RU2591964C1 - Aerosol sorbing air filter - Google Patents

Abstract

FIELD: treatment plants.

SUBSTANCE: invention relates to sorption equipment, particularly to means of collective protection, which can be used to clean air of radioactive aerosols, vapors of molecular iodine and its organic compounds, for example, in systems of air ventilation at radiochemical plants, as well as in systems of ventilation vessels civil and naval fleet with atomic reactors. Air filter comprises housing, in which there is removable cartridge with two filter elements made of folded zigzag-like three-layer sorption-filtering material, with separating separators located between folds. First layer of material along air course is made of thermo glued nonwoven web with surface density of 28-30 g/m². Second layer is made of fibrous nonwoven activated carbon material impregnated with silver nitrate and 1,4 diazo-bicyclo (2.2.2) octane and having static sorption activity as pairs of benzene 180-220 mg/g. Third layer is made of filtering cardboard having resistance to air flow 6-8 mm of water column. Ratio of fold height, gap between peaks of neighbouring folds and total thickness of material is (20÷25):(2.5÷3.0):1.

EFFECT: technical result is increased efficiency with least resistance of filter to air flow.

1 cl, 2 dwg

Description

The invention relates to the field of sorption technology, in particular to collective protective equipment that can be used to purify air from radioactive aerosols, molecular iodine vapors and its organic compounds, for example, in air ventilation systems at radiochemical plants, as well as in civil and Navy with nuclear reactors.

A known filter for gas purification, containing a sorption-filtering composite material based on polymer fibers and carbon. The sorption-filtering material is three-layered, with the middle layer made of ultrafine perchlorovinyl fibers containing particles of activated carbon treated with silver nitrate, or of activated carbon fibers treated with silver nitrate, and the outer layers are made of a mixture of perchlorovinyl glued together ultrathin fibers with a diameter 5-9 and 0.5-1.2 μm (RF, class B01D 39/16, A62B 23/02, pat. No. 2188695 from 11.23.2000).

A known filter for air purification from radioactive iodine containing a multilayer filter element, the filter contains a frontal layer of filtering element made of carbonized carbon fiber filter non-impregnated material with a surface density of at least 200 g / m ² , and the filter element contains layers made from a filtering sorbent material containing particles of a highly porous sorbent impregnated with potassium iodide, tertiary amine, nit a silver atom and / or barium iodide in an amount of not more than 10%, and the last layer of the filter element in the course of the cleaned air stream is made of fine fiber material (RF, class G21F 9/02, B01D 53/68, patent No. 2262758 from 24.11. 2003).

The disadvantages of the above filters are the use of sorption-filtering materials containing particles of crushed activated carbon and having a high surface density of carbon fiber material, which leads to increased filter resistance of the cleaned air stream and the release of radioactive dust.

Also known is a filter for cleaning gaseous media from aerosols, molecular iodine vapors and its compounds, comprising a housing equipped with means for entering and exiting a gaseous medium, in which sorption-filtering multilayer material in the form of two modules is placed, the first module comprising a layer made of highly porous fiberglass nonwoven material, a layer of fibrous activated carbon material and a layer of fibrous carbon impregnated material. The second module contains a layer of fine fiber glass paper or a layer of non-woven fibrous material obtained by electroforming from a solution of polyamide. Sorption-filtering material is laid in the filter housing with the formation of a corrugated structure, the layers in the first module are separated by separators in the form of a corrosion-resistant metal mesh, and at the inlet of the filter there is a removable insert containing a layer of non-woven fibrous polyester material with a fiber diameter of 10- 50 microns with a layer thickness of not more than 20 mm (RF, class B01J 20/28, B01D 39/00, US Pat. No. 2487745 dated 02.12.2011).

The disadvantages of the described filter is the bulkiness of its design, the complexity of the filter assembly process due to the large number of constituent units, a sufficiently large resistance of the multilayer sorption-filtering material.

The closest in technical essence and the achieved result is an aerosol sorbent filter for purifying air from radioactive aerosols and vapors of molecular iodine and its organic compounds, containing a housing in which a filter element is placed, made of a zigzag folded multilayer sorption-filtering material with separation separating between the folds separators, where all layers of coarse filter material, except the last along the stream of cleaned air , contain particles of finely ground highly porous sorbent with a diameter of 1-100 μm in an amount of 10-500 g / m ² and the last layer is made of a thin fiber material that does not contain sorbent, and the separators are made of corrugated aluminum sheet (RF, class B01D 39 / 16, G21F 9/02, Pat. No. 2192914 dated 12/27/2000). This filter is taken as a prototype of the claimed invention.

The disadvantages of this filter are dust emission due to the use of finely ground sorbent and fiberglass in it, especially under operating conditions at a high specific air flow rate (air volumetric velocity per unit filter surface), the open filter element is not exposed to possible mechanical damage, and the filter is used once.

The technical result from the use of the proposed filter is the lack of dust due to the use of a material that does not contain particles of crushed sorbent; in a significant extension of the filter life cycle and increasing its reliability due to the presence of a replaceable cartridge containing two filter elements protected by a cartridge housing; in increasing the cleaning efficiency at the lowest filter resistance of the cleaned air flow due to the selected composition of the sorption-filtering material.

The specified technical result is achieved by the proposed filter for purifying air from radioactive aerosols and vapors of molecular iodine and its organic compounds, the casing of which is equipped with a removable cartridge with two filter elements made of a zigzag folded three-layer sorption-filtering material with separation separators located between the folds, while the first a layer of material on the air course formed from thermally bonded nonwoven fabric with a surface weight of 28-30 g / m ² sec the second layer is made of fibrous non-woven activated carbon material impregnated with silver nitrate and 1,4 diazo-bicyclo (2.2.2) octane and having a static sorption activity for benzene vapors of 180-220 mg / g, and the third layer is made of filter paper having resistance to air flow 6-8 mm of water. Art., while the ratio of the height of the fold, the gap between the vertices of the adjacent folds and the total thickness of the material is (20 ÷ 25) :( 2.5 ÷ 3.0): 1.

The difference between the proposed filter and the prototype is that its housing is equipped with a removable cartridge with two filtering elements made of a three-layer material, in which the first layer along the air is made of thermally bonded non-woven fabric with a surface density of 28-30 g / m ² , the second layer made of fibrous non-woven activated carbon material impregnated with silver nitrate and 1,4 diazobicyclo (2.2.2) octane and having a static sorption activity for benzene vapor of 180-220 mg / g, and the third layer made of filter paper having resistance to air flow of 6-8 mm of water. Art., while the ratio of the height of the fold, the gap between the vertices of the adjacent folds and the total thickness of the material is (20 ÷ 25) :( 2.5 ÷ 3.0): 1.

From the scientific, technical and patent literature, the authors do not know a filter of this design.

In FIG. 1 shows the appearance of the filter, where the following items indicate:

1 - filter housing;

2 - replaceable cartridge;

3 - filter element;

4 - input diffuser;

5 - output diffuser.

In FIG. 2 shows the folds of a three-layer sorption-filtering material (1, 2, 3 - layers of material) with separation separators made of corrugated insulating cardboard (4) located between the folds

where A is the height of the fold;

B is the gap between the vertices of adjacent folds;

C is the total thickness of the material.

The filter works as follows: the cleaned air through the inlet diffuser (4) enters the cartridge (2), passes through the filter elements (3) and cleansed out through the diffuser (5).

Comparative analysis of the prototype has shown that the inventive filter is characterized in that the first layer is made of thermally bonded nonwoven web having a basis weight of 28-30 g / m ^2. An increase in density above 30 g / m ² leads to an increase in web resistance to the flow of cleaned air, and a decrease in density below 28 g / m ² affects the strength of the web, especially in terms of breaking load. The purpose of the first layer is to prevent the adhesion of the fibers of the middle layer, made of fibrous activated carbon material, to the separators and to ensure the free passage of the cleaned air, since the adhesion of the fibers entails an increase in resistance.

Another difference is that the second layer is made of fibrous non-woven activated carbon material impregnated with silver nitrate and 1,4 diazo-bicyclo (2.2.2) octane and having a static sorption activity of 180-220 mg / g for benzene vapor. Static activity above 220 mg / g or below 180 mg / g leads to a decrease in the sorption dynamic activity of the material in pairs of radioactive iodine and its organic compounds.

Another difference is that the third layer is made of filter paper, which has a resistance to air flow of 6-8 mm of water. Art. The use of filter paper with a resistance of more than 8 mm leads to an increase in filter resistance, and less than 6 mm to an increase in aerosol permeability coefficient (decrease in cleaning efficiency).

The specified composition of a three-layer material with a large specific air flow rate equal to 1 dm ³ / min · cm ² provides air purification from vapors of radioactive molecular iodine and methyl iodide with an efficiency of 99.99%, from an aerosol of fine oil fog (simulating a radioactive aerosol) with a particle diameter of 0.15 μm and a concentration of 1250 mg / dm ³ - 99.98%. Moreover, the material resistance is 902 Pa.

Unlike the prototype, two filter elements are located in a replaceable cartridge, which is placed in the filter housing, and each filter element is made of a three-layer sorption-filter material, laid in the cartridge case with the formation of a zigzag structure, with the ratio of the height of the fold (A), the gap between the vertices of adjacent folds (B) and the total thickness of the material (C) is (20 ÷ 25) :( 2.5 ÷ 3.0): 1, and the separators are made of corrugated insulating cardboard (see Fig. 2).

The presence of two filter elements increases the working surface of the sorption-filtering material, increases the reliability of the filter. As a result, the resistance to air flow decreases and the cleaning efficiency increases.

The ratio of the height of the folds, the gap between the vertices of adjacent folds and the total thickness of the material is selected on the basis of numerous tests and, as practice has shown, is optimal, which makes it possible to place the maximum surface of the sorption-filtering material in the unit volume of the filter cartridge with less resistance to air flow and increase cleaning efficiency.

When this ratio changes, in terms of increasing the gap between the vertices of adjacent folds, the filtering surface decreases, which leads to an increase in resistance and a decrease in cleaning efficiency. When reducing the claimed ratio, a number of technological problems arise and the wrinkles stick together, which also increases the resistance to air flow.

Thus, the proposed aerosol sorbent filter for purifying air from radioactive aerosols and vapors of molecular iodine and its organic compounds is characterized by increased efficiency with insignificant resistance of the filter to the flow of purified air, especially at its high specific speeds, increased life cycle, reliability and lack of dust emission.

From the foregoing, it follows that each of the features of the claimed combination to a greater or lesser extent affects the solution of the problem, and the entire population is sufficient to characterize the claimed technical solution.

Claims (1)

An aerosol sorption filter for cleaning air from radioactive aerosols and vapors of molecular iodine and its organic compounds, comprising a housing in which a filter element is made of a zigzag folded multilayer sorption-filtering material with separation separators located between the folds, characterized in that the filter housing is provided interchangeable cartridge with two filter elements made of a three-layer material, in which the first layer along the air is made of heat-bonded nonwoven fabric with a surface density of 28-30 g / m ² , the second layer is made of fibrous non-woven activated carbon material impregnated with silver nitrate and 1,4 diazo-bicyclo (2.2.2) octane and having a static sorption activity of 180- benzene 220 mg / g, and the third is made of filter cardboard having a resistance to air flow of 6-8 mm of water. Art., while the ratio of the height of the fold, the gap between the vertices of the adjacent folds and the total thickness of the material is (20 ÷ 25) :( 2.5 ÷ 3.0): 1.

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