RU2464084C2 - Adsorbent for compound filter, compound filter (versions) and gas and smoke protective set based thereon - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to respiratory protective equipment for protecting a person from chemical substances. The adsorbent for a compound filter contains activated carbon, lithium chloride, calcium chloride, calcium oxychloride, as well as chlorides, carbonates, oxides and hydroxides of potassium and/or sodium. Said ingredients are deposited on activated carbon obtained from nut shells and/or fruit seeds. The ingredients are in the following ratio (wt %): potassium chlorides and oxychlorides with respect to potassium chloride 8-11; lithium chloride 9-12; chlorides, carbonates, oxides and hydroxides of potassium and/or sodium with respect to metal 0.6-3.1; activated carbon from nut shells and/or fruit seeds - the balance. The disclosed adsorbent is used as a first layer of the charge of a compound filter which contains hopcalite in the second layer. The housing of the compound filter is further equipped with an anti-dust plug and a connecting element in form of a neck or a top swage. Also disclosed are gas and smoke protective sets fitted with a compound filter having a layer of adsorbent of the composition given above and a layer of hopcalite.

EFFECT: invention provides effective complex protection of respiratory organs from carbon monoxide, ammonia, organic substances and dust.

7 cl, 5 dwg, 4 tbl

Description

The invention relates to personal respiratory protection (PPE) of a person from hazardous chemicals (OXV), namely the production of filtering devices and carbon-based adsorbents used in these filtering devices, in particular combined filters for evacuation protective equipment, in particular filtering self-rescuers (gas smoke protection kits) designed to protect people during evacuation during a fire and / or other emergency situations.

Known adsorbent for means of sorption technology based on activated carbon according to patent RU No. 2333790, class. B01J 20/00, (publ. September 20, 2008), including with a micropore volume of 0.45-0.70 cm ³ / g, containing nickel chlorides and oxychlorides in terms of nickel chloride in an amount of 16-26 wt.%, chlorides, carbonates, hydroxides of alkali metals in terms of metal in an amount of 0.6-3.1 wt.%.

Known adsorbent has the ability to absorb ammonia with a high protective action time (HZD) and increased sorption ability for organic substances.

The disadvantage of this adsorbent is the insufficient absorption capacity for water vapor, as a result of which the hopcalite layer in the combined filter of the self-rescuer filter is quickly moistened and does not withstand the requirements for carbon monoxide CDM.

Known adsorbent obtained by the method described in patent RU No. 2228792 C1, class. B01J 20/20, (publ. 05/20/2004), including the impregnation of activated carbon with a solution of calcium chloride and heat treatment, to a content of 16-25 wt.% Calcium chloride.

The known method allows to obtain an adsorbent with a higher absorption capacity for water vapor and a sufficiently high IDR for ammonia.

The disadvantages of this adsorbent are:

- low protective properties for vapors of organic substances;

- insufficient absorption capacity for water vapor when using a gas smoke protection kit in a combined filter together with hopcalite with reduced dynamic activity of carbon monoxide (less than 38 min);

- insufficient absorption capacity for water vapor when using a gas smoke protection kit in a combined filter together with a reduced amount of hopcalite.

The closest in technical essence and the proposed adsorbent is a desiccant based on activated carbon SKT (68-72%) according to patent SU No. 406552, class. B01D 15/06 (publ. 05.03.1971), containing calcium chloride in an amount of 18-20 wt.% And lithium chloride in an amount of 10-12 wt.%, Activated carbon SKT (68-72%). A desiccant is obtained by impregnating SKT activated carbon with excesses of a mixture of calcium and lithium chloride solutions, followed by circulation, removing the excess solution mixture and heat treatment at elevated temperature. The resulting desiccant has a sufficiently high ability to absorb water vapor and ammonia.

The disadvantages of the desiccant are:

- low abrasion resistance of the basis of the desiccant - activated carbon SKT, up to 66% [AOOT EKhMZ, NPO Inorganika. Active carbons. Elastic sorbents. Catalysts. Dehumidifiers. Chemical absorbers. Catalog. Cherkasy, 1996, p.9], which makes it difficult to equip the filters, since the sealed dehumidifier on this basis, when equipped in the filter, is crushed and crumbling, as a result of which the filter's resistance to incoming air is increased, the charge from the filter releases dust, including into organs human breathing, while the compaction of the charge becomes an unstable and unreliable element of protection in RPE;

- insufficient degree of manufacturability of the process of obtaining a desiccant, associated with the need to use additional equipment to prepare a mixture of solutions, so that the impregnation of coal with an excess of solution is complex, economically inefficient and leads to blocking of the base pores, and the high heat treatment temperature makes this stage of production fire hazardous;

- low VZD for vapors of organic substances associated with the blocking of pores with a high content of calcium chloride, a feature of the carbon base from SKT active carbon peat and the absence of ingredients in the dehumidifier that block access to micropores and ensure hydrophilicity of the inner surface of activated carbon.

Known filter-absorbing cartridge personal protective equipment according to patent DE No. 3921603 A1 (publ. 10.01.1991), consisting of sequentially located along the inhaled air anti-aerosol filter and a mixture of hopcalite.

This filtering and absorbing cartridge has a high carbon monoxide IDR. The disadvantage of a filter-absorbing cartridge is that the mixture contains only hopcalite, which does not allow for the purification of air from organic substances.

Known filter-absorbing cartridge for personal protective equipment according to patent RU No. 2159646 (publ. 11/27/2000), consisting of a counter aerosol filter and a charge arranged in series along the inhaled air, made in the form of hopcalite and catalyst arranged in series along the air flow with a ratio of layer lengths 1.0: (0.25-0.50) respectively.

The disadvantages of this filter-absorbing cartridge are:

- low CDW on carbon monoxide, due to the fact that hopcalite is in the charge first along the inhaled air, respectively, the air is not pre-dried and the hopcalite is poisoned by water vapor;

- low degree of compliance with the requirements of the new GOST R 53261-2009 “Fire fighting equipment. Filtering self-rescuers to protect people from toxic combustion products during evacuation from smoke-filled rooms during a fire. General technical requirements. Test Methods ”on CDR for carbon monoxide using hopcalite with reduced dynamic activity of carbon monoxide (less than 38 min);

- the charge of the cartridge does not fully possess protective power for the substances listed in GOST R 22.9.09-2005 “Safety in emergency situations. Personal protective equipment in emergency situations. Filtering self-rescuers. General technical requirements ”, in particular for cyclohexane, ammonia and carbon monoxide.

The closest in technical essence to the proposed combined filter is a filter-absorbing box of a gas smoke protection kit according to patent RU No. 2206351 (publ. 06/20/2003), consisting of a housing, a bottom with a filter and separated layers of a carbon-based desiccant-desiccant with additives of calcium chloride and hopcalite with a volume ratio of 1.0: (1.3-1.8), respectively

The disadvantages of the filter-absorbing box are:

- a low degree of compliance with the requirements of the new GOST R 53261-2009 for HPC on carbon monoxide when using hopcalite with reduced dynamic activity on carbon monoxide (less than 38 min);

- the charge of the box does not fully possess protective power for the substances listed in GOST R 22.9.09-2005, in particular for cyclohexane and carbon monoxide;

- the probability of penetration of dust from the mixture into the human respiratory system through the openings of the upper mesh;

- the housing does not contain a convenient connecting element for connection to the elements of the gas smoke protection kit.

The filtering self-rescuer is known - the gas and smoke protection kit universal GDZK-U, information about which is placed in the Personal Protective Equipment catalog 2010, page 21 (Sorbent group of companies, Sorbent Center Implementation CJSC), containing a hood with an observation window , headband, half mask, filter device, shutter, sealed vacuum packaging, bag for carrying and storing and exhalation valve.

The disadvantages of the filter self-rescuer - gas and smoke protection kit of the universal GDZK-U are largely due to the disadvantages of the filter-absorbing box included in its composition:

- a low degree of compliance with the requirements of the new GOST R 53261-2009 for HPC on carbon monoxide when using hopcalite with reduced dynamic activity on carbon monoxide (less than 38 min);

- the charge of the box does not fully possess protective power for the substances listed in GOST R 22.9.09-2005, in particular for cyclohexane and carbon monoxide;

- the probability of penetration of dust from the mixture into the human respiratory system through the openings of the upper mesh;

- the filtering-absorbing box does not contain a convenient connecting element for connection to self-rescuer elements.

The disadvantages of the self-rescuer include fogging the viewing window when using the self-rescuer at temperatures below 0 °.

The authors, when developing a reliable and easy to use, including when using at a temperature below 0 ° С, gas smoke protection kit for protecting people during evacuation during a fire and / or other emergency situations, were faced with the task:

- to develop an adsorbent that is technologically advanced in manufacturing for a combined filter with high strength properties and a low content of ingredients, having sufficiently high protective properties for vapors of organic substances, ammonia and an absorbing capacity for water vapors, allowing it to be used in a combined filter of a gas smoke protection kit with a reduced amount of hopcalite or hopcalite with reduced dynamic activity of carbon monoxide (less than 38 min);

- to develop a combined filter with a high CDM of carbon monoxide; meeting the requirements of the new GOST R 53261-2009 when using hopcalite with reduced dynamic activity of carbon monoxide (less than 38 min); fully possessing universal protection against carbon monoxide, vapors of organic substances and ammonia in accordance with GOST R 22.9.09-2005; having a sufficiently convenient connecting element in the housing for connection to the elements of the gas smoke protection kit; excluding the probability of dust from the mixture entering the human respiratory organs through the openings of the upper mesh.

- to develop a gas and smoke protection kit with long-term universal protection against carbon monoxide, vapors of organic substances and ammonia, designed to protect people during evacuation during a fire and / or other emergency situations.

The problem is solved by the described adsorbent for the combined filter containing activated carbon, lithium and calcium chlorides, additionally containing calcium oxychloride, chlorides, carbonates, oxides and hydroxides of potassium and / or sodium, with the ingredients deposited on activated carbon from walnut shells and / or fruit seeds in the following ratio of components, wt.%:

Chlorides and calcium oxychlorides in terms of calcium chloride 8-11;

Lithium chloride 9-12;

Chlorides, carbonates, oxides and hydroxides of potassium and / or sodium in terms of metal 0.6-3.1;

Active charcoal from the shell of a nut and / or fruit kernel is the rest.

The problem is solved by the described design of the combined filter according to the first embodiment, comprising a housing, a bottom, a two-layer charge, consisting of the first layer along the inhaled air - an adsorbent on a carbon basis with calcium chloride and the second layer - hopcalite, taken in a volume ratio of 1.0 :( 1.3-1.8), respectively, grids for securing and separating the charge, an aerosol filter, and additionally containing an anti-dust swab installed last along the inhaled air, and the housing has a connecting el the element is an external smooth or threaded neck, or the connecting element of the housing is made in the form of an upper ridge located last along the inhaled air, and the first layer of the charge is made of the proposed adsorbent.

The problem is solved by the described design of the combined filter according to the second embodiment, comprising a housing, a bottom, a two-layer charge, consisting of the first layer along the inhaled air - an adsorbent on a carbon basis with calcium chloride and the second layer - hopcalite, a grid for fixing and separating the charge, aerosol filter , additionally containing a dust swab, installed last along the inhaled air, and the housing has a connecting element - an external smooth or threaded neck, or dinitelny housing element is a top ridge, arranged last in the course of inhaled air and the first and second layers of the charge are taken in a volume ratio of 1.0: (0.6-0.8), respectively, wherein the first layer is made of the proposed charge adsorbent.

The problem is solved by creating a gas and smoke protection kit containing a single assembly, including an insulating heat-resistant hood with a viewing window, a headband, a half mask, an exhalation valve, an elastic stretch neck obturator, a filter device placed in a sealed vacuum packaging, and a bag, and the filter device is made in the form combined filter according to the first or second embodiment.

In the particular case of execution, the gas and smoke protection kit may contain a lubricant layer for anti-fogging, located on the inside of the inspection window.

The difference of the invention lies in the fact that:

- the adsorbent for the combined filter contains calcium chlorides and oxychlorides in an amount of 8-11 wt.% in terms of calcium chloride;

- lithium chloride 9-12 wt.%,

- the adsorbent for the combined filter additionally contains chlorides, carbonates, oxides and hydroxides of potassium and / or sodium in an amount of 0.6-3.1 wt.% in terms of metal;

- as the basis of the adsorbent for the combined filter using activated carbon from the shell of a nut and / or fruit kernel;

- in the combined filter, the first charge layer is an adsorbent based on activated carbon from the shell of a nut and / or fruit kernel, additionally contains calcium oxychloride, lithium chloride, chlorides, carbonates, oxides and hydroxides of potassium and / or sodium in the following ratio of components, wt. %:

calcium chlorides and oxychlorides in terms of calcium chloride 8-11 lithium chloride 9-12 chlorides, carbonates, oxides and hydroxides of potassium and / or sodium in terms of metal 0.6-3.1 activated charcoal from walnut shells and / or fruit seed rest;

- in the combined filter, the first and second layers of the mixture are taken in a volume ratio of 1.0: (0.6-0.8), respectively;

- in the combined filter the last along the inhaled air is installed an anti-dust swab;

- the housing of the combined filter has a connecting element - an outer smooth or threaded neck;

- the connecting element of the housing of the combined filter is made in the form of an upper ridge located last along the inhaled air;

- gas smoke protection kit contains a filtering device made in the form of the proposed combined filter (first and second options);

- the gas and smoke protection kit additionally contains a grease layer for anti-fogging, located on the viewing window from the inside of the hood.

Activated carbon in the proposed adsorbent for the combined filter performs the function of adsorption of vapors of organic substances.

The choice of walnut shell (walnut, coconut, etc.) and / or fruit kernel (peach, apricot, plum, etc.) as the base of activated carbon is due to the fact that the activated carbon obtained from it is highly durable and has a developed porous a structure that allows both the introduction of the required amount of ingredients into coal and the sorption of vapors of organic substances with high dynamic activity. In addition, activated charcoal from walnut shells and / or fruit kernels has a higher oxygen content compared, for example, to active carbon SKT from peat, as a result of which oxygen-containing functional groups on the surface of activated charcoal from walnut shells and / or fruit kernels cause a large amount primary adsorption centers, which contributes to a more uniform distribution of the ingredients on the surface of the coal and, consequently, an increase in the activity of the adsorbent for substances entering into the ingredient Tammy chemical reaction.

Calcium and lithium chlorides in the proposed adsorbent for the combined filter provide effective absorption of water vapor by binding water in crystalline form during the drying of the gas-air mixture in front of the hopcalite charge layer in the combined filter.

Calcium oxychloride together with calcium chloride in the proposed adsorbent for the combined filter provide effective absorption of ammonia vapors and prevent the formation of insoluble calcium compounds, which can block access to micropores.

Chlorides, carbonates, oxides and hydroxides of potassium and / or sodium in the proposed adsorbent for the combined filter provide hydrophilicity of the inner surface of the activated carbon and the efficient operation of the adsorbent for ammonia vapor in high humidity conditions.

The proposed adsorbent for the combined filter is prepared as follows. Alkaline compounds of potassium and / or sodium are included in the adsorbent either at the stage of production of activated carbon, for example, as activating agents in the chemical activation of coal, or by impregnation of activated carbon with a solution of carbonate and / or potassium hydroxide and / or sodium, or at the stage of activation and impregnation. In addition, the shell of nuts or fruit seeds, such as coconut, may initially contain a certain number of compounds (carbonates, oxides, hydroxides) of alkali metals.

In the case of chemical activation of coal, the crushed shell of a nut and / or fruit bone is impregnated with a solution of carbonate and / or potassium and / or sodium hydroxide to their content in the shell of 0.1-5.0 wt.%. After impregnation and carbonization at a temperature of 400-500 ° C, potassium and / or sodium, apparently, penetrates between the planes of the carbon crystal lattice and increases the distance between the planes of the carbon crystal lattice. The carbon layers in this case become available for further combined cycle activation. Gas-vapor activation is carried out at a temperature of 700-900 ° C. After the vapor-gas activation of the semi-finished product, the oxide form of potassium and / or sodium compounds appears. Activated charcoal containing potassium and / or sodium compounds of less than 0.6 wt.% In terms of metal is impregnated with a solution of potassium carbonate and / or potassium hydroxide and / or sodium. Activated charcoal from the nutshell and / or fruit kernel, obtained only by gas-vapor activation or chemical activation by other activating agents (phosphoric acid, potassium sulfide) with further gas-vapor activation and washing of the activating agents, followed by heat treatment at a temperature of 500-600 ° С, is also impregnated with a solution potassium carbonate and / or potassium and / or sodium hydroxide. The ratio of activated carbon by weight in kg and impregnating solution by volume in dm ³ take 1: (0.4-0.8), respectively. After impregnation, the coal is aged and subjected to heat treatment at temperatures above 100 ° C to the desired moisture content.

The content of carbonate (s), hydroxide (s) and metal oxide (s) is in the proposed adsorbent at the same level (30-28%), while the content of metal chloride (s) ( s) does not exceed (10-16%) of all metal compounds (s). In terms of metal, in the case of only potassium compounds, the proposed adsorbent contains the following ratio:

- potassium chloride - from (0.04-0.07) wt.% to (0.23-0.37) wt.%;

- potassium carbonate - from (0.15-0.14) wt.% to (0.77-0.74) wt.%;

- potassium hydroxide - from (0.19-0.18) wt.% to (0.96-0.93) wt.%;

- potassium oxide - from (0.22-0.21) wt.% to (1.14-1.07) wt.%.

In terms of metal, in the case of only sodium compounds, the proposed adsorbent contains the following ratio:

- sodium chloride - from (0.04-0.07) wt.% to (0.22-0.34) wt.%;

- sodium carbonate - from (0.14-0.13) wt.% to (0.72-0.68) wt.%;

- sodium hydroxide - from (0.17-0.16) wt.% to (0.94-0.90) wt.%;

- sodium oxide - from (0.24-0.23) wt.% to (1.22-1.18) wt.%.

Chlorides and calcium oxychlorides, lithium chloride are applied to activated carbon containing carbonates, oxides and hydroxides of potassium and / or sodium by impregnating coal with an aqueous solution of calcium and lithium salts, followed by aging and heat treatment at a temperature above 100 ° C to a moisture content of not more than 1, 0 wt.%. As a result of impregnation in coal, potassium and / or sodium chlorides are also formed. The ratio of activated carbon and impregnation solution is taken based on the value of the total pore volume and the impregnation coefficient of 0.7-1.0.

According to our estimates, the amount of calcium oxychlorides in the proposed adsorbent does not exceed (10-12) wt.% Of calcium compounds. In terms of calcium chloride, the optimal amount of calcium oxychlorides in the proposed adsorbent (0.70-1.15) wt.%.

Data on the absorption capacity of the proposed adsorbent for the combined filter, as well as its prototype and analogues are presented in table 1.

The results presented in table 1 show that:

1) The proposed adsorbent for the combined filter in comparison with the first analogue has a high dynamic activity on benzene and carbon monoxide when tested with hopcalite, and therefore, water vapor; in comparison with the second analogue and prototype - increased dynamic activity in benzene, carbon monoxide when tested with hopcalite and ammonia.

2) The proposed adsorbent for the combined filter in comparison with the prototype has higher strength properties.

3) The decrease in the content of lithium chloride in the proposed adsorbent for the combined filter of less than 9.0 wt.% Leads to a decrease in the absorption capacity of the adsorbent for water vapor below the level of the prototype.

4) The decrease in the content of chloride and calcium oxychloride in the proposed adsorbent for a combined filter of less than 8.0 wt.% In terms of calcium chloride leads to a decrease in the dynamic activity of the adsorbent in ammonia to the level of analogue and prototype.

5) The increase in the content of chloride and calcium oxychloride more than 11.0 wt.% In terms of calcium chloride and lithium chloride more than 12.0 wt.% In the proposed adsorbent for the combined filter leads to a decrease in the dynamic activity of the adsorbent for benzene to the level of the prototype, salting out additives on the surface of the adsorbent particles, the adsorbent coalesces, forming lumps.

6) Use as a basis for the proposed adsorbent for a combined filter of activated carbon from coconut shell and / or apricot kernel is equally acceptable and leads to an increase in the dynamic activity of the adsorbent.

7) The use of alkali metal in the proposed adsorbent for the combined filter of potassium and / or sodium is equally acceptable and increases the dynamic activity of the adsorbent for benzene.

8) Calcium oxychloride together with calcium chloride in the proposed adsorbent for a combined filter leads to an increase in the dynamic activity of the adsorbent for ammonia, participates in the absorption of water vapor and contributes to a better absorption of benzene vapor.

The proposed combined filter based on the proposed adsorbent is shown in the drawings.

Figure 1 presents the proposed combined filter, which consists of a housing 1 with an external smooth or threaded neck 2, bottom 3, anti-aerosol filter 4, grids for securing the charge 5, separation grid 6, dust pad 7, layers of charge 8 (hopcalite) and 9 (proposed adsorbent).

Figure 2 presents the proposed combined filter, which consists of a housing 1 with an upper zig 2, a bottom 3, an aerosol filter 4, grids for securing the charge 5, a separation grid 6, an anti-dust swab 7, layers of the charge 8 (hopcalite) and 9 (proposed adsorbent).

Figure 3 presents the proposed combined filter assembly with a cuff.

Figure 4 presents a gas smoke protection kit based on the proposed combined filter.

The proposed combination filter operates as follows.

When inhaling, air through the opening of the bottom 2 (figure 1) or the opening of the bottom 3 (figure 2) enters the inside of the combined filter. After passing through the aerosol filter 4 and the layers of the charge 9 and 8, fixed in the housing 1 by grids 5 and separated by a grid 6, as well as through an anti-dust swab 7, the air is also cleaned through an external smooth or threaded neck 2 of the housing 1 (Fig. 1) or openings in the upper part of the housing 1 (Fig.2) enters the under-mask space of the gas smoke protection kit and is used for breathing. The upper zig 2 of the housing 1 (figure 2) fixes and secures in the housing 1 one of the nets 5 and the dust plug 7.

The layer of the proposed adsorbent in the combined filter provides effective absorption of water vapor, organic vapor and ammonia.

The hopcalite layer in the proposed combination filter provides protection against carbon monoxide and, to a lesser extent, ammonia.

Dust swab in the proposed combined filter is necessary to prevent the penetration of dust from the mixture into the respiratory system through the openings of the upper mesh.

The outer smooth neck of the housing of the proposed combined filter (Fig. 1) is a convenient connecting element to the elements of the gas smoke protection kit, for example, a half mask, due to its smaller diameter compared to the housing and connected, for example, using a clamp.

The external threaded neck of the housing of the proposed combined filter (Fig. 1) is a convenient connecting element to the elements of the gas smoke protection kit, for example a half mask, due to the smaller diameter and the presence of threads and is connected, for example, by means of a clamp or screwing it into a nut or cover.

The upper zig of the housing of the proposed combined filter is a convenient connecting element to the element of the gas protection kit - a plastic cuff (Fig. 3), worn on the upper zig of the housing.

The use of a two-layer mixture with the proposed layers determines the versatility of protection of the proposed combined filter. Moreover, the charge layers do not interfere with each other to absorb the corresponding substances.

The proposed gas smoke protection kit based on the inventive combined filter is shown in the drawing (figure 4). The proposed gas smoke protection kit consists of an insulating heat-resistant hood 8 with a viewing window 9; headband 10; half masks 11; expiratory valve 12; elastic stretching cervical obturator 13: fixed in the lower part of the hood 8; combined filter 14; sealed vacuum packaging 15 for long-term storage of a single assembly of the hood 8 with an inspection window 9, headband 10, half mask 11, exhalation valve 12, obturator 13, a combined filter 14, bag 16 for carrying and storage of a sealed vacuum packaging 15 of a single assembly.

In the proposed gas and smoke protection kit, designed for operation at a temperature below 0 ° C, on the viewing window 9, a layer of grease 16 is applied on the inside of the hood 8 for fogging, which is applied during the manufacture of the product.

The proposed gas smoke protection kit operates as follows.

Open the bag for carrying and storing 16, remove the sealed vacuum packaging 15, from which by opening with a gap a single assembly (pos. 8-14) of the working part of the gas smoke protection kit is removed. The hood 8 is straightened and put on the head through the opening of the cervical obturator 13 by stretching it, combining the viewing window 9 opposite the eyes and the half mask 11 with the nose and chin. By tightening the headband 10 with the straps, the gas smoke protection kit is hermetically fixed to the person’s head. Through the proposed combined filter, 14 people, evacuating, inhales the purified air, and through the exhalation valve 12, it is exhaled.

The combined filter in the proposed smoke protection kit provides effective absorption of carbon monoxide, vapors of organic substances, ammonia and aerosols.

The anti-fogging lubricant layer (ШН-1 manufactured by OJSC KAZKhimNII, klar-pilot manufactured by PILOT GMBH CHEMIE-TECHNIK) in the proposed gas protection kit prevents fogging of the inside of the inspection window at temperatures below 0 ° C and thereby preserves human visibility when it is evacuation in a gas smoke protection kit.

The data on the VZD of the proposed combined filter according to the first and second options based on the proposed adsorbent, its prototype and analogue, as well as the absorption capacity of the analogue and prototype of the proposed adsorbent in the combined filter according to the first and second options are presented in tables 2 and 3, respectively. The charge volume of the filtering devices is 330 cm ³ , the ratio of adsorbent to hopcalite in the charge is 1.0: 1.54.

The results presented in table 2 show that when using hopcalite with reduced dynamic activity of carbon monoxide (less than 38 min):

1) The proposed combination filter according to the first embodiment, based on the proposed adsorbent, compares with the requirements of GOST R 22.9.09-2005 for the carbon monoxide DZD in accordance with GOST R 22.9.09-2005, protects against cyclohexane and has a higher ammonia RR; in comparison with the second analogue, it complies with the requirements of GOST R 53261-2009 and GOST R 22.9.09-2005; Compared with the prototype, it has a higher CDW of carbon monoxide and meets the requirements of GOST R 22.9.09-2005.

2) The proposed adsorbent in the composition of the proposed combined filter according to the first embodiment, in comparison with the analogue, has a higher absorption capacity for carbon monoxide, compared with the prototype - a higher absorption capacity for cyclohexane.

The results presented in table 3 show that when using a reduced amount of hopcalite:

1) The proposed combination filter according to the second embodiment, based on the proposed adsorbent, in comparison with the first analogue protects against cyclohexane; Compared with the second analogue and prototype, it meets the requirements of GOST R 22.9.09-2005.

2) The proposed adsorbent in the composition of the combined filter according to the second embodiment, in comparison with the analogue, has a higher absorption capacity for carbon monoxide; in comparison with the prototype with the content of alkali metal compounds and without them, it has a higher absorption capacity for cyclohexane, higher strength properties, a lower degree of grinding and dust emission during equipment and unloading and, accordingly, is acceptable for equipment of the proposed combined filter according to the first and second options .

3) Alkali metal compounds (chlorides, carbonates, oxides and hydroxides) increase the absorption capacity of the adsorbent in the composition of the proposed combined filter according to the second option for cyclohexane.

4) Using as the basis for the proposed adsorbent for a combined filter of activated carbon SKT does not lead to compliance of the proposed combined filter according to the second option with the requirements of GOST R 22.9.09-2005.

5) The use of the proposed adsorbent for the combined filter according to the second embodiment of activated carbon from coconut shells and / or apricot kernels is equally acceptable and leads to the compliance of the proposed combined filter according to the second embodiment with the requirements of GOST R 22.9.09-2005.

Data on the selection of the ratio of the layers of the charge of the proposed combined filter according to the second embodiment are shown in table 4.

The data presented in table 4 show that the optimal ratio of the layers of the charge in the proposed combined filter according to the second option 1: (0.6-0.8), respectively.

A decrease in the amount of hopcalite of less than 0.6 or an increase of more than 0.8 leads to a significant decrease in the VZD of the proposed combined filter according to the second embodiment according to one of the substances and the non-compliance with the requirements of GOST R 22.9.09-2005.

The proposed gas and smoke protection kit with a grease layer for anti-fogging after climatic tests that simulate accelerated aging for a period of 5 years have been successfully operational tested in the Ural Research Institute of Continuous Media (Perm) under conditions close to extreme at a temperature drop of 0, -20 ° C and -40 ° C. Visibility in the proposed gas smoke protection kit has been preserved.

The proposed adsorbent for the combined filter is technologically advanced in manufacture; possesses high strength properties and the lowest possible content of ingredients; possesses sufficiently high protective properties for vapors of organic substances, ammonia and absorption capacity for vapors of water; allows you to use it in a combined gas smoke filter with a reduced amount of hopcalite or hopcalite with reduced dynamic activity of carbon monoxide (less than 38 min).

The proposed combination filter has an increased CDM of carbon monoxide; meets the requirements of the new GOST R 53261-2009 when using hopcalite with reduced dynamic activity of carbon monoxide (less than 38 min); fully possesses universal protection against carbon monoxide, cyclohexane and ammonia in accordance with GOST R 22.9.09-2005; has an assortment of convenient enough connecting elements in the housing for connecting to the elements of a gas smoke protection kit; eliminates the possibility of dust from the mixture entering the human respiratory system through the openings of the upper mesh.

The proposed gas and smoke protection kit based on the inventive combined filter is a reliable and convenient means of protecting people during evacuation during a fire and / or other emergency events, including when used at temperatures below 0 ° C, has long-term and universal protection against carbon monoxide, organic vapors substances and ammonia.

Experimental batches of adsorbent for a combined filter have been manufactured and successfully tested in laboratory conditions. The combined filter equipped with the proposed adsorbent and the gas smoke protection kit based on the proposed combined filter have been successfully tested in the test centers of the Ministry of Emergency Situations: OJSC "Inorganic" (Elektrostal, Moscow Region) and FGU 33 SRIIII MO RF (Volsk-18, Saratov Region) .

After impregnation, the additive is salted out on the surface of the adsorbent, the adsorbent is caking, forming lumps.

table 2 Name of the filtering device, adsorbent Data on compliance with the requirements of GOST R 53261-2009 on the VZD on carbon monoxide at an input concentration of 4.375 g / m ³ and a norm of at least 15 min Data on compliance with the requirements of GOST R 22.9.09-2005 at the VZD at a rate of at least 20 minutes at the input concentration Carbon Monoxide 3.1 g / m ³ Ammonia 0.6 g / m ³ Cyclohexane 1.0 g / m ³ The filtering and absorbing cartridge according to the patent DE No. 3921603 A1 ANALOGUE fifteen 10 25 Does not protect The filtering and absorbing cartridge according to the patent RU No. 2159646 ANALOGUE 10 7 eleven 12 The filtering and absorbing box RU No. 2206351 PROTOTYPE eighteen fifteen 58 10 The proposed combined filter, (first option), equipped with ANALOGUE according to patent RU No. 2333790 of the proposed adsorbent fourteen 9 80 44 The proposed combined filter, (first option), equipped with a prototype according to SU No. 406552 of the proposed adsorbent 44 thirty fifty eighteen The proposed combined filter (first option) with a layer of the proposed adsorbent 45 33 52 thirty Note: 1. Table 2 gives the average values from the results of six tests under identical conditions. 2. The conditions for the tests on CDW on carbon monoxide: output concentration of 160 ppm, volumetric flow rate of variable gas-air flow (30 ± 0.75) dm ³ / min, relative humidity (90 ± 5)%, air temperature (20 ± 3) ° C. 3. Test conditions for VZD on ammonia: according to GOST 12.4.159-90 "SSBT. SIZOD filtering. Methods for determining the time of the protective effect of filtering and absorbing boxes on gaseous harmful substances ”at a volumetric flow rate of a constant vapor-air stream (30 ± 0.75) dm ³ / min, relative humidity (70 ± 5)%, air temperature (20 ± 5) ° C. 4. Test conditions for CDW on cyclohexane: output concentration of 10 ppm, volumetric flow rate of constant gas-air flow (30 ± 0.75) dm ³ / min, air temperature (20 ± 1) ° C. 5. The dynamic activity of hopcalite on carbon monoxide 30 minutes 6. The composition of the proposed adsorbent for the combined filter: calcium chlorides and oxychlorides in an amount of 10.4 wt.% In terms of calcium chloride, lithium chloride in an amount of 11.8 wt.%, Chlorides, carbonates, oxides and hydroxides of potassium in an amount of 2, 1 wt.%, Activated carbon from the coconut shell rest.

Table 3 Combined filter (second option) name of the adsorbent layer The time of the protective action of the test substance, min, at the input concentration and norm according to GOST R 22.9.09-2005 Mechanical properties of the adsorbent layer according to GOST 16188-70 “Sorbents. Method for determining abrasion resistance. " Note Carbon monoxide at 0.7 g / m ³ and normal - at least 20 minutes Cyclohexane at 1.0 g / m ³ and normal - at least 20 minutes The proposed combined filter with a layer of ANALOGUE according to patent RU No. 2333790 5 thirty Abrasion resistance 90%. Hopcalite volume 60 cm ³ When the filter is discharged, the layers practically do not contain dust. The volume of the analogue 90 cm ³ The charge volume of 150 cm ³ The proposed combined filter with a layer of PROTOTYPE according to SU No. 406552 27 9 Abrasion resistance 67%. Hopcalite volume 60 cm ³ When the filter is discharged, the layers have a high dust content (> 0.5 wt.%). The volume of the prototype 90 cm ³ The charge volume of 150 cm ³ The proposed combined filter with a layer of PROTOTYPE, additionally containing calcium oxychloride, chlorides, carbonates, oxides and hydroxides of potassium 27 fifteen Abrasion resistance 67%. Hopcalite volume 60 cm ³ When the filter is discharged, the layers have a high dust content (> 0.5 wt.%). The volume of the prototype 90 cm ³ The charge volume of 150 cm ³ The proposed combined filter with a layer of the proposed adsorbent, but based on activated carbon SKT. 23 16 Abrasion resistance 66%. Hopcalite volume 60 cm ³ When the filter is discharged, the layers have a high dust content (> 0.5 wt.%). The volume of adsorbent 90 cm ³ The charge volume of 150 cm ³ Analogue according to DE No. 3921603 F1 33 Does not protect - The charge volume of 150 cm ³ Analogue according to RU No. 2159646 10 2 Abrasion resistance 80%. When the filter is discharged, the layers contain dust <0.5 wt.%. The charge volume of 150 cm ³ Prototype according to RU No. 2206351 twenty 2 Abrasion resistance is 77%. When the filter is discharged, the layers contain dust <0.5 wt.%. The charge volume of 150 cm ³ The proposed combined filter with a layer of the proposed adsorbent thirty 24 Abrasion resistance 97%. Hopcalite volume 60 cm ³ When the filter is discharged, the layers practically do not contain dust. The volume of adsorbent 90 cm ³ The charge volume of 150 cm ^{3 the} basis of the adsorbent is activated carbon from coconut shell. The proposed combined filter with a layer of the proposed adsorbent 25 28 Abrasion resistance 90%. Hopcalite volume 60 cm ³ When the filter is discharged, the layers practically do not contain dust. The volume of adsorbent 90 cm ³ The charge volume of 150 cm ^{3 the} basis of the adsorbent is activated carbon from apricot kernel. The proposed combined filter with a layer of the proposed adsorbent 26 23 Abrasion resistance 95%. Hopcalite volume 60 cm ³ When the filter is discharged, the layers practically do not contain dust. The volume of adsorbent 90 cm ³ The charge volume of 150 cm ^{3 the} basis of the adsorbent is activated carbon from coconut shell and apricot kernel. Note: 1. The table shows the average values from the results of six tests under identical conditions. 2. The conditions of tests for CDW on carbon monoxide: output concentration of 160 ppm, volumetric flow rate of variable gas-air flow (30 ± 0.75) dm ³ / min, relative humidity (90 ± 5)%, air temperature (20 ± 1) ° FROM. 3. The test conditions for the VZD on cyclohexane: output concentration of 10 ppm, volumetric flow rate of constant gas-air flow (30 ± 0.75) dm / ³ min, relative humidity (70 ± 2)%, air temperature (20 ± 1) ° С . 4. Dynamic activity of hopcalite on carbon monoxide 38 min.

Claims (7)

1. The adsorbent for the combined filter containing activated carbon, lithium and calcium chlorides, characterized in that it further contains calcium oxychloride, chlorides, carbonates, oxides and hydroxides of potassium and / or sodium, while the ingredients are applied to activated carbon from walnut shells and / or fruit seed in the following ratio of components, wt.%:
calcium chlorides and oxychlorides in terms of calcium chloride 8-11 lithium chloride 9-12 potassium chlorides, carbonates, oxides and hydroxides and / or sodium in terms of metal 0.6-3.1 walnut shell charcoal and / or fruit bone rest 2. A combined filter containing a housing, a bottom, a two-layer charge, consisting of the first layer along the inhaled air - an adsorbent on a carbon basis with calcium chloride and the second layer - hopcalite, taken in a volume ratio of 1.0: (1.3-1, 8) respectively, grids for securing and separating the charge, an anti-aerosol filter, characterized in that it further comprises an anti-dust swab installed last along the inhaled air, the housing has a connecting element - an external smooth or threaded neck, or connecting the housing member is a ridge top and the first layer of the charge is made of an adsorbent according to claim 1. 3. Combined filter, comprising a housing, a bottom, a two-layer charge, consisting of the first layer along the inhaled air — an adsorbent on a carbon basis with calcium chloride and the second layer — hopcalite, a mesh for fixing and separating the charge, an aerosol filter, characterized in that it additionally contains a dust swab installed last along the inhaled air, the body has a connecting element - an external smooth or threaded neck, or the connecting element of the body is made in the form of an upper ridge, and the first first and second layers of the charge are taken in a volume ratio of 1.0: (0.6-0.8), respectively, wherein the first layer is made of the batch of the adsorbent of claim 1. 4. A gas and smoke protection kit containing a single assembly, including an insulating heat-resistant hood with a viewing window, a headband, a half mask, an exhalation valve, an elastic stretch neck cuff, a filter device placed in an airtight vacuum package, and a bag, characterized in that the filter device is made in in the form of a combined filter according to claim 2. 5. Gas smoke protection kit according to claim 4, characterized in that it contains a lubricant layer for anti-fogging, located on the inside of the inspection window. 6. A gas and smoke protection kit containing a single assembly, including an insulating heat-resistant hood with a viewing window, a headband, a half mask, an exhalation valve, an elastic stretch neck cuff, a filter device placed in a sealed vacuum package, and a bag, characterized in that the filter device is made in in the form of a combined filter according to claim 3. 7. Gas smoke protection kit according to claim 6, characterized in that it contains a lubricant layer for anti-fogging, located on the inside of the inspection window.

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