RU211546U1 - adsorption filter - Google Patents

Abstract

The utility model relates to filters and can be used for gas purification due to the adsorption of pollutants by a multi-layer adsorption load with the removal, in particular, of ammonia, hydrogen sulfide, and organic compounds. The required technical result, which is to improve the quality of cleaning, is achieved in an adsorption filter containing a housing with an inlet and outlet pipe, and the housing is configured to be placed between the inlet and outlet pipes of the adsorption load, while a pre-filter with a three-layer filter element is installed in the inlet pipe in the form of a drop eliminator, the first layer of which is made in the form of a corrugated stainless steel wire, the second layer includes a stainless steel mesh interlaced with fiberglass yarn, the third layer is a corrugated stainless steel wire. 6 w.p. f-ly, 2 ill.

Description

The utility model relates to filters and can be used for gas purification due to the adsorption of pollutants by a multi-layer adsorption load with the removal, in particular, of ammonia, hydrogen sulfide, and organic compounds.

A device is known [RU 2610609, C1, B01D 43/30, 14.02.2017], consisting of a housing with an annular perforated cylinder located in it, a lower flange with a fitting for supplying gas for cleaning under pressure is hermetically fixed inside the housing, inside the housing an internal the cavity between the housing wall and the outer wall of the annular perforated cylinder installed in the housing with a gap, to the outer and inner surfaces of which is adjacent a grid with mesh sizes smaller than the size of the perforation of the cylinder walls, the inner cavity of the annular perforated cylinder, formed by its walls, is filled with adsorption granulated material, moreover, the size of the grid cells is smaller than the size of the granules of the adsorption material, a porous cylindrical filter is installed inside the annular perforated cylinder with a gap relative to its inner wall, a removable top cover with a fitting for the outlet of the purified gas is located on the top of the housing, which is attached to the housing of the device the seal is hermetically sealed with a gasket and a clamp, an annular protrusion is made on the inside of the removable top cover, which is located in such a way that it enters the upper part of the internal cavity of the annular perforated cylinder attached to the top cover, a flange with windows is hermetically attached to the bottom of the annular perforated cylinder , having an annular protrusion that enters the lower part of the internal cavity of the annular perforated cylinder, closed with a removable cover attached to the flange with windows using fasteners, the upper end of the porous cylindrical filter is hermetically attached to the fitting of the removable top cover, and its lower end is hermetically sealed with a plug , a safety valve set to a certain pressure is attached to the internal cavity formed by the housing wall and the perforated annular cylinder.

The disadvantage of the device is the relatively high complexity.

Also known is an adsorption exhaust filter [RU 8343, U1, B01D 53/00, 06/10/2009], containing a housing made of a non-corrosive metal alloy and placed above the source of purified air, an exhaust pipe is installed inside the housing, the internal volume of which is isolated from the source of polluted air and communicated with the volume of the housing, four cassettes with activated carbon are placed around the outer surface of the exhaust pipe inside the housing, separating the outer surface of the exhaust pipe from the source of polluted air and installed at a right angle relative to each other, and the side surface of the cassettes is perforated, between the outer ones with respect to the exhaust pipe The surfaces of the cassettes with activated carbon and the body make a channel for supplying contaminated air, the width of the cassettes is from 50 to 150 mm, and the specific surface area of the activated carbon placed in the cassettes is from 900 to 1200 m ² /g at a bulk density of activated carbon from 0.45 to 0, 55 g/ ^cm3 .

The disadvantage of this technical solution is also the relatively high complexity.

The closest in technical essence to the proposed one is an adsorption filter [RU 2629677, C1, B01D 53/00, 08/31/2017], containing a housing, inlet and outlet pipes and elements with suspended adsorbent layers, while at least two elements with suspended adsorbent layers installed parallel to the gas flow, and each element is made in the form of perforated support grids filled with adsorbent, separated by partitions inclined towards the bottom of the housing, moreover, sprinklers are installed above each adsorbent layer and connected to each other by a single pipe, in the bottom of the body there is a channel for removing sludge, and a vibrator is installed on the perforated support grids.

The disadvantage of the device is the relatively high complexity due to the presence of a vibrator, and the relatively low quality of cleaning in the presence of fat in the gas supplied for cleaning. In addition, the low quality of cleaning is due to the influence of low temperatures, which reduce the activity of the adsorbent. The disadvantages of the known filter is the lack of means for monitoring the sorption capacity of the adsorption load, which does not exclude the operation of the filter under conditions of obviously low quality of purification.

The problem that is solved in the utility model is aimed at creating a filter that provides a higher quality of cleaning.

The desired technical result is to improve the quality of cleaning.

The problem is solved, and the required technical result is achieved by the fact that the adsorption filter contains a housing with an inlet and outlet pipe, and the housing is configured to be placed between the inlet and outlet pipes of the adsorption load, according to the utility model, a pre-filter with a three-layer filter element is installed in the inlet pipe in the form of a drop-grease trap, the first layer of which is made in the form of corrugated stainless steel wire, the second layer includes a stainless steel mesh interlaced with fiberglass yarn, the third layer is corrugated stainless steel wire.

In addition, the required technical result is achieved by the fact that, as an adsorption load, an impregnated adsorption material of the UKM brand is used.

In addition, the required technical result is achieved by the fact that the adsorption filter housing is made with a double wall with heat-insulating material placed between the walls.

In addition, the required technical result is achieved by the fact that the adsorption filter housing is made with a double wall with a heat-insulating material placed between the walls with a heating cable laid in it.

In addition, the required technical result is achieved by the fact that the body is made with the possibility of installing a metal probe passing through the adsorption load.

In addition, the required technical result is achieved by the fact that the surface area of the first and third layers of the drip eliminator is not less than 600 m ² /m ³ .

In addition, the required technical result is achieved by the fact that the surface area of the second layer of the droplet eliminator is not less than 11000 m ² /m ³ .

The drawing shows:

in fig. 1 - adsorption filter together with adsorption loading;

in fig. 2 - drip eliminator.

The adsorption filter contains a body 1 with an inlet 2 and an outlet 3 branch pipe, and the body 1 is configured to be placed between the inlet 2 and outlet 3 pipes of the adsorption load 4, which is used as impregnated adsorption materials of the brand UKM.

In addition, a pre-filter 5 is installed in front of the main body of the adsorption filter. The filter element of the pre-filter is a drop eliminator 6, made of three layers. The first layer is 7 stainless steel crimped wire mesh, the second layer includes stainless steel mesh woven with 8 glass fiber yarn, the third layer is 9 stainless steel crimped wire.

Housing 1 can be made with a double wall with placement between the walls of a heat-insulating material, such as foam, or heat-insulating material with a heating cable laid in it.

In addition, the housing 1 is made with the possibility of installing a metal probe 10 passing through the adsorption load 4.

The adsorption filter is used as follows.

The gas to be purified is supplied to the inlet pipe of the pre-filter housing 11 and passes through the droplet eliminator 6, made in the form of an inlet layer 7 of corrugated stainless steel wire, a layer 8 in the form of a stainless steel mesh intertwined with fiberglass yarn, and an outlet layer 9 of corrugated stainless steel wires. The pre-purified gas enters the multilayer adsorption bed 4 with the removal, in particular, of ammonia, hydrogen sulfide, and organic compounds. To eliminate the effect of low temperatures on load 4, housing 1 can be made with a double wall, inside which is placed a heat-insulating material, for example, foam, or a heat-insulating material with a heating cable laid in it. This improves the quality of gas purification.

Means for monitoring the residual sorption capacity of the adsorption bed 10 is a metal probe coated, which is an indicator of service life, installed in the filter body, passing through all layers of the adsorption bed 4. The expiration of the adsorbent service life can be judged by the color change of the probe. The part of the probe that comes into contact with the developed adsorbent layers oxidizes and darkens. The probe is equipped with a special fastener for fixing in the filter.

Thus, thanks to the introduced improvements, the required technical result is achieved, which is to improve the quality of cleaning. In addition, the use of the proposed technical solution makes it possible to expand the arsenal of technical means used as adsorption filters.

Claims (7)

1. An adsorption filter containing a housing with an inlet and outlet pipe, the housing being arranged to be placed between the inlet and outlet pipes of the adsorption load, characterized in that a pre-filter with a three-layer filter element in the form of a drop eliminator is installed in the inlet pipe, the first layer of which is made in corrugated stainless steel wire, the second layer includes stainless steel mesh interlaced with fiberglass yarn, the third layer is stainless steel corrugated wire. 2. An adsorption filter according to claim 1, characterized in that impregnated adsorption material of the UKM brand is used as an adsorption load. 3. Adsorption filter according to claim. 1, characterized in that the adsorption filter housing is made with a double wall with heat-insulating material placed between the walls. 4. The adsorption filter according to claim 1, characterized in that the adsorption filter housing is made with a double wall with a heat-insulating material placed between the walls with a heating cable laid in it. 5. Adsorption filter according to Claim. 1, characterized in that the housing is made with the possibility of installing a metal probe passing through the adsorption load. 6. Adsorption filter according to claim 1, characterized in that the surface area of the first and third layers of the droplet eliminator is at least 600 m ² /m ³ . 7. Adsorption filter according to claim 1, characterized in that the surface area of the second layer of the droplet eliminator is at least 11,000 m ² /m ³ .

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