RU2809073C1 - Local wastewater treatment plant and its biofilter for wastewater treatment for use in local wastewater treatment plant - Google Patents

Abstract

FIELD: waste treatment.

SUBSTANCE: local treatment device includes a sealed container with two service wells. The sealed container is divided by partitions with holes into five chambers, namely, a septic chamber, which is connected to the denitrifier chamber, which contains a wastewater treatment biofilter, in addition, finely porous composite aeration elements of the denitrifier chamber are fixed in the lower part of the denitrifier chamber, and an airlift of the denitrifier chamber is also fixed in the denitrifier chamber, while the denitrifier chamber is connected through pipes in the partition to the nitrifier chamber, inside which a membrane biofilter with a built-in composite aeration element is fixed, the nitrifier chamber is connected to the secondary clarifier chamber with a built-in airlift of the secondary clarifier chamber, the secondary clarifier chamber is connected through a branch pipe in the partition to the clean water chamber containing the pump. A sludge collector is fixed inside the first well, which is connected to both airlifts. The second well has a ventilator cap on its cover. A compressor is fixed inside the second well, connected to the air line by means of tubes for each aeration element and for each airlift. All tubes are made with built-in taps, all branch pipes in the partitions have a vertical outlet. The wastewater treatment biofilter is made in the form of a frame with a fixed biocarrier made in the form of sponge cubes.

EFFECT: improved treatment efficiency.

4 cl, 2 dwg

Description

Field of technology to which the invention relates

The group of inventions relates to the field of wastewater treatment, namely to local treatment devices for deep biological treatment of household wastewater from individual residential buildings or a group of buildings, as well as to their components - biofilters for wastewater treatment.

State of the art

A local treatment device with a biofilter for wastewater treatment is known (patent RU No. 195505, published on January 29, 2020), which includes, in a single-casing design, a sealed container of a horizontal location, designed to be connected to sewer lines through inlet and outlet pipes, and the container is separated by partitions with openings for six chambers, namely, a septic chamber designed to separate large mineral impurities contained in the source wastewater, as well as suspended solids, petroleum products, surfactants (synthetic surfactants), the septic chamber also contains a tubular aerator, in this case, the septic chamber is connected to the chamber of the first stage aeration tank, containing a mechanical polymer filter grid, designed to retain and prevent impurities floating on the surface from entering further stages of biological treatment, synthetic bottom loading, aeration means of the first stage aeration tank and a biofilter made of polymer tubes , while the chamber of the first stage aeration tank is connected to the chamber of the secondary settling tank containing the air lift of the secondary settling tank, in addition, the chamber of the secondary settling tank is connected to the chamber of the second stage aeration tank containing the aeration means of the second stage aeration tank and a biofilter made of polypropylene thread stretched over a frame, with In this case, the aeration tank chamber of the second stage is connected to the tertiary settling tank chamber containing the airlift of the tertiary settling tank, in addition, the tertiary settling tank chamber is connected to the clean water chamber, in addition, a common sludge pipeline is built into the septic chamber, into the secondary settling tank chamber and into the tertiary settling tank chamber, connected to the airlift of the secondary settling tank and the airlift of the tertiary settling tank, and the sealed container of the local treatment device contains a compressor connected to the aeration means of the first stage aeration tank, the aeration means of the second stage aeration tank, a common sludge pipeline and a tubular aerator of the septic chamber.

The disadvantage of this local treatment device is the low efficiency of wastewater treatment, since a biofilter made of polymer tubes and a biofilter made of polypropylene thread stretched over a frame are not effective enough due to their designs, which allow fairly large particles of impurities to pass through, as well as low cleaning efficiency wastewater due to the lack of vertical outlets in the pipes on the overflows between the partitions of the chambers.

Disclosure of the Invention

The technical result is to increase the efficiency of wastewater treatment through the use of a special design of a biofilter for wastewater treatment and the use of vertical outlets in the nozzles on the overflows between the partitions of the chambers and thus constructively improve the entire sludge collection process.

The result is achieved by the claimed local treatment device for wastewater treatment, which includes, in a single-casing design, a sealed container of a horizontal location, configured to be connected to sewer lines through inlet and outlet pipes, and the sealed container is made with two service wells, which are fixed to its body, a sealed container is divided by partitions with holes into five chambers, namely, a septic chamber, designed with the possibility of clarification of wastewater under the influence of gravity, through the natural separation of light and heavy fractions and interaction with anaerobic bacteria of activated sludge, while the septic chamber is connected through a bottom bulkhead in the partition to the denitrifier chamber, which contains a biofilter for wastewater treatment for use in a local treatment device, made in the form of a frame, inside of which a bio-carrier is fixed, made in the form of sponge cubes, which are fixed to the frame by means of a rod that pierces the sponge cubes diagonally, while on a handle is fixed in the frame, in addition, fine-porous composite aeration elements of the denitrifier chamber are fixed in the lower part of the denitrifier chamber; also in the denitrifier chamber, an airlift of the denitrifier chamber is fixed on the partition, made with the ability to remove excess activated sludge, while the denitrifier chamber is connected through pipes in the partition to the nitrifier chamber , inside of which a membrane biofilter with a built-in composite aeration element of the nitrifier chamber is fixed, the nitrifier chamber is connected through the lower bulkhead in the partition to the secondary settling tank chamber with a built-in air lift of the secondary settling tank chamber, designed to remove excess activated sludge, the secondary settling tank chamber is connected through a pipe in the partition with a clean water chamber containing a pump configured to automatically remove purified water through a pressure pipeline, in addition, the first service well is made with a lid and placed above the septic chamber and the denitrifier chamber, a sludge collector is fixed inside the first service well, which is connected to both airlifts via a pipeline, the second the service well on its cover contains a ventilation fungus for air intake; inside the second service well there is a compressor connected to the air line through tubes for each aeration element and for each airlift, and all tubes are made with built-in taps designed to control the aeration elements and airlifts, in addition all branch pipes in the partitions have a vertical outlet designed to prevent light fractions and fatty deposits from entering the subsequent chamber.

The result is achieved by the claimed biofilter for wastewater treatment for use in a local treatment device, made in the form of a frame, inside of which a bio-carrier is fixed, and the bio-carrier is made in the form of sponge cubes, which are fixed to the frame by means of a rod that pierces the sponge cubes diagonally, while on the frame the handle is fixed.

According to the biofilter for wastewater treatment for use in a local treatment device of the claimed invention, the frame is made of polypropylene tubes.

According to the biofilter for wastewater treatment for use in a local treatment device of the claimed invention, the rod is made of polypropylene.

Brief description of drawings

The essence of the invention is explained: FIG. 1, which shows the claimed local treatment device for wastewater treatment; fig. 2, which shows a schematic representation of a biofilter for wastewater treatment for use in a local treatment device.

Carrying out the invention

In fig. 1 shows a local treatment device for wastewater treatment, which includes, in a single-casing design, a sealed container 1 of a horizontal location, made with the possibility of connecting to sewer lines through inlet and outlet pipes, and the sealed container 1 is made with two service wells 2, 3, which are attached to it housing, the sealed container 1 is divided by partitions 4 with holes into five chambers, namely, a septic chamber 5, designed with the possibility of clarification of wastewater under the influence of gravity, through the natural separation of light and heavy fractions and interaction with anaerobic bacteria of activated sludge, while the septic chamber 5 is connected through a bottom bulkhead in partition 4 to the denitrifier chamber 6, which contains a wastewater treatment biofilter 7 for use in a local treatment device, made in the form of a frame 20, inside of which a bio-carrier 21 is fixed, made in the form of sponge cubes, which are fixed to the frame by means of a rod that pierces the sponge cubes diagonally, while a handle 22 is fixed to the frame 20, in addition, in the lower part of the denitrifier chamber 6, fine-porous composite aeration elements 8 of the denitrifier chamber are fixed, and in the denitrifier chamber 6, an airlift 9 of the denitrifier chamber, made with the ability to remove excess activated sludge, while the denitrifier chamber 6 is connected through pipes in the partition to the nitrifier chamber 10, inside of which a membrane biofilter 11 with a built-in composite aeration element of the nitrifier chamber 12 is fixed, the nitrifier chamber 10 is connected through the lower bulkhead in the partition 4 to the secondary chamber settling tank 13 with a built-in airlift 14 of the secondary settling tank chamber, designed to remove excess activated sludge, the secondary settling tank chamber 13 is connected through a pipe in the partition 4 with a clean water chamber 15 containing a pump 16, designed to automatically remove purified water through a pressure pipeline, in addition the first service well 2 is made with a lid and is placed above the septic chamber 5 and the denitrifier chamber 6, inside the first service well there is a sludge collector 17, which is connected to both airlifts 9, 14 via a pipeline, the second service well 3 on its lid contains a ventilation fungus 18 for air intake , inside the second service well 3 there is a compressor 19 connected to the air line through tubes for each aeration element and for each airlift, and all tubes are made with built-in taps to control the aeration elements and airlifts, in addition, all pipes in the partitions have a vertical outlet to prevent light fractions and fat deposits into the subsequent chamber.

The operating principle of a local wastewater treatment device is as follows.

Initially, wastewater enters through a supply pipeline connected to a branch pipe into a local treatment device and enters septic chamber 5. Here, under the influence of gravity, the wastewater is clarified, the light and heavy fractions are separated and interact with anaerobic bacteria of activated sludge. Next, the clarified water enters the denitrifier chamber 6 through the bottom bulkhead in the partition.

In the section of the denitrifier chamber 6 there is a biofilter for wastewater treatment 7, made in the form of a frame 20 (or frame), for example, in a particular embodiment, made of polypropylene tubes, inside which a biocarrier 21 is fixed. The biocarrier 21 is a sponge cube, for example, in a particular embodiment with edge length from 100 mm to 150 mm. The cubes are fixed to the frame using, for example, a polypropylene rod, which pierces the cubes diagonally. On top, the biofilter for wastewater treatment 7 has a handle 22, also made, for example, of a polypropylene pipe to allow removal and maintenance of the biofilter for wastewater treatment 7, since the biofilter for wastewater treatment 7 is a serviceable device and is easily removed through the service well 2 for washing. This biofilter for wastewater treatment 7 allows the accumulation of agglomerates of microorganisms necessary for the effective operation of the local treatment device. Due to the porous structure of the cubes, a large area for the development of biofilm is achieved (5500-6500 m ² /m ³ ), which made it possible to significantly reduce the volume of the denitrifier chamber 6 and increase the efficiency of wastewater treatment.

At the bottom of the denitrifier chamber 6 and the nitrifier chamber 10, fine-porous composite aeration elements are placed, and in the nitrifier chamber 10 the composite element is built into a membrane biofilter 11, connected to an air duct made of polypropylene pipes (for example, 20 mm in diameter). They serve to supply air to the chambers to ensure the necessary bioprocesses take place. Air is supplied through the ducts using, for example, a membrane compressor 19. The composite aeration element has a longer service life and reduces energy costs for purging the aeration element compared to commonly used latex or rubber aeration elements. A composite aeration element installed in the denitrifier chamber 6 serves for the process of mixing free sludge and clarified wastewater, directing the flow to the wastewater treatment biofilter 7 for effective denitrification.

In the denitrifier chamber 6, clarified wastewater enters, interacting with the biofilm placed on the wastewater treatment biofilter 7, due to which the denitrification process occurs faster and more efficiently, i.e. There is a process of oxidation with oxygen, which was extracted from nitrites and nitrates, mainly easily oxidized substances: carbohydrates, organic acids, alcohols, with the removal of nitrogen.

When the air supply is turned off, denitrifier chamber 6 functions as an intermediate settling tank. Airlifts are located in the intermediate settling tank of the denitrifier chamber 6 and the secondary settling chamber 13

9, 14 for removing excess activated sludge, connected by a common air line made of polypropylene pipes with a diameter, in a particular embodiment, for example 20 mm and 25 mm.

Overflow between denitrifier chamber 6 and nitrifier chamber

10, as well as between the secondary settling tank chamber 13 and the clean water chamber 15, occurs under the influence of gravitational force through pipes installed at the required level. The pipes are installed on the partitions using extrusion welding and have a vertical outlet to prevent light fractions and fatty deposits from entering the subsequent chamber.

In the nitrifier chamber 10 there is a membrane biofilter 11 with a built-in composite aeration element of the nitrifier chamber 12. In a particular embodiment, the membrane biofilter 11 can be a frame made of polypropylene pipes with a diameter of, for example, 20 mm with a built-in composite aeration element with a pipe for connection to the air duct. A geotextile cover is placed over the frame, serving as a distribution membrane for the air flow from the composite aeration element to the biocarrier. The biocarrier is fixed on top of the geotextile cover in one layer. The biocarrier is made of filtration fabric made of multifilament polypropylene threads. The fabric has a certain degree of tension to ensure the cleansing process of excess biofilm accumulation with a more intense air supply. Due to the fact that the effective area of multifilament polypropylene threads is quite large (up to 2000 m2/m3) for placing biofilm, this made it possible to reduce the volume of the chamber itself.

The nitrifier chamber 10 is a biofilm reactor where agglomerates of biocatalysts are attached to a biocarrier. Due to the fact that a local treatment plant for individual residential buildings is a system with different hydraulic loads and where gently developing species with unique metabolic functions should be protected from leaching, the use of biofilters is very effective.

In the nitrifier chamber 10, the oxidation of ammonium nitrogen contained in the waste water to nitrites occurs, and then the nitrites are oxidized to nitrates. Thanks to the use of a flooded membrane biofilter 11 in the nitrifier chamber 10, two processes occur in the biofilm culture on biocarriers: the active phase of nitrification for the development of which a sufficient amount of air is supplied to the nitrifier chamber 10 through a composite aeration element, and the second phase of denitrification to a lesser extent due to the multilayer structure of the biofilm with oxidation of nitrates and complete removal of nitrogen. Thus, the quality of cleaning and resistance to hydraulic loads of the local cleaning device is significantly increased.

Excess sludge is removed through airlifts 9 and 14 by switching the corresponding valves on tubes or pipelines connected to the sludge collector 17, which, in a particular embodiment, is a geofabric bag mounted on a cylindrical holder made of a polyethylene pipe.

A pump 16 is installed in the clean water chamber 15 to automatically remove purified water from the claimed local treatment device through a pressure pipeline, made, for example, from a polypropylene pipe.

Service wells 2, 3 have covers made, for example, of polyethylene. A ventilation mushroom 18 is installed on one of the covers for air intake by the compressor 19, which is fixed inside the second service well 3.

The body of the local treatment device (or a single-body design of a sealed container 1) is supposed to be made of a spiral pipe made of low-pressure polyethylene with a wall thickness of at least 25 mm, the service wells installed on the body are made of a spiral pipe with a wall thickness of at least 15 mm. Connections of wells to the body can be made by extrusion welding using a polyethylene rod with a diameter of 4 mm.

The partitions in the body of the local cleaning device can, for example, be made of sheet low-density polyethylene with a thickness of 6 to 14 mm. The cutting will take place using a milling machine.

Modern technologies and equipment make it possible to implement this group of inventions in large-scale production. The plant or enterprise has all the necessary equipment to produce the claimed on-site wastewater treatment device and its wastewater treatment biofilter for use in the on-site wastewater treatment device.

The claimed local treatment device for wastewater treatment, as well as the biofilter for wastewater treatment for use in a local treatment device, is made in the form of a single structure, namely, the individual components (or components) of the claimed local treatment device for wastewater treatment are interconnected at one enterprise - manufacturer (or manufacturing plant) by assembly operations such as screwing, joining, riveting, welding, soldering, crimping, flaring, etc.

Claims (4)

1. A local treatment device for wastewater treatment, including, in a single-casing design, a sealed container of a horizontal location, designed to be connected to sewer lines through inlet and outlet pipes, characterized in that the sealed container is made with two service wells, which are fixed to its body, the sealed container is divided by partitions with holes into five chambers, namely a septic chamber, designed with the ability, under the influence of gravity, to clarify wastewater through the natural separation of light and heavy fractions, and interaction with anaerobic bacteria of activated sludge, while the septic chamber is connected through a bottom bulkhead in the partition to the denitrifier chamber, which contains a wastewater treatment biofilter for use in a local treatment device, made in the form of a frame, inside of which a bio-carrier is fixed, made in the form of sponge cubes, which are fixed to the frame by means of a rod that pierces the sponge cubes diagonally, with In this case, a handle is fixed to the frame, in addition, fine-porous composite aeration elements of the denitrifier chamber are fixed in the lower part of the denitrifier chamber, and an airlift of the denitrifier chamber is fixed to the partition in the denitrifier chamber, designed to remove excess activated sludge, while the denitrifier chamber is connected through pipes in the partition to the nitrifier chamber, inside of which a membrane biofilter with a built-in composite aeration element of the nitrifier chamber is fixed, the nitrifier chamber is connected through the lower bulkhead in the partition to the secondary settling tank chamber with a built-in airlift of the secondary settling tank chamber, designed to remove excess activated sludge, the secondary settling tank chamber is connected through a pipe in a partition with a clean water chamber containing a pump configured to automatically remove purified water through a pressure pipeline; in addition, the first service well is made with a lid and placed above the septic chamber and the denitrifier chamber; a sludge collector is fixed inside the first service well, which is connected to both airlifts through a pipeline, the second service well on its cover contains a ventilation fungus for air intake, inside the second service well there is a compressor connected to the air line through tubes for each aeration element and for each airlift, and all tubes are made with built-in taps, made with the ability to control aeration elements and airlifts; in addition, all pipes in the partitions have a vertical outlet designed to prevent light fractions and fatty deposits from entering the subsequent chamber. 2. Biofilter for wastewater treatment for use in a local treatment device, made in the form of a frame, inside of which a bio-carrier is fixed, characterized in that the bio-carrier is made in the form of sponge cubes, which are fixed to the frame by means of a rod that pierces the sponge cubes diagonally, while a handle is attached to the frame. 3. Biofilter for wastewater treatment for use in a local treatment device according to claim 2, characterized in that the frame is made of polypropylene tubes. 4. Biofilter for wastewater treatment for use in a local treatment device according to claim 2, characterized in that the rod is made of polypropylene.