RU194668U1 - MULTI-CASSETTE SORPTION FILTER - Google Patents

Abstract

The utility model relates to devices for wastewater treatment, in particular industrial, rain from mechanical impurities, petroleum products and other ingredients. The multi-cassette sorption filter for wastewater treatment contains cassettes filled with sorbent, placed one below the other with a gap relative to each other, made with the possibility of passing through them the treated wastewater from top to bottom, having a perforated bottom located above the upper cassette atomizer associated with the source of wastewater , and located under the lower cartridge storage tank for wastewater. Said filter comprises a compressed air distributor configured to supply compressed air under the bottom of each cartridge. Each cassette has a perforated lid. The result is an increase in the efficiency of wastewater treatment and an increase in the duration of the device without replacing the sorbent. 1 ill.

Description

The utility model relates to devices for wastewater treatment, in particular, industrial, rain from mechanical impurities, petroleum products and other ingredients.

Known multi-cartridge sorption filters for multi-stage wastewater treatment, containing a cascade of filtering sections located one below the other, through which the purified water is sequentially passed.

So, for example, a multi-cassette sorption filter is known [RU 174230], which contains dry sorbent cassettes located in a single housing, one above the other, the top of which is connected to the purified water supply system, and the lower one is connected to the purified water drainage system. Purified water is supplied using perforated tubes distributed over the surface of the upper cassette.

However, the filter material (sorbent) located in the cassettes is subject to compaction / caking during operation, which leads to a decrease in filtration efficiency and the need for a relatively frequent replacement of the sorbent.

Known multi-cartridge sorption filter [Grafova E.O. "Improving the efficiency of water supply and sanitation of suburban facilities." A / r dissertation for the degree of candidate of technical science, St. Petersburg, 2008, p. 16], selected by the authors as the closest analogue.

This multi-cassette filter includes a housing housed in a housing. One below the other with a gap, extendable open cassettes with a perforated bottom. Each cartridge is filled with a sorbent - dry filter material. An atomizer connected to the source of wastewater to be cleaned is installed above the upper cassette. Under the lower cassette is a storage tank for treated wastewater passing through the filter.

In the specified device, due to the presence of a spray, the treated effluent enters the filter in the form of a water-air mixture, due to which the filtration takes place in a three-phase medium (solid-liquid-gas), and the wastewater treatment process is intensified.

However, in the described device, partial densification / caking of the sorbent also occurs, which reduces the efficiency of wastewater treatment and requires a relatively frequent replacement of the sorbent.

The problem to be solved when implementing the claimed utility model is to increase the efficiency of wastewater treatment and increase the duration of the device without replacing the sorbent.

The essence of the utility model lies in the fact that the multi-cassette sorption filter for wastewater treatment includes cassettes filled with sorbent, placed one below the other with a gap relative to each other, made with the possibility of passing through them the treated wastewater from top to bottom, having a perforated bottom, and also located above the upper cartridge, a sprayer connected to the source of treated wastewater and a storage tank for treated wastewater located under the lower cartridge. According to a utility model, the filter comprises a compressed air distributor configured to supply compressed air under the bottom of each cartridge.

In the particular case of a utility model, each cartridge is provided with a perforated lid.

The use of the inventive device several located one below the other filled with sorbent cartridges provides multi-stage wastewater treatment, including the use of different types of sorbents in cartridges.

The presence of a spray located above the upper cartridge ensures the supply of wastewater to the filtration in the form of a water-air mixture. The air-water mixture is filtered in a three-phase medium (solid-liquid-gas), while a continuous liquid flow does not form in the pore medium of the filtering material, but a pulsating film filtration mode occurs. Moreover, the surface of the sorbent particles periodically appears in the air, which intensifies the process of oxidation of organic pollutants. In addition, in this filtration mode, more favorable conditions are created for the formation and fixation of immobilized microflora on the sorbent. These factors have a positive effect on the intensification of the wastewater treatment process.

Fundamentally important in the inventive device is the presence in it of a distributor of compressed air, ensuring its supply to the bottom of the cassettes. When compressed air is supplied, the sorbent located in the cassette is loosened, which prevents its compaction / caking. Due to this, the entire volume of the sorbent in the cassettes is equally involved in the filtration process. In addition, due to the supply of oxygen in the air, oxidative processes in the filter medium are intensified, as well as purification processes provided by microflora immobilized on the sorbent. Moreover, due to these factors, a rarer replacement of the sorbent in the cassettes is required.

Thus, the technical result achieved by the implementation of the utility model is to increase the efficiency of wastewater treatment and increase the duration of the device without replacing the sorbent.

It is advisable to use perforated covers in the cassettes to prevent the dry fibrous sorbent from being blown out under the action of compressed air from the cassette volume. These covers can be made in the form of nets or gratings.

The figure shows a General view of the claimed device.

The device comprises a housing 1, in which are placed one below the other with a gap relative to each other cassettes 2 (in the drawing, the reference is one cartridge), filled with sorbent 3 (in the drawing, the reference indicates the sorbent in one cartridge). Each cassette 2 has a perforated bottom 4 (in the drawing, the position denotes one bottom).

In particular, the device contains four cassettes 2, made in the form of containers open on top - baskets in which a sorbent is placed, which is first used in the direction of purified water peat sorbent, and activated carbon in the last cassette 2.

Each cassette 2, in particular, is equipped with a perforated cover 5 (in the drawing, the position indicates one cover) located on top of the sorbent 3.

Cassettes 2, in particular, are fixed in the housing 1 with the possibility of their extension in the horizontal direction, in particular along the guides (not shown in the drawing).

The device also contains a sprayer 6 connected to a source 7 of treated wastewater supplied to the sprayer 6 by means of a pump 8. The sprayer 6 is installed in the housing 1 with the possibility of supplying the cleaned water to the upper part of the upper cartridge 2.

In the housing 1 under the lower cassette 2 there is a storage tank 9, equipped with a pipe 10 for the removal of purified water.

The device is equipped with a distributor of compressed air 11, made with the possibility of its supply under the bottom 4 of each cartridge 2. The distributor 11, in particular, includes tubes 12 (one tube is indicated by the figure in the drawing) located in the gaps between the cartridges 2, provided with outlet openings (not position marked) for supplying compressed air under the bottom 4 of each cartridge 2. On the tubes 12 installed control valves 13.

The distributor 11 is made with the possibility of its connection with a source of compressed air (not shown in the drawing), in particular, with a compressor.

In the upper part of the housing 1, an air exhaust system 14 is installed.

The device operates as follows.

Purified wastewater from source 7 is pumped to atomizer 6 using pump 8. The treated effluent in the form of a water-air mixture flows from atomizer 6 to the upper cassette 2. The filtered medium under the influence of gravitational forces passes sequentially through all cassettes 2. The treated effluents are collected in a storage tank capacity 9 and are removed from it through the pipe 10.

When the distributor 11 is turned on, compressed air is supplied under the bottom 4 of the cassettes 2 (all or some), while the loosening of the sorbent 3 in the cassettes 2 is ensured. The intensity of the compressed air supply is regulated using the control valves 13.

Air from the housing 1 is discharged using an air exhaust system 14.

Claims (1)

A multi-cassette sorption filter for wastewater treatment, comprising a housing in which there are cassettes placed one below the other with a gap relative to each other, sorbent made with the possibility of passing through them the wastewater being cleaned from top to bottom, having a perforated bottom located above the upper cassette atomizer, associated with a source of treated wastewater, and located under the lower cassette storage tank for treated wastewater, characterized in that it is equipped with a distributor the air made with the possibility of supplying compressed air under the bottom of each cartridge, with each cartridge provided with a perforated cover.

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