RU2566899C1 - Universal filtering element - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: known composition of universal filtering element, which includes, wt %: potassium carbonate - 17.0-25.0; sodium hydroxide - 0.7-1.0; sodium silicate - 9.0-12.5; glycerine 9.0-12.5; water - 5.9-7.4; cotton fabric the remaining part, does not provide effective protection from sulphur hydroxide if its content is higher than 15 MPC. The fact that claimed composition additionally contains calcium oxide and manganese sulphate with component ratio, wt %: potassium carbonate 22.0-32.0; calcium oxide 0.8-1.1; sodium hydroxide - 1.0-1.5; sodium silicate - 10.0-14.0; glycerine - 9.0-13.0; manganese sulphate - 0.07-0.12; water - 12.0-16.0; cotton fabric - the remaining part, makes it possible to increase sorption capacity of filter, protection degree of sulphur dioxide and additional retention of hydrogen sulphide, which makes it possible to efficiently apply filter for protection of respiratory organs in industrial quarters, where sulphur dioxide content exceeds 15 MPC, hydrogen sulphide - 15 MPC, and content of hydrogen fluoride reaches 30 MPC.

EFFECT: protection of respiratory organs from harmful substances, which are in air of industrial quarters of aluminium, phosphorus factories, mineral fertilisers and non-ferrous metallurgy.

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Description

The invention relates to universal filtering elements of valveless gas respirators designed to protect the respiratory system from harmful substances in the air of industrial premises of aluminum, phosphorus enterprises, mineral fertilizers and non-ferrous metallurgy.

The air of industrial premises contains highly toxic gases that are harmful to the health of workers: sulfur dioxide (maximum permissible concentration (MPC) - 10 mg / m ³ , hydrogen sulfide (MPC - 10 mg / m ³ ), hydrogen fluoride (MPC - 0.1 mg / m ³ ) in concentrations exceeding the MPC by 10-30 times Hydrogen fluoride, sulfur dioxide, hydrogen sulfide irritate the respiratory tract, cause shortness of breath, act on bone tissue, disrupting calcium metabolism, pulmonary edema is possible at high concentrations. metallurgy, phosphoric, aluminum pro zvodstv, mineral fertilizers is carried out a set of technological, sanitary, medical and preventive treatment facilities, among which an important role is played by the rational use of personal respiratory protection.

The invention relates to the field of gas purification from harmful impurities and can be used to protect respiratory organs working from hydrogen fluoride (HF) or sulfur oxide (S0 ₂ ), hydrogen sulfide (H ₂ S) released into the air of industrial premises.

A universal filter element is known as a granular absorber in combination with an anti-aerosol filter - the Petryanov filter, which is used in valve respirators to protect the respiratory organs from harmful substances present in the air of industrial premises simultaneously in the form of vapors, gases, aerosols, smoke and fog when the content of vapor-gas substances is not over 10-15 maximum concentration limits (Kaminsky S.L., Basmanov I.I. Personal respiratory protection. Moscow, 1982, pp. 49-50). A disadvantage of the known gas mask composition is the high respiration resistance of ~ 80-100 Pa at an air flow rate of 30 l / min, which makes it difficult to use it for a long time (6-8 hours) in the workplace. Valve gas masks are heavy (1.2-1.8 kg), create great resistance to breathing, significantly limit the field of view (up to 50%). The systematic and daily use of gas masks is allowed in exceptional cases or as a last resort in emergency situations with a high concentration of harmful substances.

Known universal filter element used in a light valveless gas-dust respirator "Lepestok-B", where sorption-filtering material obtained by spraying finely dispersed sodium carbon dioxide onto an anti-aerosol Petryanov filter (FPP) with a chemisorbent surface density of 6-8 mg / cm ² (Hygiene of work and occupational diseases No. 8, 1983, p. 38-40). The known composition of the gas mask filter respirator "Lepestok-V" (TU 002, 26-80) captures acidic gaseous substances and is intended mainly to protect the respiratory system from hydrogen fluoride. When the HF concentration in the air of the working zone is up to 2 mg / m ³ (up to 15 MPC), the protective action time of the sorption-filtering element of the Lepestok-V respirator is about 6 hours.

A disadvantage of the known filter element is the low degree of protection (60%, within 4 hours) of the respiratory organs from HF when their content in the air is ~ 15-30 MPC. The concentration of harmful substances after the filter element remains above the maximum permissible concentration, and this does not allow the effective use of the known filter element to protect the respiratory organs from HF and SO ₂ at elevated concentrations in the air of industrial premises (up to 15-30 maximum concentration limits). When the concentration of SO ₂ in the air of the working zone is up to 100 mg / m ³ (up to 10 MPC), the protective time of the sorption-filter element of the Lepestok-V respirator is about 3 hours. In the process of manufacturing respirators with a known composition of a gas filter in a number of technological operations, part of Na ₂ CO ₃ enters the atmosphere of the working zone at concentrations exceeding the MAC of Na ₂ CO ₃ ~ 4-5 times. As a result of this, the time of the protective action of the filter element is reduced by 1.5-2 times.

Known universal filter element of a valveless dust and dust respirator, consisting of aerosol and gas filters, as a fibrous material treated with a chemical active composition, contains a cotton cloth impregnated with a mixture of glycerol, water and calcium oxide, in the following ratio, wt.%: Glycerin 23, 8-25.6, water 9.3-13.6, calcium oxide 35.7-37.2, cotton fabric - the rest (Preliminary patent of the Republic of Kazakhstan No. 3708, bull. No. 3, 1996).

The disadvantage of the composition of the gas filter of the universal filter element is the low sorption capacity for SO ₂ , HF at high concentrations above 15-30 MPC, the inability to protect the respiratory system from another acid gas - H ₂ S and the lack of frame (rigidity) of the respirator.

The closest in technical essence and the achieved technical result is the composition of the gas filter of the universal filter element for protecting respiratory organs from hydrogen fluoride and sulfur dioxide, including, wt.%: Potassium carbonate - 17.0-25.0; sodium hydroxide - 0.7-1.0; sodium silicate - 9.0-12.5; glycerol 9.0-12.5; water 5.9-7.4; cotton fabric - the rest (Preliminary patent of the Republic of Kazakhstan No. 6475, bull. No. 7, 08/14/1998).

The known composition of the gas filter of the universal filter element is designed to protect the respiratory system from hydrogen fluoride and sulfur dioxide. The use of a water-glycerin solution of potassium carbonate, hydroxide and sodium silicate applied to a cotton cloth at the above ratio in combination with an anti-aerosol filter (FPP) provides a low resistance to air flow and an increased activity of a gas filter to protect respiratory organs in production rooms where the content hydrogen fluoride in air reaches 30 maximum permissible concentrations (MPC), and sulfur dioxide - 15 MPC. Moreover, the degree of delay of hydrogen fluoride is 98.3%, and the time of the protective effect of the filter is 12-24 hours. While the degree of delay of sulfur dioxide is 95.3% and the protective effect of the filter is 6-12 hours.

A filter element with a known composition does not provide effective protection against sulfur dioxide when its content in air exceeds 15 MPC. The concentration of sulfur dioxide in the air mixture after the filter is several times higher than the MPC.

The technical task of the present invention is to increase the activity of the composition of the gas mask filter of the universal filter element in the process of protecting the respiratory system from sulfur dioxide, hydrogen fluoride, additionally from hydrogen sulfide, as well as expanding the range of universal filter element.

The technical task is achieved by the proposed composition of the gas filter of the universal filter element to protect the respiratory system from hydrogen fluoride and sulfur dioxide, including potassium carbonate, sodium hydroxide and silicate, glycerin, water and cotton fabric, the distinguishing feature of which is that it additionally protects the respiratory system from hydrogen sulfide and additionally contains calcium oxide and manganese sulfate in the following ratio of components, wt.%: potassium carbonate - 22.0-32.0; calcium oxide - 0.8-1.1; sodium hydroxide - 1.0-1.5; sodium silicate - 10.0-14.0; glycerin - 9.0-13.0; manganese sulfate - 0.07-0.12; water - 12.0-16.0; cotton fabric - the rest.

The proposed composition of the gas filter gives the universal filter element new properties. The activity, the degree of delay of sulfur dioxide, hydrogen sulfide and the sorption capacity of the filter increase, which makes it possible to effectively use the filter to protect respiratory organs in industrial premises where the content of sulfur dioxide in the air exceeds 15 MAC, hydrogen sulfide - 15 MAC, and the content of hydrogen fluoride reaches 30 MAC. An additional additive of manganese sulfate in the composition of the proposed filter promotes the active regeneration of oxygen on its surface and, therefore, increases the sorption capacity of the universal filter element. Sodium-calcium hydrosilicate gives the cotton fabric the necessary rigidity.

The preparation of the gas filter is carried out by impregnation, followed by drying at room temperature to a constant weight of cotton fabric with a water-glycerin solution of potassium carbonate, calcium oxide, sodium hydroxide and sodium silicate, manganese sulfate of a certain concentration. When preparing a gas filter using a water-glycerin solution containing, g / l: potassium carbonate - 140-265; calcium oxide - 6.0-8.0; sodium hydroxide - 6.5-12.5; sodium silicate 63-120; glycerin 55-115; manganese sulfate - 0.4-1.2. As a carrier, cotton gauze is used (GOST 11109-74). Gauze is convenient in that it has a low weight, low resistance to air flow, is well impregnated with a water-glycerin solution with chemisorbent, and is quickly dried at room temperature to a constant weight.

Gauze, impregnated with a water-glycerin solution of the chemisorbent of the above composition, effectively retains harmful impurities only in combination with the fabric of the Petryanov anti-aerosol filter (FPP). FPP fabric without gauze soaked in a solution of potassium carbonate, calcium oxide, hydroxide and sodium silicate, manganese sulfate, traps only dust and aerosols, but does not trap gases (SO ₁ , HF, H ₂ S). The composition of the obtained gas filter, wt.%, Is determined by weighing cotton cloth on an analytical balance before impregnation and after impregnation with a water-glycerin solution of potassium carbonate, calcium oxide, hydroxide and sodium silicate, manganese sulfate, a certain concentration and subsequent drying to constant weight at room temperature. The components of the gas filter are non-volatile, do not react with a cotton cloth and therefore the amount of components (in g) that was in the solution remains in the filter. Based on the mass content of the components of the gas filter, calculate the composition of the gas filter in wt.%. The compositions of gas filters thus prepared are then tested for the effectiveness of delaying harmful impurities from the air of industrial premises in a universal filter element, including the Petryanov anti-aerosol filter. To do this, the gas mask filter of the above composition and the Petryanov filter are placed in a length through which air containing 150-300 mg / m ³ SO ₂ , 150-300 mg / m ³ H ₂ S or 1.0-3.0 mg / m ³ HF.

Alonge represents two cone-shaped funnels hermetically inserted into each other on thin sections. The diameter of the funnel corresponds to the diameter of the universal filter element. The concentration of harmful substances in the air mixture before and after the filter element is determined according to the methods described in the guide E.A. Peregud, E.V. Gernet “Chemical analysis of air of industrial enterprises”, L., Chemistry, 1973. The time of the protective action of the filter element is estimated by the time interval from the start of a constant stream of gas to be purified until the appearance of harmful impurities behind the filter element in a concentration equal to or close to one . The nature of the effect of the components of the gas filter on the degree of delay of harmful gases, sorption capacity, time of protective action depends on their concentration.

The following are examples illustrating the invention.

Example 1. Cotton fabric with a diameter of 18 cm, a thickness of 0.25 mm and a weight of 1 g is impregnated with 3 ml of a water-glycerin solution containing, g: potassium carbonate - 0.42, calcium oxide - 0.016, sodium hydroxide - 0.02, silicate sodium 0.2, glycerol 0.17, manganese sulfate 0.0014. Dry at room temperature to constant weight and weigh. This results in a gas filter weighing 2.1 g of the following composition, wt.%: Potassium carbonate - 22.0, calcium oxide - 0.8, sodium hydroxide - 1.0, sodium silicate - 10.0, glycerin - 9.0 , manganese sulfate - 0.07, water - 12.0, cotton fabric - 45.1. A universal filter element containing an FPA anti-aerosol filter and a gas mask filter of the above composition is placed in a length through which air containing (mg / m ³ ): HF 3.0, or sulfur dioxide - 240, or hydrogen sulfide - 250. At the same time, the protective action of the filter element from HF is 12 hours, and from SO ₂ - 10, from H ₂ S - 9 hours. The concentration of harmful impurities in the purified air after the filter element is, mg / m ³ : HF - 0.05, sulfur dioxide - 6.0, hydrogen sulfide - 8.0. The average degree of delay is,%: from HF 98.3, from S02 97.6, from H ₂ S 96.8.

Example 2. Cotton fabric with a diameter of 18 cm, a thickness of 0.25 mm and a weight of 1 g is impregnated with 3 ml of a water-glycerin solution containing, g: potassium carbonate - 0.58, calcium oxide - 0.02, sodium hydroxide - 0.03 , sodium silicate - 0.26, glycerin - 0.24, manganese sulfate - 0.0025. Dry at room temperature to constant weight and weigh. This results in a gas mask filter weighing 2.4 g of the following composition, wt.%: Potassium carbonate - 26.0, calcium oxide - 1.0, sodium hydroxide - 1.2, sodium silicate - 12.0, glycerin - 11.0 , manganese sulfate - 0.1, water - 14.0, cotton fabric - 34.7. A universal filter element containing an FPA antiaerosol filter and an antigas filter of the above composition is placed in a length through which air containing (mg / m ³ ): HF 3.0, or sulfur dioxide - 250, or hydrogen sulfide is passed at a speed of 30 l / min - 250. At the same time, the protective action of the filter element from HF is 18 hours, and from SO ₂ - 11.0, from H ₂ S - 12 hours. The concentration of harmful impurities in the purified air after the filter element is, mg / m ³ : HF - 0.05, sulfur dioxide - 6.0, hydrogen sulfide - 7.0. The average degree of delay is,%: from HF - 98.3, from SO ₂ 97.6, from H ₂ S 97.2.

Example 3. Cotton fabric with a diameter of 18 cm, a thickness of 0.25 mm and a weight of 1 g is impregnated with 3 ml of a water-glycerin solution containing, g: potassium carbonate - 0.83, calcium oxide - 0.022, sodium hydroxide - 0.04, silicate sodium - 0.36, glycerin - 0.34, manganese sulfate - 0.0036. Dry at room temperature to constant weight and weigh. This results in a gas filter weighing 2.9 g of the following composition, wt.%: Potassium carbonate - 32.0, calcium oxide - 1.1, sodium hydroxide - 1.5, sodium silicate - 14.0, glycerin - 13.0 , manganese sulfate - 0.12, water - 16.0, cotton fabric - 22.4. A universal filter element containing an FPA antiaerosol filter and an antigas filter of the above composition is placed in a length through which air containing (mg / m ³ ) is passed at a speed of 30 l / min: hydrogen fluoride - 3.0 or sulfur dioxide - 250, hydrogen sulfide - 230. At the same time, the protective action of the filter element from HF is 24 hours, from SO ₂ - 14, from H ₂ S - 13 hours. The concentration of harmful impurities in the purified air after the filter element is, mg / m ³ : HF - 0.05, sulfur dioxide - 6.0, hydrogen sulfide - 6.0. The average degree of delay is,%: from HF 98.3, from SO ₂ 97.6, from H ₂ S 97.4.

The necessity and sufficiency of the boundary ratio of the components of the gas filter of the universal filter element was determined by the requirements for the filter elements: effective retention of harmful impurities at an air mixture speed of 30 l / min for 2-3 working shifts, providing a concentration of harmful substances after the filter element equal to or close one MAC. The content of the gas filter (in wt.%): Potassium carbon dioxide below 22.0, calcium oxide below 0.8, sodium hydroxide below 1.0, sodium silicate below 10.0, glycerol below 9.0, manganese sulfate below 0 , 07, water below 12.0 does not allow to effectively retain harmful gases HF, SO ₂ , H ₂ S (example 4, table). Their concentration after the filter element exceeds the MPC by 4 times.

The content of the gas filter (in wt.%): Potassium carbonate above 32.0, calcium oxide above 1.1, sodium hydroxide above 1.5, sodium silicate above 14.0, glycerol above 13.0, manganese sulfate above 0 , 12, water above 16.0 is impractical, since it does not significantly affect the protective properties of the universal filter element (example 5, table).

Comparative data of the known and proposed composition of the gas filter are presented in the table. It can be seen from the above examples that a filter element with a known composition of a gas mask does not provide an effective delay of sulfur dioxide when it is contained in air at concentrations above 15 MPC during a shift. The content of SO ₂ in the purified gas after the known filter element exceeds the maximum permissible concentration.

The proposed composition of the gas filter in the universal filter element provides a high degree of delay of harmful impurities (97.2-98.3%) and sorption capacity, which allows it to be used effectively for respiratory protection in industrial premises for 12-24 hours, where in the air contains acid gases - HF, SO ₂ , H ₂ S in concentrations of 15-30 MAC. The concentration of harmful gases in the air mixture after the filter element is close to one maximum concentration limit.

Claims (1)

Universal filter element, including potassium carbonate, sodium hydroxide, sodium silicate, glycerin, water and cotton fabric, characterized in that it further comprises calcium oxide and manganese sulfate in the following ratio, wt. %:
potassium carbonate - 22.0-32.0;
sodium hydroxide - 1.0-1.5;
sodium silicate - 10.0-14.0;
glycerin - 9.0-13.0;
water - 12.0-16.0;
manganese sulfate - 0.07-0.12;
calcium oxide - 0.8-1.1;
cotton fabric - the rest.