RU2218985C1 - Adsorbent for means of protection - Google Patents

Abstract

FIELD: chemical industry. SUBSTANCE: the invention is dealt with production of adsorbents based of charcoal, in particular, with production of an adsorbent for sorption of chemically dangerous substances of inhalation action, that may appear in emergency. The adsorbent for means of protection containing active charcoal impregnated with oxides and salts of copper and chromium, nickel chloride, represents a mechanical mixture of two component parts, at that the first part in amount of 45- 55 vol. %about. % contains as its ingredients compounds in terms of copper - 4.5-7.5 mass % and the chromium compounds in terms of chromium - 1.2-2.2 mass %, active charcoal - the rest, and the second part in amount of 55-45 vol. % contains 15-25 mass % of nickel chloride and active charcoal - the rest. First component part of the an adsorbent used for the means of protection may additionally contains silver oxide in terms of silver - 0.02-0.10 mass % and /or triethylenediamine in amount 0.3-0.6 mass % and / or potassium carbonate in amount of up to 4 mass %. The adsorbent for means of a protection micropores volume is no less than 0.4 cm³/g. The adsorbent has high enough time of protective action of organic, acidic, alkaline and neutral characters and by toxic substances. EFFECT: the adsorbent is rather effective in protection for a long time. 3 cl, 2 tbl

Description

 The invention relates to the production of carbon-based adsorbents, in particular to the production of an adsorbent for the absorption of chemically hazardous substances of inhalation action (AHOVID) organic (benzene, toluene, acetone, etc.), acidic (sulfur dioxide, hydrogen chloride, hydrogen fluoride etc.), alkaline (ammonia, amines, etc.) and neutral (chlorine, fluorine, sulfur hydride, etc.) characters, toxic substances (hydrogen cyan, chlorocyanine, phosgene, etc.) in remedies.

 To equip respiratory protective equipment, activated carbon adsorbents are used. Commonly used impregnating additives contain mainly chromium and copper salts, as well as small amounts of silver salts. After impregnation with a solution of salt, the coal is dried, and then the impregnating additive changes at high temperature. In this case, ammonia is released and catalytically active components are formed [Kinle X., Bader E. Active carbons and their industrial application. Translation from German. Leningrad "Chemistry" Leningrad Branch, 1984, p. 116, 117].

 Known adsorbent with the addition of copper, chromium, silver and triethylenediamine in an amount of more than 0.3 wt.% In. as a hydrophobic additive [RU 2108149 C1, cl. B 01 J 20/20, C 01 B 31/08, 02.20.1997]. This type of adsorbent-catalyst based on active carbon AG-5 [GOST 20777-75 Active carbon AG-5] is used to equip gas mask boxes GP-7K [TU G-10-1104-82 Filter-absorbing box GP-7K, set of drawings 3077.000. Elektrostal], designed to protect the public from toxic substances. The content of copper, chromium and silver compounds in terms of copper, chromium and silver in the adsorbent-catalyst: copper - 4.5-6.5 wt.%, Chromium - 1.2-2.2 wt.%, Silver - 0, 02-0.10 wt.%, Triethylenediamine - 0.3-0.6 wt.%.

 The disadvantage of this adsorbent is the inability to absorb AHOVID alkaline in nature and the low time of the protective action of AHOVID organic in nature.

 The domestic industry produces the chemical absorbent of ammonia HPA-N [TU 6-16-3125-91 Chemical absorbent of ammonia HPA-N. Elektrostal] based on activated carbon AG-5 impregnated with nickel chloride from 18 to 25 wt. % The manufacture of an HPA-N absorber includes a sequence of stages: impregnation of AG-5 coal with a solution of nickel chloride, aging of impregnated coal and heat treatment of coal. The HPA-N absorber provides a high degree of protection against AHOVID of an alkaline nature, but has a low protective time for AHOVID of an organic nature and does not protect against AHOVID of acidic and neutral nature.

 It is known that for the equipment of cartridges of respirators of the 6000 series of production ZM (USA), narrow-porous (6 angstroms) activated carbon is used to protect against vapors of organic substances [Means of protection: ZM company guarantees labor safety. The journal "Labor Protection and Social Insurance". 3 1998, p. 34. Moscow, ed. Editorial Board].

 Upon receipt of coal for gas masks and other coals for special purposes, which must have high strength properties and a large volume of thin pores, coconut shell is used. The obtained granular activated carbons are characterized by high strength and very thin pores [Kinle X., Bader E. Active carbons and their industrial application. Translation from German. Leningrad "Chemistry" Leningrad Branch, 1984, p. 36, 38].

 In this case, the coconut shell may initially contain a small amount of potassium carbonate [Gromova S.L. ZM company: personal respiratory protection against gases and vapors. The journal "Occupational Safety in Industry". 5 1998, p.27. Moscow, ed. CPO Gosgortekhnadzor of Russia]. Such a content of potassium carbonate contributes to the absorption of ACHOVID acidic and neutral in nature.

It is known that domestic activated carbons intended for adsorption of vapors of organic substances have a micropore volume of 0.40-0.61 cm ³ / g [AOOT EKhMZ, NPO Inorganika Active carbons. Elastic sorbents. Catalysts. Dehumidifiers. Chemical absorbers. Catalog. Cherkasy, 1996, pp. 8-33].

 The disadvantage of these adsorbents is the inability to absorb poisonous substances, AHOVID alkaline, acidic and neutral in nature or protection to a small extent from the latter two.

 The closest in technical essence to the proposed adsorbent is a catalyst-absorber K-PA [TU 2165-044-05795731-00 catalyst-absorber K-PA. Perm] based on active carbon AG-5, containing copper compounds in terms of copper 4.5-7.5 wt.%, chromium compounds in terms of chromium 1.2-2.2 wt.% and nickel chloride in the amount of 7-15 wt.%. The manufacture of a K-PA absorbing catalyst involves the sequential deposition of copper and chromium compounds, then nickel chloride, onto activated carbon. The K-PA absorbing catalyst is designed to absorb AHOVID acidic, alkaline and neutral in nature, toxic substances, air drying in respiratory protection.

The disadvantage of the K-PA absorbing catalyst is the low ACHOVID protective action time, the decrease in the dynamic activity of chlorocyanine due to impregnation with nickel chloride, the high consumption of raw materials for the ingredients, the manufacturing time, difficulties in secondary heat treatment after application to coal with copper compounds and nickel chloride chromium, due to the fact that the optimum drying temperature of the adsorbent with nickel chloride is 170-190 ^o С, and the melting point of chromium trioxide is 196 ^o С.

 The authors were faced with the task of developing an adsorbent based on activated carbon, which is used in protective equipment to absorb AHOVID of organic, acidic, alkaline and neutral nature, toxic substances with a sufficiently high protective action time.

The result is achieved by the fact that:
1. The adsorbent for protective equipment containing activated carbon impregnated with oxides and salts of copper and chromium, nickel chloride, is a mechanical mixture of two components, the first part in an amount of 45-55 vol. % contains as an ingredient copper compounds in terms of copper 4.5-7.5 wt.% and chromium compounds in terms of chromium 1.2-2.2 wt. %, activated carbon - the rest, and the second part in an amount of 55-45 vol.% contains 15-25 wt.% nickel chloride, activated carbon - the rest.

 2. The first component of the adsorbent for protective equipment additionally contains silver oxide in terms of silver 0.02-0.10 wt.%, And / or triethylenediamine in an amount of 0.3-0.6 wt.%, And / or potassium carbonate in an amount up to 4 wt.%.

3. The adsorbent for protective equipment has a micropore volume of at least 0.4 cm ³ / g.

The difference of the proposed adsorbent is that:
- a mechanical mixture of two constituent parts of the adsorbent with copper and chromium compounds (45-55 vol.%) and nickel chloride (55-45 vol.%) was used;
- the first component of the adsorbent contains copper compounds in terms of copper in an amount of 4.5-7.5 wt.% and chromium compounds in terms of chromium in an amount of 1.2-2.2 wt.%;
- the second component of the adsorbent contains Nickel chloride in an amount of 15-25 wt.%;
- the first component of the adsorbent may additionally contain silver oxide in terms of silver in an amount of 0.02-0.10 wt.%; and / or triethylenediamine in an amount of 0.3-0.6 wt.%; and / or potassium carbonate in an amount up to 4 wt.%;
- both constituent parts of the adsorbent have a micropore volume of at least 0.4 cm ³ / g.

 The first component of the adsorbent provides the absorption of AHOVID of organic, acidic and neutral nature, toxic substances.

 The second component of the adsorbent provides the absorption of AHOVID organic and alkaline characters.

 The choice of a mechanical mixture of two constituent parts as the proposed adsorbent is caused by an increase in the length of the working layer of each of the constituent parts, respectively, for each of the substances from which the proposed adsorbent is intended to protect. In this case, both types of particles do not interfere with each other to absorb the corresponding substances.

 A narrow range of the ratio of the two constituent parts of the proposed adsorbent 45-55 and 55-45 vol.%, Respectively, was taken in order to provide the necessary maximum mixing of the two constituent parts, especially for small lengths of the charge gas mask boxes.

 The necessity of applying silver to activated carbon is due to the catalytic properties of silver compounds, for example, during the oxidation of arsenic hydrogen by atmospheric oxygen.

 The need to apply triethylenediamine on activated carbon is due to the special requirements for the hydrophobicity of the charge of gas mask boxes of civilian gas masks stored in a humidified environment. In addition, triethylenediamine-impregnated coals provide efficient extraction of radioactive methyl iodide in the process of isotopic exchange.

 Potassium carbonate may initially be in activated carbon from coconut shell up to 4 wt.% According to statistical data and in the proposed adsorbent performs the function of additional protection against ACHOVID acidic and neutral in nature.

The choice for the proposed adsorbent of activated carbon with a micropore volume of at least 0.4 cm ³ / g is determined by the need for effective absorption of AHOVID of an organic nature, comparable in size to molecules with micropore sizes.

 The proposed adsorbent is made as follows.

 Activated charcoal of one batch is supplied with one part for impregnation with a solution of copper, chromium, silver and triethylenediamine compounds, and with another part for impregnation with a solution of nickel chloride.

Silver oxide is deposited on activated carbon together with copper and chromium compounds by impregnating coal with a mixture of a copper-chromium ammonia complex obtained by dissolving chromium trioxide and / or potassium chromate and / or potassium dichromate in copper carbonate and silver nitrate, followed by heat treatment at temperatures above 100 ^o C to the desired moisture content. Triethylenediamine, if necessary in the coal, is also introduced into the solution of copper carbonate ammonia. 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.

Nickel chloride is applied to activated carbon by impregnating coal with a solution of nickel chloride, followed by heat treatment at temperatures above 100 ^o C to the desired moisture content. The ratio of coal and impregnation solution is taken based on the value of the total pore volume and the impregnation coefficient of 0.7-1.0.

 The mixing of the two constituent parts of the adsorbent is carried out mechanically in a mixing device for bulk products.

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

 Data on the selection of the ratio of the constituent parts of the proposed adsorbent are shown in table 2.

 Table 1 shows that the proposed adsorbent in comparison with the prototype has a higher dynamic activity for benzene, chlorocyanine, sulfur hydride and ammonia, compared with the first analogue provides protection against ammonia, and compared with the second analogue has a higher dynamic activity for benzene and provides protection against chlorocyanine, sulfur dioxide and sulfur hydride.

 From table 2 it is seen that the optimal ratio of constituent parts in the proposed adsorbent 45-55 and 55-45 vol.%.

 A decrease in any of the constituent parts of less than 45 vol.% Or an increase of more than 55 vol.% Leads to uneven distribution of parts in the layer and a significant decrease in the dynamic activity of one of the substances.

 The use of a mechanical mixture of two constituent parts as the proposed adsorbent eliminates the decrease in the dynamic activity of chlorocyanine, reduces the consumption of raw materials for the ingredients of the first constituent part, reduces the manufacturing time, and avoids difficulties during secondary heat treatment by eliminating it.

 The proposed adsorbent has a sufficiently high time of protective action by ACHOVID organic, acidic, alkaline and neutral in nature and poisonous substances.

 The proposed adsorbent was manufactured in a pilot batch and tested in a laboratory.

 Further production of batches of adsorbents is planned.

Claims (3)

1. The adsorbent for protective equipment containing activated carbon impregnated with oxides and salts of copper and chromium, nickel chloride, characterized in that it is a mechanical mixture of two components, while the first part in an amount of 45-55 vol.% Contains as the ingredients of the copper compound in terms of copper 4.5-7.5 wt.% and the chromium compound in terms of chromium 1.2-2.2 wt.%, the rest is activated carbon, and the second part in the amount of 55-45 vol.% contains 15-25 wt.% nickel chloride, the rest is activated carbon. 2. The adsorbent for protective equipment according to claim 1, characterized in that the first component of the adsorbent additionally contains silver oxide in terms of silver 0.02-0.10 wt.% And / or triethylenediamine in an amount of 0.3-0.6 wt.% and / or potassium carbonate in an amount up to 4 wt.%. 3. The adsorbent for protective equipment according to claims 1 and 2, characterized in that it has a micropore volume of at least 0.4 cm ³ / g.

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