvantage of this device is the design complexity and insufficient quality of wastewater treatment.

Numerous compact compact biological wastewater treatment plants are known, comprising a housing with sewage supply pipes for treating and discharging treated water, divided by partitions into technological containers with airlifts and aerators / RF Patent No. 2201405, C02F 3/02, 2003; RF patent No. 2220112, C02F 3/02, 2003; RF patent No. 2228915 C02F 3/02, 2004, RF patent No. 2233247, C02F 3/12, 2004 and others.

The closest in technical essence to the proposed one is a plant for biological wastewater treatment, comprising a housing with sewage supply pipes for treatment and removal of purified water, separated by partitions on a receiving chamber with an aerator and two level sensors, equipped with a perforated partition with the formation of a preliminary aeration chamber with an aerator installed in it, an aeration tank with an aerator installed in it, a sludge tank and a secondary sump combined in one chamber and separated from each other by a sloping, not reaching the bottom septum, with the formation of a secondary sump chamber, equipped with a purified water storage tank and a purified water pump, the outlet of which is connected to the purified water outlet pipe / RF patent for utility model No. 70244, IPC C02F 3/00, publ. 2008 /

A disadvantage of the known installation is the insufficient degree of wastewater treatment, as well as the structural complexity of the installation.

The task to which the claimed utility model is directed is to create a modular autonomous wastewater treatment unit that provides a high degree of wastewater treatment, can increase the degree of wastewater treatment, reliability and durability of the installation, as well as simplify its design and operation in excess of the known prior art.

The problem is solved in that the biological wastewater treatment unit consists of a rectangular tank with a flow-type aeration tank, divided by vertical partitions into sections, equipped with a continuous pneumatic aeration system, and denitrification and nitrification zones communicated between each other, containing distribution and collection trays, secondary sump and sludge tank, combined in one chamber and separated from one another by an inclined partition, airlifts of return sludge, while filled with two or more steps, consisting of a series-connected aeration tank-mixer and aeration tank with prolonged aeration, and the secondary sump is equipped with two airlifts for recirculating activated sludge from the secondary sump to the denitrification zone, with a coarse-bubble aeration system installed in the denitrification zone, and fine melts in the nitrification zone aeration system, made with tubular pneumatic aerators with the ability to disperse the air flow to evenly distribute it over the volume of the tank and mix drains Ia.

Preferably, in the nitrification zone, flow guards are installed in the form of a thin-layer module to direct the effluents to the secondary sump.

Preferably, the sludge tank contains an airlift system with the ability to remove floating and settled substances and with the possibility of separating sludge into recirculated and excess sludge for pumping excess sludge and airlift collection of floating substances.

In the particular case of the utility model, the collecting tray is made with a double-sided gear spillway.

Figure 1 presents the cleaning unit - front view;

Figure 2 - cleaning unit - top view;

Figure 3 is a section along aa in figure 1;

Figure 4 is a section along BB in figure 2.

The biological wastewater treatment unit is a rectangular tank with a flow-type aeration tank, and the aeration tank is made of two or more steps and consists of a series-connected aeration tank-mixer 1 and aeration tank with extended aeration 2.

The wastewater treatment unit contains the denitrification zone C and the nitrification zone D interconnected, the inlet pipe 3, the U-shaped distribution tray 4, the distribution tray 4 mounting bracket 5. The block also contains tubular pneumatic aerators with a fine bubble aeration system 6 located in the nitrification zone D, and tubular pneumatic aerators with a coarse-bubble aeration system 7, located in the denitrification zone C.

In the nitrification zone D, a secondary sump 8 and a sludge tank 9 with a storage chamber 10 are located, combined in one chamber and separated from one another by an inclined partition 11, as well as cassettes with a polymer load 12.

In addition, the block contains flow guards 13, 14, 15, 16, 17, 18 located in the denitrification zones C and nitrification D, a sludge separator 20, airlift collection sediment 21, 22, 23, 24, 25, airlift collection of floating substances 26, prefabricated tray with a two-sided gear spillway 27, installed in the block by means of an arm 28 for fastening the prefabricated tray 27, the tray has a prefabricated chamber 29, an arm 30 for attaching the duct 31 and activated sludge pipe 32, the outlet pipe 33 (Figs. 3, 4).

The cleaning unit operates as follows.

Through the inlet pipe through the inlet pipe 3, the wastewater is supplied through the distribution tray 4, into the denitrification zone C. From the secondary settling tank 8, the recirculated activated sludge is fed into the denitrification zone C, and the nitrifying sludge from the nitrification zone D. In this case, the biological process of denitrification of nitrites and nitrates in activated sludge, which are reduced to gaseous nitrogen, occurs. The denitrification process is provided by continuous-acting tubular pneumatic aerators with a coarse-bubble aeration system 7, which support the sludge mixture in suspension. Pneumoaerators are connected to a duct system through which air is supplied.

Further, the effluents enter the nitrification zone D, where tubular pneumatic aerators with a fine-bubble aeration system 6 are installed, by means of which the sludge mixture is saturated with atmospheric oxygen. Oxygen is required for the oxidation of organic pollutants and the reduction of ammonia nitrogen to nitrites and nitrates.

The sludge mixture from the denitrification zone C enters the sludge separator 20, where it is partially clarified and enters the next stage of purification in the nitrification zone D.

Further, the effluents pass through the flow guards 16, 17, 18 and enter the secondary sump 8 and sludge tank 9, in which activated sludge is separated from biologically treated waters.

The sludge mixture settles in the accumulation chamber 10 of the sludge tank 9, from where it is taken up by airlifts 22, 23, 24, 25 and fed back to the denitrification zone C, and the excess sludge is removed through the outlet pipe to the sludge sites.

The collection of treated effluents takes place in a collection tray with a double-sided gear spillway 27, in which a collection chamber 29 is provided for collecting floating and polluting substances.

All aerators of the unit 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 non-working mode and vice versa, improves the reliability and durability of the unit.

The combination of a sludge separator and a secondary settling tank in one chamber significantly simplifies the design and operation of the installation, since the discharge of excess activated sludge that is formed must be performed less frequently and from only one chamber.

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

Claims (4)

1. The biological wastewater treatment unit, consisting of a rectangular tank with a flow-type displacer aeration tank, divided by vertical partitions into sections, equipped with a continuous pneumatic aeration system, as well as denitrification and nitrification zones communicated with each other, containing distribution and collection trays, a secondary settler and a sludge tank combined in one chamber and separated from one another by an inclined partition, a system of airlift return sludge, characterized in that the aeration tank It is made of two or more steps, consisting of a series-connected aeration tank-mixer and aeration tank with prolonged aeration equipped with a polymer charge for immobilizing microorganisms, the polymer load being made in the form of a fibrous porous non-woven material made of synthetic fibers, and the secondary sump is equipped with a system of airlift recirculation of activated sludge moreover, in the denitrification zone a large-bubble aeration system is installed, and in the nitrification zone a small-bubble aeration system is installed, made tubular pnevmoaeratorami chance dispersing air flow for a uniform distribution of its volume capacitance and mixing wastewater. 2. The block according to claim 1, characterized in that in the nitrification zone, flow guards are installed in the form of a thin-layer module for sludge removal and direction of drains. 3. The block according to claim 1, characterized in that the sludge tank contains airlift system with the ability to remove floating and settled substances and with the possibility of separating sludge into recirculated and excess. 4. The block according to claim 1, characterized in that the collection tray is made with a double-sided gear spillway.