RU221050U1 - Sorption air purification filter - Google Patents

Abstract

The utility model relates to devices for purifying air from polluting gases passing into residential and industrial premises through the air conditioning system. The air purification sorption filter contains two cylindrical sorption compartments connected to each other, filled with various types of filter media, and valves for supplying purified air from the pump and water from the drainage, as well as removing purified air. Two sorption compartments consist of a main part and a lid, connected by a threaded connection and having transverse membrane partitions. The sorption filter also contains an air drying chamber filled with a hygroscopic substance and equipped with transverse membrane partitions, one of which is permeable to air and water, and the other permeable to air, but impermeable to water. At the top of the filter there is a valve equipped with a through pipe for air supply and a non-through pipe for water supply. The filter is attached to the air supply hoses and the water supply hose using screw-on fittings. The utility model improves the efficiency of water purification, simplifies the operation of the filter and saves consumables.

Description

The utility model relates to devices for purifying air entering premises through the air conditioning system from gaseous pollutants.

From a verified information patent search, a method is known (B.V. Nekrasov, Fundamentals of General Chemistry. M.: Chemistry. 1973, p. 569) of purifying air from carbon dioxide using soda lime, which is a mixture of two parts by weight of CaO and one part by weight parts of NaOH. To do this, calcium oxide is impregnated with an appropriate amount of saturated sodium hydroxide solution and, after drying and grinding, is used as a CO ₂ absorber. This type of absorber is used at room temperature and long-term temporary contact with the gas being purified, amounting to more than 10 seconds.

The disadvantage of this method is that the rate of sorption of carbon dioxide from the air on this mixture is low.

A sorption filter is known, containing a structurally integrated filter system, a tank and a regenerating solution circulation system located above filter elements with a filter material having hydrophilic properties, and separated by a perforated surface through the holes in which the regenerating solution is supplied. In this case, the perforated surface of the material is made of a polymer material, the pore size varies from 0.5 to 10 mm. The filter system includes adsorbents based on carbon, as well as a fibrous ion-exchange anion exchange material, which is CaO, and a fibrous cation exchange material, which is Al2(SO4)3 (Patent No. RU 180061, IPC B01D 29/62, Bulletin No. 16, 2018) .

The disadvantage of this device is that the rate of sorption of carbon dioxide on CaO in its pure form is relatively low, which reduces the efficiency of binding this gas and thus reduces the economic efficiency of the filter.

A scrubber is known (US 3909206, B01D 53/14, 09/30/1975, High performance carbon dioxide scrubber), designed to clean air from carbon dioxide using a filter system that includes a mixture of alkali metal hydroxide with a particle size of no more than 10 microns and polytetrafluoroethylene granules , the same size.

The disadvantage of this device is the significant hydrodynamic resistance of the system, associated with highly dispersed fragmentation of the adsorbent, which reduces the efficiency of the filter.

The closest to the proposed utility model in technical essence is a combined filter installation for air purification, containing along the air flow being purified an inlet pipe, a heating section, a coarse cleaning section, a fine cleaning section, an adsorber, two highly efficient cleaning sections and an outlet pipe. At the same time, filter materials are placed in the coarse, fine and highly efficient cleaning sections, there is a sorbent inside the adsorber, at least one heater is inside the heating section, and porous elements with through channels are located inside the mist eliminator (Patent RU No. 85101U1, IPC B01D 50/00, published on July 27 .2009).

The disadvantage of this device is that a decrease in the porosity of the filter materials along the flow of the purified air can cause compaction of the filter material, which will lead to a decrease in the volumetric flow rate of the purified air; the use of meshes as partitions reduces the holding capacity of the cassette in relation to air pollutants compared to fine-porous ones partitions, for example, with membranes. In addition, the use of heaters reduces economic costs.

To correct the shortcoming regarding the low rate of CO ₂ sorption, the soda mixture must be distributed on a heterogeneous system, which is a complex filter media based on a resin modified with a finely dispersed adsorbent, at the interface of which the soda mixture will interact with carbon dioxide.

The technical objective of the utility model is to improve the performance characteristics of a sorption filter for air purification by expanding its functionality due to the design of a plastic cassette, which is a cylindrical structure divided by membranes that allow water and air to pass through into three sections filled with filter media, the first of which is dried grinding of apricot kernels, soaked in soda lime and glued with xanthan gum, the second - dried grinding of cherry, or apple, or pear kernels, soaked in soda lime and glued with a mixture of xanthan and guar gums, the third - with a hygroscopic substance (silica gel, etc.).

The technical result consists in saving materials and increasing the efficiency of air purification from gaseous pollutants of atmospheric air.

This problem is solved through the following design features. Firstly, the sorption air purification filter contains several sequentially located sorption compartments filled with sorbents, each of which is aimed at removing predominantly certain atmospheric air pollutants, and a hygroscopic chamber that performs the function of binding wash water that has passed through the sorption compartments. Secondly, each compartment is connected to another compartment by a screw connection, which allows, if necessary, to replace the compartment with the spent sorbent, or to leave compartments aimed at removing predominantly one of the gases. Thirdly, the number of sorption compartments can be changed if it is necessary to increase the efficiency of purification from any polluting gas or group of gases. Fourthly, the uniform passage of purified air through the filter media is ensured by the presence of two membranes in each compartment that allow air and water to pass through. Fourthly, each compartment consists of a main part and a lid connected by a threaded connection, which allows the compartment to be reused, replacing the used filter media with fresh ones. Sixth, the cassette is connected to the water and air supply hoses, as well as to the air exhaust hose, using screw-on fittings, which eliminates the leakage of purified air.

In fig. Figure 1 shows a sorption filter for air purification - a vertical section; in fig. 2 - cross section.

The filter cassette includes an upper valve 5, equipped with a through air supply pipe 3 and a non-through water supply pipe 4 and connected by screw fittings 1 and 2 with an air supply hose and a condensed water hose, respectively, having a water tank 7 and connected by a threaded connection to the first sorption compartment 6 filled with one of the types of filter media 9 (for example, dried ground apricot, cherry, apple, pear seeds, impregnated with soda lime and glued with xanthan or gellan gum, as well as a mixture thereof) and equipped with transverse membrane partitions that allow water and air to pass through 8, 10 (for example, polypropylene spunbond). The first compartment, in turn, is connected by a threaded connection to the second sorption compartment 11, filled with one of the types of filter media 12, and equipped with transverse membrane partitions that allow water and air to pass through 13. The cassette requires the connection of the required number of sorption compartments. The last sorption compartment is connected by a threaded connection to an air drying chamber 14, filled with a hygroscopic substance (silica gel) 15 and equipped with a partition 16 made of a membrane that allows air to pass through but does not allow water to pass through (for example, meltblown or polyurethane foam). The air drying chamber is equipped with a threaded connection with a pipe 17, connected by means of a screw fitting 18 to the purified air supply hose.

The sorption filter nozzle works as follows.

The purified air, pumped by the air conditioner pump, enters through pipe 3, connected by a screw fitting 1 to the purified air supply hose, and located in the upper valve 5, into the first sorption compartment 6 of the cassette. Rinse water from the water supply hose, connected by a screw fitting 2 to the nozzle 4, passes into the reservoir 7 of the upper valve 5, from where it is supplied through the water-permeable membrane 8 into the first compartment 6 of the cassette. In this compartment, water and air interact with the filter media 9, after which they pass through the membrane partition 10 into the second compartment 11 and interact with the filter media 12, after which they pass through the membrane partition 13 to the next compartment. Having passed through the sorption compartments, the air and wash water enter the air drying chamber 14, where the wash water is absorbed by the hygroscopic reagent 15, and the purified air passes through the membrane 16 into the pipe 17, connected by a screw fitting 18 to the purified air supply hose. All structural elements are interconnected by a threaded connection, which minimizes the loss of purified air and water, and also helps to increase the reliability of the structure.

Improving the performance characteristics of the filter and saving consumables is achieved by using an inlet valve equipped with nozzles for supplying wash water and purified air, which ensures an increase in the degree of adsorption of air polluting gases due to their absorption by water, as well as the design of sorption compartments 6, 11, and similarly subsequent ones, and also an air drying chamber 14, in the form of a main part and a cover, connected to each other by means of threaded connections. In addition, connecting the compartments to each other via threaded connections allows you to vary the number of compartments in the cassette depending on the need to increase the degree of cleaning depending on the degree of air pollution. Reducing the losses of purified air and drainage water is achieved by connecting the supply and discharge pipes of water and air with screw fittings 1, 2, 18 to the hoses.

Claims (1)

An air purification sorption filter containing two cylindrical sorption compartments connected to each other, filled with various types of filter media, and valves for supplying purified air from the pump and water from the drainage, as well as removing purified air, differing in that there are two sorption compartments, consisting of a main part and a lid, connected by a threaded connection and having transverse membrane partitions, as well as an air drying chamber filled with a hygroscopic substance and equipped with transverse membrane partitions, one of which is permeable to air and water, and the other is permeable to air, but impermeable to water, while at the top of the filter there is a valve equipped with a through pipe for air supply and a non-through pipe for water supply; in addition, the filter is attached to the air supply hoses and the water supply hose using screw-in fittings.