RU2629677C1 - Filters with granular adsorbent - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to equipment for adsorption processes of trapping mist of various acids, for example, in a sulfuric packed column. The filter with granular adsorbent has a body, inlet and outlet branch pipe and elements with suspended adsorbent layers. There are at least two elements with suspended adsorbent layers in the body. The elements are installed parallel along the direction of the gas flow, and each element is made as perforated support grids, filled with the adsorbent and divided with partitions, inclined to the bottom of the body. Wherein spray heads are installed on top of each adsorbent layer and interconnected with one pipe. There is a sludge disposal channel at the bottom of the body, and a vibrator on the perforated support grids.

EFFECT: allows increasing the degree of gas flow purification from the target component and dust due to the increase of the contact area of the adsorbent with the target component.

6 dwg

Description

The invention relates to filtering equipment for carrying out adsorption processes.

The closest technical solution to the claimed object is a granular filter containing a housing, inlet and outlet pipes and elements with suspended layers of adsorbent according to RF patent No. 2290918, B01D 53/02 (prototype).

A disadvantage of the known filter is that it does not provide a high degree of purification of the gas stream from the target component and dust.

The technical result is an increase in the degree of purification of the gas stream from the target component and dust by increasing the contact area of the adsorbent with the target component.

This is achieved by the fact that in the filter with a granular adsorbent containing a housing, inlet and outlet nozzles and elements with suspended adsorbent layers, at least two elements with suspended adsorbent layers installed parallel to the gas flow are placed in the housing, and each element is made in the form of perforated support grids filled with adsorbent, separated by baffles, inclined towards the bottom of the body, with sprinklers installed above each adsorbent layer and connected by a single pipe, and in the bottoms the housing is a channel for sludge removal, and perforated support grid is mounted vibrator.

In FIG. 1 shows a general view of a filter with a granular adsorbent, a longitudinal section, in FIG. 2-6 are diagrams of embodiments of a granular adsorbent element 7 with suspended layers of adsorbent located on perforated support grids 5.

The filter with granular adsorbent contains a housing 1, input 2 and output 3 nozzles. At least two elements 7 with suspended adsorbent layers arranged parallel to the gas flow are placed in the housing, and each element is made in the form of perforated support grids 5 filled with adsorbent, separated by baffles 8 inclined towards the bottom of the housing 1, and sprinklers 10 are installed above each adsorbent layer and connected by a single pipe 9, and in the bottom of the body there is a channel for removing sludge 11. Elements 7 with suspended layers of adsorbent are located on the rack 4 and the partition 13. Kapleulov Itel 12 is located in front of the outlet pipe 3.

A vibrator 6 is mounted on the perforated support grids 5.

The filter with granular adsorbent operates as follows.

The gas stream for cleaning is fed through the inlet pipe 2, meets on its way perforated support grids 5 filled with adsorbent, is in contact with the adsorbent washed by the irrigating liquid. To increase the efficiency of capture on the perforated partitions 5 installed vibrators 6, which enhance the fluidization process. The cleaned gas stream is discharged through the outlet pipe 3. The sludge from the inclined partitions 8 flows into the channel 11 to remove the sludge.

Sprinklers are installed above each adsorbent layer and are interconnected by a single branching pipe having a central trunk and bends, and bends installed above each adsorbent layer are connected to the central shaft by the corners of the same section, the channel for removing sludge is located so that the natural drain sludge from inclined towards the bottom of the body of the partitions is directed along the axis of this channel

It is possible to fulfill the shape of the adsorbent (Fig. 2) in the form of a cylindrical ring, on the lateral, internal and external surfaces of which a screw thread is made (not shown in the drawing) in opposite directions.

It is possible to fulfill the shape of the adsorbent (Fig. 3) in the form of a ball, on the surface of which non-through holes are made hemispherical in shape (not shown in the drawing).

It is possible to fulfill the shape of the adsorbent (Fig. 4) in the form of a ring, on the outer surface of which a helical surface is made like a plate auger.

It is possible to carry out the adsorbent form (Fig. 5) in the form of at least a three-blade propeller.

It is possible to fulfill the shape of the adsorbent (Fig. 6) in the form of a cylindrical ring, on which two hemispherical surfaces are attached opposite to each other so that the diametrical planes of the hemispheres coincide with the upper and lower bases of the cylindrical ring, and the vertices of the hemispherical surfaces are on the axis of the ring and are directed towards each other, while perforation is performed both on the side surface and on hemispherical surfaces, and the space between the side is internally The surface of the perforated cylindrical ring and two perforated hemispherical surfaces attached to its side surface is filled with additional inert elements, for example, in the form of balls whose diameters are larger than the diameters of the ring perforation and hemispherical surfaces.

The proposed device can significantly increase the degree of purification of the gas stream from the target component and dust by increasing the contact areas of the moving adsorbent and the intensification of the process due to irrigation fluid and vibro fluidization.

Claims (1)

A filter with a granular adsorbent, comprising a housing, inlet and outlet nozzles and at least two elements with suspended adsorbent layers installed parallel to the gas flow, each element being made in the form of perforated support grids filled with adsorbent, separated by baffles inclined towards the bottom of the housing, sprinklers are installed above each adsorbent layer and interconnected by a single branching pipe having a central trunk and bends, and bends installed above each adsorbent layer nta are connected to the central shaft through angles of the same section as the central shaft, and there is a channel for removing sludge in the bottom of the body, which is located in such a way that the natural drain of the sludge from the partitions inclined towards the bottom of the body is directed along the axis of this channel, and vibrators are installed on the perforated support grids from the side opposite to the weighed adsorbent layers, characterized in that the shape of the adsorbent element with suspended adsorbent layers located on the perforated support grids x, made in the form of a cylindrical ring, to which two hemispherical surfaces are attached opposite to each other so that the diametrical planes of the hemispheres coincide with the upper and lower bases of the cylindrical ring, and the vertices of the hemispherical surfaces are on the axis of the ring and are directed towards each other, in this case, perforation was performed both on the lateral surface and on hemispherical surfaces, and the space between the lateral inner surface of the perforated cylindrical rings and two perforated hemispherical surfaces secured to its side surface, is filled with additional inert elements, for example in the form of beads with diameters greater perforation diameter ring portion and hemispherical surfaces.

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