RU81721U1 - WASTE WATER TREATMENT PLANT - Google Patents

Abstract

Usage: For the treatment of domestic wastewater and compositional industrial wastewater under anoxic and aerobic conditions from organic substances, nitrogen and phosphorus compounds, with tertiary treatment to discharge rates into a fishery reservoir and disinfection of purified water.

Creature: A sewage treatment plant, contains a grate container, a hydrocyclone block, a water flow averager, a loading anoxic reactor, a loading aeration tank, a clarifier with a suspended sediment layer, a biofilter, a biosorber, a disinfectant, a reagent dosing unit, pipelines, pumps , compressor, shut-off and control elements installed on the pipelines, the sewage supply pipeline is connected to the inlet of the averager of the water flow, and the purified water drainage pipe is connected to the disinfection outlet Atelier.

In the installation, the lattice block and the hydrocyclone block are located in the water flow averager, connected to the anoxide reactor, connected through an appropriate partition to an aeration tank, divided into two parts by a partition with a bottom bypass, while the aeration tank is connected through a pipeline passing through the separation partition to a clarifier, which connected through an appropriate pipeline passing through the separation wall to a biofilter, connected in turn through a pipeline passing through the corresponding a dividing wall, with a biosorber connected to a disinfectant, a reagent dosing unit connected to a sewage water supply pipe from the averager to the anoxide reactor, while the aeration tank and the biofilter are equipped with an aeration system containing a compressor, the outlet of which is connected through appropriate pipelines to aerators, the anoxide reactor contains fine bubble aerator, clarifier is equipped with airlift for returning activated sludge to the anoxide reactor, the water flow averager is equipped with a hydraulic transfer system stirring, and the biofilter, clarifier and anoxide reactor are equipped with a system for removing wash water and excess activated sludge.

The loading of the anoxide reactor and the aeration tank is made in the form of cassettes.

1 n.p.f.p.m., 1 ill.

Description

The utility model relates to installations for treating household wastewater and similar industrial wastewater under anoxic and aerobic conditions from organic substances, nitrogen and phosphorus compounds, with tertiary treatment to discharge rates into a fishery reservoir and disinfection of purified water.

Known wastewater treatment plant for deep biological treatment of domestic wastewater [1], comprising a receiving and distribution chamber with a receiving collector, a chamber with a receiving collector, a quenched-pressure chamber connected to hydrocyclone blocks connected to mobile sand collecting tanks, an air blower station compressors, a pumping station for technological circuits, a chlorination station with electrolyzers, connected by pipelines to the water supply network and contact tank, valves, main pipes wires and ducts, averager, first and second stage bioreactors, each of which consists of sections, a sediment processing unit with a filtering device, a sump and a dehydrated sludge collector, a pump and a sludge compactor, while the inlet of the averager in its upper part is connected by a sewage pipe, mechanically cleaned with a main pipeline of hydrocyclone blocks and a feed pipe for superficial water from the sludge treatment unit, in the lower part of the averager, in the bioreactor section and contact tank, air ducts from the air duct station, the averager output on one side through the pump station is connected to the inlet of the upper parts of the first sections of the bioreactors, and on the other hand, to the sludge pressure pipe of the sediment processing unit, the inlet of the first section of the first stage bioreactor is additionally connected by a suction pipe to the averager , the first and second sections of both bioreactors are connected by suction pipes through a pump station with a pressure pipe of regeneration water, and the sediment processing unit is connected n in its lower part, with the suction conduit nadilovoy water and mineralized sludge.

The disadvantages of this installation are the design complexity due to the large amount of equipment and the insufficient degree of wastewater treatment from nitrogen-containing and phosphorus-containing substances.

Closest to the proposed utility model is a known wastewater treatment plant [2], comprising a water pressure quenching chamber located in a water flow averager made in the form of an anaerobic reactor connected via an adjustable reverse first flow through the first partition with a denitrifier. The denitrifier is connected through an adjustable straight second overflow in the second partition to the first stage aeration tank, which is connected through the third third cross in the third partition to the second stage aeration tank. The aeration tank is made in the form of a nitrificator with loading and is connected by means of a direct fourth overflow in the fourth partition to a sump, which is connected through a fifth direct overflow in the fifth partition to a filter connected to the disinfectant. The first stage aeration tank and nitrification pump are equipped with an aeration system, and the water flow averager, Denitrifier and sedimentation tank are equipped with hydraulic mixing and recirculation systems.

The disadvantage of this installation is the insufficient efficiency of wastewater treatment from nitrogen-containing and phosphorus-containing substances, the complexity of operation.

The technical result, which consists in eliminating this drawback, is achieved in the proposed installation for the treatment of domestic wastewater containing a grate container, a hydrocyclone unit, a water flow averager, a loading anoxic reactor, a loading aeration tank, a clarifier with a suspended sediment layer, a biofilter, a biosorber , disinfectant, reagent dosing unit, pipelines, pumps, compressor, shut-off and control elements installed on pipelines, sewage supply pipeline connected to the inlet ohm of the water flow averager, and the purified water drainage pipe is connected to the disinfectant outlet, in that the grate unit and the hydrocyclone unit are located in the water flow averager, connected to the anoxide reactor, connected through an appropriate partition with an aeration tank, divided into two parts by a partition with a bottom bypass, while the aeration tank is connected through a pipeline passing through the dividing wall with

clarifier, which is connected through an appropriate pipeline passing through the separation wall, with a biofilter, connected in turn through the pipeline, passing through the corresponding separation wall, with a biosorber connected to the disinfectant, the reagent metering unit is connected to the sewage water supply pipe from the averager to the anoxide reactor while the aeration tank and the biofilter are equipped with an aeration system containing a compressor, the output of which is connected through appropriate pipelines with aerators , the anoxide reactor contains a fine bubble aerator, the clarifier is equipped with an airlift to return activated sludge to the anoxide reactor, the water flow averager is equipped with a hydraulic mixing system, and the biofilter, clarifier and anoxide reactor are equipped with a system for removing wash water and excess activated sludge.

The specified technical result is also achieved by the fact that the loading of the anoxide reactor and the aeration tank is made in the form of cassettes.

The essence of the utility model is illustrated by the drawing, which shows a block diagram of the installation.

The installation includes: an inlet pipe 1, installed at the inlet of the averager 2 of the water flow, a trellised container 3, designed to detain large floating impurities, a hydrocyclone 4. located in the averager 2, the first pump 6, the pipeline 7 with a control shutter 8, an anoxide reactor 9, equipped cassette loading 10.

The averager 2 is equipped with a hydraulic mixing system, including a pump 11, a pressure line 12 for supplying recirculated water to the averager 2 with a control element 13; aeration tank 14, separation partition 15, cassette loading 16, 17 in aeration tank 14, separation partition 18 with a bottom bypass; pipeline 19 for wastewater from the aeration tank 14 to the clarifier 20, equipped with an airlift 21 for returning activated sludge to the anoxide reactor 9 via pipeline 22: a drainage pipe 23 for transferring the settled water from the clarifier 20 to the superfilter space of the biofilter 24 with a load of 25; catchment pipe 26 for the intake of water from the biofilter 24 through into the biosorber 27 with

loading 28 and then through the pipe 29 through the disinfectant 30 and through the pipe 31 to the output of the installation.

Aerotank 14 and biofilter 24 are equipped with an aeration system, including:

compressor 32, air manifold 33, air ducts 34, 35, 36 with locking and regulating elements 37, 38, 39 connected to aerators 40, 41, 42.

The anoxide reactor 9 is equipped with an air regeneration system for the charge 10, consisting of an air duct 43 connected on one side through a valve 44 to the air manifold 33 and on the other hand with a fine bubble aerator 45.

The biofilter 24, clarifier 20 and anoxide reactor 9 are equipped with a system for removing wash water and excess activated sludge through pipelines 46, 47, 48 with shut-off elements 49, 50, 51 through a manifold 52 connected to the pump inlet 53, the outlet of which is connected to the pressure pipe 54 connected through a locking element 55 to the averager 2 and to the pipe 56 for removing the wash water and excess activated sludge from the installation through the locking element 57.

Airlift 21 is connected to the air manifold 33 through the duct 58, having a locking and regulating element 59.

The installation also includes a reagent metering unit 60 and a metering pump 61 with a pipe 62.

The proposed installation works as follows.

The treated wastewater enters the installation through pipeline 1 to the water flow averager 2. Wastewater passes through a trellised container 3, in which large floating impurities are retained and flows into hydrocyclone block 4. The sand settles at the bottom of the hydrocyclones 4 and is periodically discharged via pipeline 5 to the sand pads, and the wastewater flows by gravity to the averager 2, from where it is fed to the anoxide reactor 9 with a cassette loading 10 using a pump 6 and a pipe 7 with a regulating element 8. In the averager 2 a hydraulic mixing system operates in which the mixing of water is provided by a pump 11 and a pressure pipe 12 for supplying recirculated water to the averager 2 with a control element 13. From the anoxide reactor 9

water flows into the aeration tank 14 through the partition 15. In the aeration tank 14, water is cleaned using cassette loads 16, 17 and the water flow moves further through the separation wall 18 with a bottom bypass. Through the pipe 19, the wastewater from the aeration tank 14 enters the clarifier 20 with a suspended sediment layer. Erlift 21 provides the return of activated sludge to the anoxide reactor 9 through the pipe 22. The separated waste water from the clarifier 20 with the suspended sediment layer through the catchment pipe 23 enters the superfilter space of the biofilter 24 with a load of 25 for further purification. The water passed through the biofilter 24 through the catchment pipe 26 enters the biosorber 27 with a load of 28 and then through the catchment pipe 29 through the disinfectant 30, in which ultraviolet irradiation is carried out, is discharged from the installation through pipeline 31.

In aeration tank 14 and biofilter 24 there is an aeration system consisting of a compressor 32, an air collector 33 and air ducts 34, 35, 36 with shut-off and regulating elements 37, 38, 39 connected to aerators 40, 41, 42.

In the anoxide reactor 9, a system for air regeneration of the charge 10 is functioning, consisting of an air duct 43 connected on one side through a valve 44 to an air manifold 33, and on the other hand to a fine bubble aerator 45.

In the biofilter 24, clarifier 20 and anoxide reactor 9, a system for removing wash water and excess activated sludge is operated via waste pipelines 46, 47, 48 with shut-off elements 49, 50, 51 through a manifold 52 connected to the pump inlet 53, the outlet of which is connected to the pressure head a pipe 54, which is connected through a corresponding locking element 55 to the averager 2 and to the pipe 56 for removing the wash water and excess activated sludge from the installation through the locking element 57.

Using the node 60 of the dosing of the reagent with the help of the metering pump 61, the reagent is supplied through line 62 to the pipeline 7 for supplying effluents from the averager 2 to the anoxide reactor 9.

The advantages of the installation are:

- reduction in size due to the combination of the averager of the water flow with the unit of hydrocyclones, the use of which allows you to abandon the sand trap;

- deep purification of organic and nitrogen-containing compounds, phosphates by increasing the active, attached biomass and, accordingly, increasing the oxidizing power of the Unit;

- the use of the reagent phosphate removal method allows to increase the reliability and cleaning effect, to simplify the operation of the installation;

- deep wastewater treatment from nitrogen compounds, bioresistant organic substances on a biofilter and biosorber.

The unit is manufactured in block-modular design in the form of a metal small-sized container, which reduces the installation time.

The installation has a small mass, which facilitates its installation, and allows you to transport it by road, rail and other means of transport.

Information sources:

1. RF patent No. 1794060, M. Cl. C02F 3 / 7.8, published. 1993 year

2. RF patent No. 2225367, M. Cl. C02F 3/30, published. 2004 year

Claims (2)

1. Installation for treating household wastewater containing a grate container, a unit of hydrocyclones, a water flow averager, a loading anoxic reactor, a loading aeration tank, a clarifier with a suspended sediment layer, a biofilter, a biosorber, a disinfectant, a reagent dosing unit, pipelines, pumps , compressor, shut-off and control elements installed on the pipelines, the sewage supply pipeline is connected to the inlet of the water flow averager, and the purified water drainage pipe is connected to the outlet of the disinfectant characterized in that the lattice container and the unit of hydrocyclones are located in the water flow averager connected to the anoxide reactor connected through an appropriate partition to an aeration tank divided into two parts by a partition with a bottom bypass, while the aeration tank is connected through a pipeline passing through the separation partition , with a clarifier, which is connected through an appropriate pipeline passing through the dividing wall, with a biofilter, connected, in turn, through the pipeline, passing through a corresponding dividing wall, with a biosorber connected to the disinfectant, the reagent dosing unit is connected to the sewage water supply pipe from the averager to the anoxide reactor, while the aeration tank and the biofilter are equipped with an aeration system containing a compressor, the outlet of which is connected through the corresponding pipelines to the aerators, anoxide the reactor contains a fine bubble aerator, the clarifier is equipped with an airlift to return activated sludge to the anoxide reactor, the water flow averager is equipped with a system hydraulic mixing, and the biofilter, clarifier and anoxide reactor are equipped with a system for removing wash water and excess activated sludge. 2. Installation for wastewater treatment according to claim 1, characterized in that the loading of the anoxide reactor and the aeration tank is made in the form of cassettes.