UA45122A - HELL COLLECTION FILTER-FILTER - Google Patents

Abstract

A cellular biofilter-filter for water cleaning from organic and mineral impurities contains a main case with a filtering charge, a pipe to feed a water for cleaning, a branch pipe to remove a cleaning water, and a clean filtrate, and additionally has the shelf-pipes, installed in parallel to each other and with a slope to the horizon plane, and the shelf-pipes are disposed partially in the filtering charge and partially under the filtering charge, a hermetic chamber-caisson, connected to a space under the filtering charge, a pipeline to feed compressed air, and a vertically set U-like pipe, one end of which is connected to the chamber-caisson, and another end is connected to atmospheric air, and to it, a pipe for feeding water for cleaning is disposed under the filtering charge and under the shelf-pipes, and the pipe for compressed air delivering is additionally connected to a splashing oiling system, installed in the filtering charge over the shelf-pipes, and a additional case with a additional filtering charge, and this additional case is connected to the main case by a branch pipe for a clear filtrate and has another branch pipe for swinging a clear water.

Description

Description of the invention

The invention is designed to purify water from suspended and dissolved substances by means of their complex 2 filtering through a filter load and can be used to remove impurity inclusions from other liquid media.

A well-known filter for liquid purification, the design of which consists of a housing filled with granular filter material, pipelines for the supply of water for cleaning and the removal of purified water, a nozzle for collecting and draining washing water |11). 70 The disadvantage of the filter is the low efficiency of cleaning and the instability of the performance of the device due to the reduction of porosity during the deposition of impurities. This process takes place most intensively in the initial layers of the nozzle, due to which the hydraulic resistance to filtering the liquid increases significantly and both the speed and performance of filtering decrease.

The closest to the proposed technical solution is a well-known filter for liquid purification, which 72 consists of a housing, with a filter load, a pipeline for supplying water for cleaning, nozzles for the removal of washing water and clean filtrate |21 (prototype).

In the prototype filter, the deposition of suspended impurity inclusions on the loading granules leads to a decrease in the volume of the pore space (porosity) of the nozzle. The intensity of reduction is proportional to the amount of precipitated impurities. This process takes place most intensively on the initial layers of the filtering loading, as a result of which their solid clogging is the result, while a much larger loading volume remains unfilled with impurities only because they cannot pass into the unfilled volume. The filtering speed in the prototype device is variable, with an amplitude from its nominal value to 0, and the period of change is the filter cycle as a result of the increase in pressure losses of the initial layer of the filter load. This forces premature regeneration of the filter nozzle, which significantly reduces the time of the filter cycle, when the entire 22 volume of the nozzle has not yet used the resource of the absorption capacity. A significant drawback inherent in the "prototype filter" is the impossibility of removing dissolved and organic impurity compounds with its help.

For this, it is necessary to create conditions for transferring them to a suspended state.

The invention is based on the task of a cellular biofilter-filter for purifying water from organic and mineral impurities by equipping it with parallel tubes-shelves, located with an inclination relative to the horizontal plane under the filter load and partially inside it, sealed with a caisson chamber, which hydraulically connected to the casing in the zone, under the filter load, the compressed air supply pipeline and the O-tube, the openings of which connect the environment of the caisson chamber with the - external atmosphere, in addition, the compressed air supply pipeline is also connected with a bubbler system, which is placed in the filter load above the shelf tubes, as well as an additional housing with a filter load, which is hydraulically connected to the main housing with the help of M pipeline, to ensure an increase in the amplitude of fluctuations in the speed of filtering water in the filter load of the main filter.

The task is achieved due to the fact that the cellular biofilter-filter for purifying water from organic and mineral impurities, which consists of a main body with a filter load, with 50 water supply pipelines for cleaning, nozzles for the removal of washing water and clean filtrate, is additionally equipped with parallel shelf tubes located with a slope relative to the horizontal plane under the filter load and partially in it, a hermetic caisson chamber, which is hydraulically connected to the housing in the zone, under the filter load, a pipeline for supplying compressed air and an O-shaped tube, the openings of which connect the environment of the caisson chamber with the external atmosphere, in addition, the compressed air supply pipeline is also connected to the bubbling system, which is placed in the filter load above the shelf tubes, as well as the additional housing with the filter load, which is hydraulically connected to the main body by means of a pipeline.

Parallel tubes-shelves, which are located with a slope relative to the horizontal plane under the filter - load and partially in it, which the filter is equipped with, are honeycombs, on which impurities with the highest hydraulic coarseness of 20 are deposited, and are connected with a caisson chamber, which hydraulically connected to the main body, in the area under the filter load, a pipeline for supplying compressed air and an MO-shaped tube, the holes of which connect the environment of the caisson chamber with the external atmosphere create a regime of pulsations of the filtering speed with an optimal amplitude of oscillations, allows to carry out the disruption of settled impurities on the honeycombs of the shelf tubes and their deposition in the area of the outlet pipe of the washing water. 29 The bubble system, which is equipped with the main body of the filter, is designed for intensive aeration in of the upper layer of the filter load, thanks to which conditions are created for the growth of a biofilm on the granules of the nozzle and with its help to remove dissolved impurities of organic origin, create conditions for coagulation and transfer of dissolved impurities to a suspended state, reduce the intensity of the smell of water. But the pneumatic communication connection of the bubbling system with the caisson chamber using the compressed air supply pipeline 60 allows you to localize the velocity pulsations in the lower zone of the nozzle and shelf tubes (where pulsations are needed), to adjust the parameters of the pulsations themselves, using the regulator valve, as well as by due to changes in the characteristics of the O-shaped tube (diameter, height of straight sections, which may not be proportional).

Thanks to the equipment with an additional housing with a filter load, which is hydraulically connected to the main housing 62 by means of a pipeline, the extraction of dispersed particles from water is achieved,

which became such on the biofilm and due to the intensive bubbling of the filtering loading of the main body.

In fig. a scheme of a cellular biofilter-filter is shown.

The design of the cellular biofilter-filter consists of the main body 1, in which the filter loading 2 (for example, a granular nozzle) is placed, the water supply pipeline for cleaning 3, the outlet of the washing water outlet 4, located in the lower part of the body 1, parallel tubes-shelves 5, located with an inclination relative to the horizontal plane in the housing 1 under the filter loading 2 and partially in it, pipeline b, which connects the main housing with an additional one, chamber-caisson 7 with 70 pipeline 8, which connects it with the main housing and O- a similar tube 9, the openings of which connect the environment of the caisson chamber with the outside atmosphere, a pipeline for supplying compressed air 10 to the caisson chamber through the regulator valve 11 and the bubble system 12 through the regulator valve 13, the additional housing 14, which houses the loading 15, piping systems for the removal of clean filtrate 16 and washing water 17, which are located in the additional housing 14.

The cellular biofilter works as follows.

By opening the shut-off valve on the water supply pipeline for cleaning 3, water fills the main body 1 and enters the caisson chamber 7 through the pipeline 8. The water passes through the parallel tubes of the shelf 5, on which the heaviest dispersed particles are deposited and then enters the filter loading 2. At the same time as water enters the housing, compressed air is supplied through pipeline 10 through regulator valve 13 to the bubbling system, and through regulator valve 11 to caisson chamber 7. The bubbling system provides active aeration of water in the area where it passes through the filter loading 2 Due to this, optimal conditions are created for the development of a biofilm on the loading granules, and the flotation and coagulation processes are also activated. Therefore, in the nozzle 2 (body 1), dispersed impurities that did not settle on the honeycombs made of tube-shelves are deposited, biological water purification is carried out with intensive processes of г5 transfer of dissolved impurity inclusions into the dispersed phase. Thanks to the compressed air flowing through the pipeline 10 through the regulator valve 11, it is possible to set the water level in the caisson chamber 7 below the opening "

MO-shaped tube 9, and therefore the air from 7 is throttled to the outside. The process of deposition of impurities on the honeycomb of tube-shelf 5 and granules of filter load 2 takes place with the formation of a layer consisting of pollution particles. The particles themselves coagulate among themselves, forming conglomerates that are additional to the Filtering agent, but being in the pore space of the nozzle, such formations lead to a decrease in the size of the pores up to their clogging, which results in an increase in hydraulic resistance to filtering water. This causes the water level in the caisson chamber 7 to rise until the O-shaped tube 9 is filled with water, forming a hydraulic valve in it that prevents the free release of excess air. The pressure of the air supplied through the pipeline 10 in the caisson chamber increases and due to the difference with the atmospheric pressure, water from the OM-shaped tube about zv is pushed out smoothly to its lower part, passing which is pulsed out. There is an instantaneous connection of the atmosphere of the chamber-caisson 7 with the external environment. The pressure in the caisson chamber drops sharply to atmospheric. A hydraulic impulse is generated, which is transmitted through pipeline 8 to housing 1.

Such an impulse impulse has the opposite direction to the filtering of the liquid and acts on conglomerates of particles, breaks off sediment of pollution from the honeycomb, which form the tube-shelf, the lower layer of the filter loading « 2 in the direction of the free space below it. The hydrostatic pressure in the housing 1 and the caisson chamber 7 is equalized and the water purification process continues, and the flocs of particles that were torn off and left the nozzle also. are deposited in the lower part of the case. The heaviest are deposited in the lower part of the body 1, in the zone y? the location of the outlet of the washing water 4, and the lighter ones (representing a shallow porous medium) pass before loading, forming an additional filter layer that is capable of retaining highly dispersed particles of pollution. The filtering process becomes more efficient. The impulsive movement of water І5" is most intense precisely in the lower zone of the housing 1, where such a flow mode is necessary, due to the simultaneous supply of compressed air from the pipeline 10 to the chamber-caisson 7 and the bubbling system 12, the air layer of which plays the role of a pneumatic damper, and thanks to the consistency of the operation of the regulating valves 11 and - 13, the adjustment of the parameters of the pulsed movement of water is achieved. Through the pipeline 6, water from the main body 1 5r flows into the additional body 14, passes in the stationary mode of filtration through the load 15, on which highly dispersed impurities are deposited and is removed through the clean filtrate pipeline 16.

Ge After exhausting the absorption capacity of the nozzles, when the filtering loadings 2 and 15 are completely filled, the cellular biofilter-filter is brought into the regeneration mode of the nozzles. By closing the corresponding fittings, the inflow of water through the nozzle 3, compressed air through the pipeline 10 into the caisson chamber 7 and into the bubbling system 12 is stopped, the valves on the nozzles for the flushing water outlet 4 and 17 are opened. The flow of water from the upper part of the housings 1 and 15 filters loading 2 and 15 are diluted, actively mixed by the stream

P water, the loading granules and the cell 5 (which is formed of tubes-shelfs) are washed from the deposited impurities, which are removed together with the washing water and the sediment formed in the lower part of the housing 1 through pipelines 6 and 17. After washing, the filtering cycle is repeated.

The difference between the proposed technical solution and the existing designs of filter devices is that complex cleaning is carried out in pulse-speed mode. At the same time, structural elements such as tubes-shelves, a chamber-caisson and a bubbling system with a pneumatic communication system create a single complex, due to which the effect of biological cleaning is simultaneously achieved and a 65-pulse flow mode is created with the possibility of adjusting the frequency and amplitude of oscillations in a wide range of values. The difference is that the pulse mode of water flow is most intense in the lower part of the main body (where it is most necessary) due to the gas-air damper created by the bubbling system, which also performs the function of gas saturation.

The combination of these elements, as well as the coordination of their operation parameters with the help of control valves, makes it possible to select the impulse impact directly on the conglomerates of particles deposited on the honeycomb of tubes-shelves and the lower layer of the filter loading of the main body, to use resonance phenomena (when the pulse frequency coincides with the natural frequency sediment fluctuations) to intensify the process of particle settling, while the filter loading elements of the main body can remain in a stable state. An important difference is that the pulse process takes place in automatic mode, and the 7/0 adjustment allows you to adjust the installation for cleaning water from various dispersed impurities, and the additional housing with filter loading provides cleaning in a stable hydraulic mode, which is necessary for the removal of highly dispersed inclusions of organic origin.

The practical use of the proposed technical solutions makes it possible to increase the efficiency of removing impurities, reduce the intensity of the smell of water due to the zonal complex effect on the environment being cleaned, significantly increase the dirt capacity of the cleaning device as a result of the uniform distribution of impurities in separate filter cleaning zones, and eliminate the possibility of clogging of the pore space filtering downloads.

A significant difference of the cellular biofilter-filter is the possibility of extracting a wide range of impurity inclusions of both inorganic and organic origin with maximum use of the capacity of 2o absorption of impurities by the sorption volume of the cells from the tubes-shelves and filter loads of the housings, which significantly extends the filtering time.

Cleaning in the mode of speed pulsations in the main body of the cellular biofilter-filter occurs automatically, so its operation does not require additional service personnel or complex electronic control systems after commissioning and debugging.

The technical solutions included in the proposed design of the cellular biofilter-filter can be used to modernize existing filters, while their reconstruction will not require significant capital investments, and implementation will significantly improve both the technological parameters of wastewater treatment and the economic indicators of the operation of the treatment plant.

Used information from 1. Author's certificate of the USSR Mo 682246, VOID 23/26; 1975 2. Zhurba M. G. Styrofoam filter. - M.: Stroyizdat, 1992. p

Claims (1)

"- The formula of the invention is, , , , s, , y , " Cellular biofilter-filter for purifying water from organic and mineral impurities, which consists of a main body with a filter load, a pipeline for supplying water for cleaning, nozzles for draining washing water and of clean filtrate, which is distinguished by the fact that it is additionally equipped with shelf tubes installed parallel to each other and with an inclination relative to the horizontal plane, while the shelf tubes are placed partly in the filter load and partly under the filter load with a sealed chamber - a caisson, which is connected to the space placed under the filter load, a pipeline for supplying compressed air and a vertically installed O-shaped tube, one end of which is connected to the caisson chamber, and the other end is connected to atmospheric air, in addition, the water supply pipeline for cleaning is placed under the filter load and below the shelf tubes, and the supply pipeline of compressed air is additionally connected to the bubbling system, placed in the filter load above the shelf tubes, as well as an additional housing with an additional filter load, while the additional housing is connected to the main housing through a clean filtrate discharge pipe and is equipped with a clean filtrate discharge pipeline water - from 50 Ko) R 60 b5