RU201217U1 - Gas filter - Google Patents

Abstract

The filter for purifying the gaseous medium can be used for additional equipment with filters of supply and exhaust ventilation systems in household and industrial premises with increased requirements for air purity. The device consists of a frame and replaceable filtering material impregnated with a disinfectant, fixed between the filtering cloth in the frame, while the replaceable filtering material is made of hemp fire with a particle size of 0.5-2 mm, and the filter cloth is made of fabric made of hemp yarn ... The device improves the performance of the air filtration system.

Description

The utility model is intended for purification of the gaseous medium and can be used for additional equipment with filters for supply and exhaust ventilation systems in household and industrial premises with increased requirements for air purity.

The filter for purifying the gaseous medium consists of a frame and a replaceable filtering material impregnated with a disinfectant composition, fixed between the filtering cloth. Monobasic ethyl alcohol or isopropyl alcohol at a concentration of 70-95% is used as a disinfectant. The filter material is made of hemp fire with a particle size of 0.5-2.0 mm, and the filter cloth is made of fabric made of linen and hemp yarn.

To inactivate the COVID-19 and MERS-CoV virus, the World Health Organization recommended disinfectants in which the alcohol content of ethanol or isopropanol is 30-75%, and the contact time is 30 seconds at the minimum final concentration (Guidelines for Laboratory Biosafety in the Spread of COVID-19 https : //niioz.ru/covid-19/for-specialists/laboratoriyam/testovaya-informatsiya/) - hereinafter referred to as the "Guide". In the same Guide, WHO suggests the use of sodium hypochlorite (eg 0.1% for general surface disinfection and 1% for disinfection of blood spills); 62-71% ethanol; 0.5% hydrogen peroxide; quaternary ammonium compounds; and phenolic compounds if used in accordance with the manufacturer's recommendations. Other agents such as 0.05-0.2% benzalkonium chloride or 0.02% chlorhexidine digluconate may be less effective. Particular attention should be paid not only to the choice of disinfectant, but also to the contact time (for example, 10 minutes), dilution (that is, the concentration of the active substance) and the shelf life after preparation of the working solution.

It is known that human coronaviruses in general persist on surfaces such as metal, glass or plastic, up to 9 days [Kampf G, Todt D, Pfaender S, Steinmann E. Persistence of coronaviruses on inanimate surfaces and its inactivation with biocidal agents. J Hosp Infect. 2020; Feb 6. Pii: s0195-6701 (20) 30046-3. doi: 10.1016 / j.jhin.2020.01.022 [epub ahead of print]].

An important component of protection against the spread of viruses and dust particles, which can contain viruses and are carried throughout the room, is the ventilation of both domestic and industrial premises. For example, in healthcare facilities, it is a controlled ventilation system that maintains an inward airflow to the laboratory room (fresh air ventilation), and the exhaust air from the laboratory room (exhaust ventilation) is not recirculated to other rooms within the building. In the Guidelines, WHO recommends filtering air through a HEPA (High Efficiency Air Purifying Filter) filter when remanufactured and recycled in the laboratory. When exhaust air from the laboratory is discharged outside, it should be dispersed away from residential buildings and air intakes. This air must be removed through the HEPA filters.

Known filter HEPA, which helps to remove all impurities from the air, usually solid dust particles. HEPA filters are made from randomly arranged microfibers of glass fiber, pressed into multilayer (up to 5 layers) sheets like filter paper, then they are crimped to increase the filtration area, separated by adhesive separators to prevent sticking.

Due to the nonlinear arrangement of the fibers and the difference in their length and width, air passes through the HEPA outlet filter many times. HEPA filters retain the smallest particles (from 0.3 microns and above), but it is necessary to use preliminary filters - coarse (class G3-G4) and fine (class F7-F9) air purification (https://www.generalfilter.ru / shop / hepa-firter /? vclid = 2453645448200094664).

HEPA filters were invented in the 40s of the 20th century during the development of the US nuclear project and were used to trap radioactive particles in the nuclear industry. HEPA (from English High Efficiency Particulate Air or High Efficiency Particulate Absorbing) [on-line: http://ru.wikipedia.org/wiki/HEPA]

The disadvantages of the used HEPA filters include their high cost, imported components (the main production is in Italy), frequent replacement of pre-filters, harm to the environment, because the fiberglass from which the filter is made practically does not decompose in the environment and additional costs are required for its processing.

A device for purifying exhaust gases is known, which for fine purification of a gaseous medium is additionally equipped with a replaceable filter cartridge made of a polymer of a spatially globular structure (SGS), namely of a urea-formaldehyde polymer. [RU 46048, Application 2005103320/22, 10.02.2005].

The disadvantage of this technical solution is that a granular filter material with a limited service life is used, which occupies a significant volume of the device. Due to the fact that this design does not implement the sieve filtration mechanism, it is extremely problematic to achieve the retention of submicron particles. And the use of a urea-formaldehyde polymer in the composition creates an additional burden on the environment due to the release of toxic ammonia compounds and formaldehyde into the environment.

The closest in technical essence is the following utility model.

Known "Filter cassette for fine purification of a gas medium" (Patent RU 113166. Application: 2011140684/05, 2011.10.07). The utility model is intended for purification of the gaseous medium and can be used for equipping ventilation systems in rooms with increased requirements for air purity, as well as in gas turbine fuel supply systems. A filter cassette for fine purification of a gas environment, consisting of a screen with slots guiding the gas flow and a replaceable corrugated filtering material fixed by gluing in a gabion structure frame, in which the front part is rectangular, the horizontal parts of the frame are made in the form of trapezoids, the smaller bases of which are equipped with a guide comb to give the filtering cloth a V-shape, and the profile parts of the frame 5 are made in the form of rectangular frames, while the filter material is made of a filter cloth cloth with a polymer of a spatially globular structure (PGS) applied to it, and the connection of the screen with the front part of the frame sealed with a seal. As a polymer with a spatially globular structure, a polymer of the oligoestercarbonate methacrylate class is used. As a filter cloth, either non-woven materials or mesh materials based on glass fibers, or polyamide or polyester threads are used. The horizontal parts of the frame are equipped with ties for additional fastening of the filter cloth along the V-forming fold.

The use of such a filter cassette for fine purification of a gaseous medium makes it possible to improve the performance of the filtration system, in particular, due to a decrease in the thickness of the filter, to regenerate the filter material, while achieving a high efficiency of retention of submicron particles.

The disadvantages of the filter cassette include its complex design, high cost, production of filter material from components that are poorly decomposed in the environment, and harm to the environment.

As a rule, the weak point where infection with viruses, various toxicants that settle (adsorb) on the surface of the dust is the supply and exhaust ventilation in houses, industrial premises. Therefore, the use of filters that are easily assembled (installed) and can be used as an overlay for ventilation openings (exits-entrances) in apartments, industrial premises and buildings will reduce the penetration of viruses and toxicants into the room and the release of clean air outside the apartment, room and building.

After analyzing the current state of the art, it was found that a technical problem in this area is an insufficient range of filters for purifying the gaseous environment.

The expected technical result of the proposed technical solution is to improve the operational characteristics of the air filtration system due to the high efficiency of retaining small particles.

The technical result of the proposed technical solution for the removal of dust particles, on which the sorption of viruses and toxic substances is possible, is achieved by the fact that the filter for purifying the gaseous medium, consisting of a frame and a replaceable filter material impregnated with a disinfectant composition, fixed between the filter cloth in the frame, while Replaceable filter material is made of hemp fire with a particle size of 0.5-2 mm, and the filter cloth is made of cloth made of hemp yarn.

The unique properties of natural materials in the form of flax and hemp fibers, fabrics made from natural fibers make it possible to obtain the technological advantages of filtration with high purification quality.

The figure shows a filter that includes a frame with a filter cloth 1, between which filter material 2 is fixed.

The filter for purifying the gaseous medium works as follows: the gas flow under the influence of the pressure drop passes through the filter, which is previously placed at the inlet (outlet) channel of the pipeline. Replaceable filter material 2, impregnated with a disinfectant, is fixed between the filter cloth. Monobasic ethyl alcohol or isopropyl alcohol at a concentration of 70-95% is used as a disinfectant. The filter material is made of hemp fire with a particle size of 0.5-2.0 mm, and the filter cloth is made of a fabric made of linen and hemp yarn, in accordance with the patent (Utility model, Fabric RU 187691).

Hemp fire is a large-tonnage waste generated in hemp factories after fiber is extracted from the stalk of industrial hemp. On average, the mass of a fire after processing is from 3 to 8 tons per hectare. The linear particle size of the fire is from 0.02 mm to 2-3 cm. By the screening method, it is necessary to select a fraction with a particle size of the fire 0.5-2.0 mm. A campfire particle size less than 0.5 mm will reduce the filter throughput, and more than 2.0 mm will reduce the filtration efficiency. This fraction of the fire in linear dimensions has optimal sorption properties and 1 gram of fire sorbs on the surface of the fire up to 6 grams of ethyl and isopropyl alcohol, the retention time is not less than 50% of the mass of sorbed alcohol on the surface of the fire at a temperature of 20 ° C for at least 4 hours. The filtered air will pass through the disordered particles of the fire, on the surface of which there is a decontamination solution, while the virus, various bacteria and microorganisms will be inactivated. Due to the formation of donor-acceptor bonds between alcohol molecules and carbonyl, hydroxyl and other groups of chemical components of the fire, alcohol molecules are retained on the surface of the fire for a rather long time. Earlier, it was found that alcohol solutions effectively destroyed viable viral particles in 30 seconds at an alcohol concentration of more than 30%) (https://nauka.tass.ru/nauka/8012849). Then, used by us and recommended by WHO, the concentration of decontamination solutions of alcohols 75-95%) during the diffusion of air particles through the filter cloth and filter material will inactivate the bulk of the harmful components.

Below is an example of achieving a technical result when using the proposed filter for purifying the gaseous environment. The example illustrates, but does not limit the application of the proposed filter.

Example 1.

Air sample contamination with suspended particles - 50 mg / m ³ .

Linear air flow rate - 1.0 cm / sec.

The filtering material is made from a hemp fire of technical hemp of the Gljana variety, which is preliminarily divided into fractions by screening through sieves with a diameter of 0.5; 1.0; 2.0 mm. Then the fractions are mixed in a 1: 1: 1 ratio. Then, 50 ml of ethyl alcohol with a concentration of 70% was added to 10 grams of the fire, while the complete absorption of alcohol by the fire was achieved within 10 seconds, after which it was necessary to thoroughly stir the mixture of fire and alcohol mechanically. Two rectangular frames 150 × 150 mm in size were made from a filter cloth made of linen plain weave with a thickness of 1000 microns, a density of 370 g / m ² , an air permeability of 5 dm ³ / m ² . Velcro strips 1 cm wide are placed along the edges of the frame. Three sides of the frame are fastened together through Velcro, filter material is poured inside through the fourth side and evenly distributed over the entire surface, after which the fourth side is fastened through Velcro. Velcro (or double-sided super-strong mounting tape) is attached to the outer side of one of the frame webs and attached to the outlet / inlet grille of the ventilation opening (ventilation pipe).

The particle retention efficiency is 60% for 0.5 μm particles, 65% for 0.7 μm, 80% for 1.0 μm, 90% for 3 μm, 95% for 5.0 μm, and 100% for 10 μm.

Example 2.

Air sample contamination with suspended particles - 50 mg / m ³ .

Linear air flow rate - 1.0 cm / sec.

The filter material is made from a hemp fire of industrial hemp of the Surskaya variety, which is preliminarily divided into fractions by screening through sieves with a diameter of 0.5; 1.0; 2.0 mm. Then the fractions are mixed in a 1: 1: 1 ratio. After that, 50 ml of ethyl alcohol with a concentration of 95% was added to 10 grams of the fire, while the complete absorption of alcohol by the fire is achieved for 10 seconds, after which it is necessary to thoroughly mix the mixture of fire and alcohol mechanically. Two rectangular frames 150 × 150 mm in size were made from a filter cloth made of hemp linen weave with a thickness of 1000 microns, a density of 400 g / m, and an air permeability of 5 dm ³ / m ² . Velcro strips 1 cm wide are placed along the edges of the frame. Three sides of the frame are fastened together through Velcro, filter material is poured inside through the fourth side and evenly distributed over the entire surface, after which the fourth side is fastened through Velcro. Velcro (or double-sided super-strong mounting tape) is attached to the outer side of one of the frame webs and attached to the outlet / inlet grille of the ventilation opening (ventilation pipe). The particle retention efficiency is: for particles 0.5 μm 62%, 0.7 μm - 68%, 1.0 μm - 83%, 3 μm 92%, 5.0 μm - 97%, 10 μm - 100%.

The filter for purification of a gaseous medium, declared as a useful model, makes it possible to improve the operational characteristics of the air filtration system, while at the same time a high efficiency of the retention of small particles is achieved. After use, the filter material and the filter cloth can be easily disposed of, quickly decomposes in the soil, since it consists of cellulose-containing and other non-toxic organic components.

Claims (1)

A filter for purifying the gaseous medium, consisting of a frame and replaceable filter material impregnated with a disinfectant composition, fixed between the filter cloth in the frame, characterized in that the replaceable filter material is made of hemp fire with a particle size of 0.5-2 mm, and the filter cloth is made from a fabric made from hemp yarn.

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