RU174587U1 - BIOFILTER FOR PURIFICATION OF WATER IN FISHING SYSTEMS - Google Patents

Abstract

The utility model relates to fish farming and water purification using biological filters and can be used to equip various types of fish breeding systems to purify water from organic pollutants, both as one of the components of the purification system and as the only biofilter. The biofilter for water purification in fish breeding systems contains a cylindrical body with a cone-shaped base and a sludge outlet pipe, a hydraulic elevator located in the center of the body, on the upper part of which there is an annular tray and a grid that holds floating bio-loading granules, and a drainage pipe. Additionally contains an overflow nozzle located above the retaining grid, a main chamber with granules of regenerating disorganized bio-loading with neutral buoyancy, a separation chamber located in the lower part of the housing, the base of which is the bottom of the housing and is an inverted cone with a sludge outlet located on top for periodic discharge of the falling draft. The upper part of the separation chamber is made in the form of a cone, rigidly fastened to its lower part, and has slots located in a circle at a minimum permissible structural distance with respect to the walls of the housing, the upper cone of the separation chamber is the bottom of the main chamber and has a slope of 30 ° to the walls of the housing the upper part of the lid of the separation chamber is rigidly connected to the hydraulic elevator, which extends beyond the housing cover 1/3 of the total length of the hydraulic elevator, in its upper part there is a water supply pipe, diam Tp which is half the diameter of the hydraulic elevator. The total area of the slots in the upper part of the separation chamber is equal to the area of the outlet of the hydraulic elevator. Bio-loading granules occupy 70% of the volume of the main chamber. The inventive biofilter for water purification in fish breeding systems is easy to operate, reliable and ensures proper purification of the resulting water.

Description

The utility model relates to fish farming and water purification using biological filters and can be used to equip various types of fish breeding systems to purify water from organic pollutants, both as one of the components of the purification system and as the only biofilter.

A known installation for biochemical wastewater treatment (Patent No. 22020915, IPC C02F 3/00, C02F 3/02, publ. 10.01.2004), which contains a combined device comprising a chamber for mixing wastewater with a sludge mixture, a biofilter with an irrigation system, located above the aeration tank-settler having aeration columns for providing jet aeration and a circulation pump, characterized in that the aeration columns in the combined device are made in the form of diverging bundles of pipes, inside the upper part of which there are straightening protrusions in e spirals, and the lower portion of perforated tubes, and wherein at circumferentially adjustment diameter decreases towards the bottom pipe and the lower ends of the pipes are uniformly arranged over the flat part of the aeration tank bottom with a height of 0,2-0,3 m above it.

The disadvantages of this installation include the complexity of the design and the inability to use fish treatment systems for water treatment.

Known biofilter for water purification of fish farming systems (Aut. St. SU No. 1671144, A01K 61/00, publ. 15.08.91), including a vertical cylindrical body with a conical bottom, located in the upper part of the body loading, a pipe for supplying contaminated water, mounted in the upper part of the casing, as well as a lattice water distributor located under the pipeline, a sludge conduit and a pipeline for discharging purified water, mounted in the lower part of the casing.

The disadvantages of this invention include the complexity of the design due to the presence of a nozzle for supplying oxygen and additional equipment for its maintenance, which increases the cost of the design, as well as the inconvenience of filter maintenance due to the motionless loading of a complex structure.

A known filter for water purification of fish farming systems with constantly regenerating loading from polyethylene pellets with negative buoyancy (Closed fish farms, I.V. Proskurenko, ed. VNIRO, 2003, p. 57-58), in which the purified water is supplied under pressure to the pipe and, passing through the ejector, captures water from the pipeline. The total flow of water loosens the granule layer and, passing through it, is divided into two parts. One part is discharged from the filter, the other is returned to the filter through the pipeline. Simultaneously with the circulating water, a part of the granules is supplied to the pipeline. Passing through the filter ejector and hitting the chipper, the granules lose a loose layer of biofilm. The particles of the broken film move with the flow of water and are removed from the filter. To ensure a fairly uniform flow of water and granules over the cross section of the filter housing, it is shaped like a round column with a diameter of 1-1.2 m

The disadvantages of this filter include low performance due to the design features of the filter, including the difficulty of removing contaminants due to the absence of a sump.

The closest effect achieved is a biofilter for water purification in fish breeding systems with constantly regenerating unorganized loading with positive buoyancy. In the filter, filled with water, a layer of floating granules is placed, a hydraulic elevator is located in the center of the tank, equipped with a feed nozzle and a chipper, one pipe is used to drain purified water, the other pipe is to drain sludge. In the filter, the purified water is supplied through the nozzle, a jet of water leaving the nozzle captures a part of the granules into the ejector, carries them along the barrel of the ejector and hits the chipper. As a result of the impact, the loose layers of the biofilm come off, and the granules float, and again through the ejector fall into the cycle. The purified water, changing the direction of movement after the chipper, loses dirt particles falling into the sump. Next, the purified water passes through a layer of granules and enters the annular tray through the mesh holding the granules.

The disadvantages of this biofilter include the relative complexity of the manufacture and adjustment of the elevator.

The technical task is to simplify the design of the claimed biofilter, increase the efficiency of the water treatment process and reduce energy consumption.

The technical result is the creation of a biofilter design that provides ease of use and the efficiency of the water treatment process.

The technical problem is solved, and the technical result is achieved by the fact that the well-known biofilter for water purification in fish breeding systems, containing a cylindrical body with a cone-shaped base and a sludge outlet pipe, a hydraulic elevator located in the center of the body, on the top of which there is an annular tray and a mesh holding floating granules regenerative unorganized bio-loading, and a drainage pipe, further comprises an overflow pipe located above the retaining grid, the main chamber with runners of regenerating disorganized bio-loading with neutral buoyancy, a separation chamber located in the lower part of the housing, the base of which is the bottom of the housing and is an inverted cone with a sludge outlet located on top for periodic discharge of the falling sediment, and the upper part of the separation chamber is made in the form of a cone, rigidly fastened with its lower part, and has slots located in a circle at a minimum permissible structural distance with respect to the walls to housing, the upper cone of the separation chamber is the bottom of the main chamber and has a slope of 30 ° to the walls of the housing, while the upper part of the cover of the separation chamber is rigidly connected to the hydraulic elevator, which extends 1/3 of the total length of the hydraulic cover of the housing in its upper part water supply pipe, the diameter of which is two times less than the diameter of the hydraulic elevator. The total area of the slots in the upper part of the separation chamber is equal to the area of the outlet of the hydraulic elevator, and the bio-loading granules occupy 70% of the volume of the main chamber.

The figure 1 shows a General diagram of a biofilter device for water purification in fish breeding systems, where 1 is a biofilter body, 2 is a main chamber, 3 is a separation chamber, 4 is a hydraulic elevator, 5 is an annular tray, 6 is a lid, 7 is a water discharge pipe, 8 - overflow pipe, 9 - sludge outlet pipe, 10 - slots, 11 - water supply pipe.

The figure 2 shows the upper cone of the separation chamber 3 with slots 10.

The biofilter is a housing on supports 1 made in the form of a cylinder and containing a main chamber 2, a separation chamber 3 located in the lower part of the housing 1, a hydraulic elevator 4 with a water supply pipe 11 located in the center of the tank, an annular tray 5 with a cover 6, equipped with a water discharge pipe 7 and overflow pipe 8.

In the main chamber 2 there is a regenerative disorganized bio-loading with neutral buoyancy, the volume of which is 70% of the total volume of the chamber to ensure uniform distribution of the load throughout the volume and free circulation of water during the operation of the filter. In the upper part of the main chamber 2 there is a lid 6 made of mesh material, the cell being smaller than the diameter of the loading element, which ensures that the loading is kept in the main chamber. The annular tray 5 is additionally equipped with a discharge pipe 7, the diameter of which is equal to the diameter of the hydraulic elevator 4, and an overflow pipe 8 located above the water level in the annular tray 5. The volume of the receiving chamber - the annular tray 5 - is increased by 15% relative to the volume of circulating water to exclude overflow of water and ensuring the safety of the filter.

In the lower part of the housing 1 there is a separation chamber 3, the base of which is an inverted cone with a sludge outlet pipe 9 located at the top (in the lower part of the separation chamber 3) for periodically discharging the precipitate. The upper part of the chamber 3 is also made in the form of a cone, rigidly fastened to the lower part and having slots 10. The slots 10 are arranged in a circle at a minimum permissible structural distance with respect to the walls of the housing 1 to ensure effective water circulation and unhindered settling at the bottom of the separation chamber 3 of the drop-out draft. The total area of the slots 10 is equal to the area of the outlet of the hydraulic elevator 4. The upper cone of the separation chamber 3 is the bottom of the main chamber 2 and has a slope of 30 ° to the walls. The upper part of the cover of the separation chamber 3 is rigidly connected to the hydraulic elevator 4, while 1/3 of the total length of the hydraulic elevator 4 extends beyond the housing cover 1. At the upper part of the hydraulic elevator 4 there is a water supply pipe 11, the diameter of which is 2 times smaller than the diameter of the hydraulic elevator 4 to ensure the process aeration of water. Due to the difference in the diameters of the water supply pipe 11 and the hydraulic elevator 4, water is sprayed and oxygenated when the water is supplied, and the declared height of the protruding part of the hydraulic elevator 4 provides sufficient aeration of the water

Biofilter for water purification of fish farming systems works as follows.

After the mechanical filter, water is sent through the water supply pipe 11 to the hydraulic elevator 4 with a slight overpressure, 10% higher than atmospheric pressure. In the upper part of the hydraulic elevator 4 located above the main chamber 2, aeration of the water and pressure equalization within the atmosphere take place.

Water through the hydraulic elevator 4 enters the separation chamber 3, in which the biofilm particles are deposited with its periodic removal from the chamber through the sludge outlet 9 (sediment is removed during the shutdown of the water). Water from the chamber 3 through the slots 10 enters the main chamber 2 with a floating charge with neutral buoyancy, where due to the vertical flow of water, the charge is mixed.

In the upward flow of the supplied water, the load is mixed, which ensures the formation of activated sludge, which allows the processing of organic nitrogen compounds into an inorganic form, which subsequently precipitate and merge through pipe 9. Under the action of friction, the film formed on the load is separated from the load and lowered way down. Through the slots 10, the particles of the film enter the separation chamber 3 and settle on a cone-shaped bottom, from where it is periodically removed through the sludge outlet 9 during the shutdown of the water.

The purified water flows upward through the mesh cover 6 into the annular tray 5. From the annular tray 5, the purified water enters through the drain pipe 7 into the fish breeding system.

The inventive biofilter for water purification in fish breeding systems is easy to operate, reliable and ensures proper purification of the resulting water.

Claims (3)

1. A biofilter for water purification in fish farming systems, comprising a cylindrical body with a cone-shaped base and a sludge outlet pipe, a hydraulic elevator located in the center of the body, on the upper part of which there is an annular tray and mesh that holds the floating granules of the biological loading, and a drainage pipe, characterized in that additionally contains an overflow nozzle located above the retaining grid, a main chamber with granules of regenerating disorganized bio-loading with neutral buoyancy, a separator a chamber located in the lower part of the casing, the base of which is the bottom of the casing and is an inverted cone with a sludge outlet located on top for periodically discharging the falling sludge, and the upper part of the separation chamber is made in the form of a cone rigidly fixed to its lower part and has slots located in a circle at a minimum permissible structural distance with respect to the walls of the housing, the upper cone of the separation chamber is the bottom of the main chamber and has an inclination towards the walls case 30 °, while the upper part of the lid of the separation chamber is rigidly connected to the hydraulic elevator, which extends beyond the housing cover 1/3 of the total length of the hydraulic elevator, in its upper part there is a water supply pipe, the diameter of which is half the diameter of the hydraulic elevator. 2. A biofilter for water purification in fish farming systems according to claim 1, characterized in that the total area of the slots in the upper part of the separation chamber is equal to the area of the outlet of the hydraulic elevator. 3. A biofilter for water purification in fish farming systems according to claim 1, characterized in that the bio-loading granules occupy 70% of the volume of the main chamber.

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