RU33944U1 - Sorption filter and installation, for example flotation, for cleaning liquids based on it - Google Patents

Abstract

1. The sorption filter containing the housing, two coaxially located cylindrical walls in it, the space between which is filled with a load of sorbent material, as well as the inlet and outlet channels, characterized in that the cylindrical walls are made of perforated material, between the body and the outer cylindrical partition there is closed gap, and the exhaust channel is made in the form of a pipe and introduced into a cavity bounded by an internal cylindrical partition, and the upper edge of the exhaust pipe located below the upper edge of the cylindrical partitions. 2. The filter according to claim 1, characterized in that the housing wall has an additional outlet window located above the upper edge of the cylindrical partitions. The filter according to claims 1 and 2, characterized in that a lid is located on the cylindrical partitions. 4. Installation, for example flotation, for cleaning liquids, containing a working chamber for primary cleaning and a filter that includes a housing, two cylindrical coaxial baffles located in it, the space between which is filled with a load of sorbent material, as well as the inlet and outlet channels, while the outlet channel of the filter is the output of the installation, characterized in that the filter is located outside the volume of the working chamber, the cylindrical partitions of the filter are made of perforated material, between the filter housing and the outer cylindrical partition has a closed gap, and the outlet channel of the filter is made in the form of a pipe and brought into a cavity bounded by the inner cylindrical partition, and the upper edge of the outlet pipe finds

Description

20031Z3960

SORPTION FILTER AND INSTALLATION, FOR example, FLOTATION, FOR CLEANING LIQUIDS ON ITS

Useful models relate to the purification of contaminated liquids and can be used in a wide range of production processes and in the field of housing and communal services.

Known sorption filter made in the form of a conical structure installed in the lower part of the working chamber of the treatment plant (USSR Author's Certificate No. 971806, MNC C

02 F 1/24, 1980).

Such a filter has low efficiency, because the filtering surface is poorly developed in it.

The closest in technical essence and the achieved result is a filter containing a housing, two cylindrical partitions coaxially located in it, the space between which is filled with a load of sorbent material, and also the inlet and outlet channels (Copyright certificate

USSR JVol446113, IPC C 02 F 1/24, 1 / 00.1987).

Such a filter also has low efficiency due to the underdeveloped filter surface.

The task the utility model is aimed at is to increase the operational efficiency of the filter.

IPC with 02 F 1/24, 3/00

BASIS

The problem is solved in that in the sorption filter containing the housing, two cylindrical baffles coaxially located in it, the space between which is filled with a load of sorbent material, as well as the inlet and outlet channels, the cylindrical baffles are made of perforated material, there is between the casing and the outer baffle closed gap, and the exhaust channel is made in the form of a pipe and introduced into a cavity bounded by an internal cylindrical partition, and the upper edge of the pipe is located It is located below the upper edge of the cylindrical partitions, and a cover is installed on the cylindrical partitions.

A wastewater treatment plant is also known, comprising a working chamber and a sorption filter of a conical configuration installed in its lower part (USSR Copyright Certificate

No. 971806, IPC C 02 F 1/24, 1980).

Such an installation has an insignificant degree of purification of contaminated liquid.

The closest in technical essence and the achieved result is the installation for cleaning liquids, containing a working chamber for primary cleaning and a filter located inside it, including a housing that is also a building body, two coaxially located solid cylindrical partitions, the outer of which is part of the filter housing , with the space between the cylindrical partitions filled with a load of sorbent material, as well as the inlet and outlet channels, while the outlet filter channel is the output of the installation (Copyright

USSR No. 1446113, IPC C 02 F 1/24, 1/00, 1987).

Such an installation also does not have a sufficiently high degree of purification of contaminated liquid due to the ineffective operation of the filter and is difficult to maintain and control. The task to which the utility model is directed is to increase the degree of purification of contaminated liquid and reduce the complexity of servicing the installation and its control.

The problem is solved in that in the installation for cleaning liquids, containing; it has a working chamber for primary cleaning and a filter including a housing, two cylindrical coaxially located walls in it, the space between which is filled with a load of sorbing, its material, as well as the inlet and outlet channels, while the outlet channel of the filter is the outlet of the installation, the filter is located outside the volume of the working chamber, the cylindrical partitions of the filter are made of perforated material, between the filter housing and There is a closed gap in the cylindrical partition, and the filter outlet channel is made in the form of a pipe and inserted into a cavity bounded by the inner cylindrical partition, the upper edge of the exhaust pipe being lower than the upper edge of the cylindrical partitions. In addition, in the wall of the filter housing there may be an additional outlet window located above the upper edge of the cylindrical partitions, and a cover is installed on the cylindrical partitions.

-3 In FIG. 1 shows an installation with a filter, general view; figure 2 - section aa in fig. 1.

Installation for cleaning liquids contains a working chamber 1 with input 2 and output 3 pipelines. The pipe 3 is connected to the housing 4 of the filter. Inside the housing 4, an outer 5 and an inner 6 coaxial cylindrical partition are made of perforated material. The space between the partitions 5 and 6 is filled with a load 7 of sorbent material. Between the walls of the filter housing 4 and the cylindrical partition 5 there is a closed gap 8. An exhaust pipe 10 is introduced into the central chamber 9, bounded by the inner cylindrical partition 6, so that its upper edge is below the upper edge of the cylindrical partitions 5 and 6. In the wall of the housing 4 The filter has an additional outlet window 11 located above the upper edge of the cylindrical partitions 5 and 6 and communicating with the drain pocket 12. A cover 13 is mounted on the partitions 5 and 6, which is fixed, for example, peanut nut 14.

As a working chamber, a flotation chamber, a mechanical or biological treatment chamber, or any other type of pretreatment of water can be used.

Installation for cleaning liquids with a sorption filter operates as follows.

The contaminated liquid coming through the pipeline 2 to the working chamber 1 is subjected to primary processing in it, depending on the type of chamber 1. The initial processing

the liquid through the pipeline 3 is supplied to the housing 4 of the sorption filter.

In the filter, water is evenly distributed over the volume of the gap 8 and then passes through the side surface of the perforated cylindrical partition 5, the filtering charge 7 and the perforated cylindrical partition 6 into the central chamber 9.

In the case of using a filter load 7 with a density lower than the density of the filtered liquid, the cover 13 prevents the ascent of the load 7.

The filtered liquid rises along the central chamber 9 and pours into the central pipe 10, through which it is discharged from the installation.

In the process of filtering, the developed side surface of the filter works, which significantly reduces the hydraulic load, the filtration rate and the hydraulic resistance of the loading layer 7 and increases the time of the filtration cycle before regeneration or replacement of the load 7. As the load 7 becomes clogged, its hydraulic resistance increases, which leads to an increase in the level in the housing 4 filters. A signal to stop the filtration cycle is the beginning of the fluid flow through the window 11.

Thus, the proposed filter and installation allow for highly efficient purification of water or other liquid with an increased filtration cycle and a significantly smaller area occupied by the filter. In addition, the filter can use floating loading with saving

fixed geometric parameters of the filter load, and the duration of the filtration cycle is easily controlled visually or automatically by the liquid level in the filter housing.

Claims (6)

1. The sorption filter containing the housing, two coaxially located cylindrical walls in it, the space between which is filled with a load of sorbent material, as well as the inlet and outlet channels, characterized in that the cylindrical walls are made of perforated material, between the body and the outer cylindrical partition there is closed gap, and the exhaust channel is made in the form of a pipe and introduced into a cavity bounded by an internal cylindrical partition, and the upper edge of the exhaust pipe located below the upper edge of the cylindrical partitions. 2. The filter according to claim 1, characterized in that the housing wall has an additional exhaust window located above the upper edge of the cylindrical partitions. 3. The filter according to claims 1 and 2, characterized in that a cover is located on the cylindrical partitions. 4. Installation, for example flotation, for cleaning liquids, containing a working chamber for primary cleaning and a filter that includes a housing, two cylindrical coaxial baffles located in it, the space between which is filled with a load of sorbent material, as well as the inlet and outlet channels, while the outlet the channel of the filter is the outlet of the installation, characterized in that the filter is located outside the volume of the working chamber, the cylindrical partitions of the filter are made of perforated material, between the filter housing and the outer cylindrical partition has a closed gap, and the outlet channel of the filter is made in the form of a pipe and introduced into the cavity bounded by the inner cylindrical partition, and the upper edge of the exhaust pipe is below the upper edge of the cylindrical partitions. 5. Installation according to claim 4, characterized in that in the wall of the filter housing there is an additional outlet window located above the upper edge of the cylindrical partitions. 6. Installation according to claims 4 and 5, characterized in that a cover is installed on the cylindrical partitions of the filter.