RU210049U1 - Granular filter with perforated granules for gas cleaning - Google Patents

Abstract

The utility model relates to filtering technology and can be used in various industries for gas purification from aerosol particles. represents perforated granules with a diameter of 5 mm with a diameter of perforation holes of 2.125-2.875 mm; filter material thickness 2 cm; the length of the inlet and outlet auxiliary pipes is 1 and 4 cm, respectively. The body and nozzles are made of polyurethane foam or metal. Spherical granules can be made of ceramic, polyactide or carbon. The technical result is to increase the efficiency of particle deposition.

Description

This utility model relates to filter technology and can be used in various industries for gas purification from aerosol particles.

Known filter material and filter for water purification, the granules of the filter material are porous with a pore size of 1 to 40 microns and a diameter of 0.1-2.0 mm and contain components at, wt. %: silicon dioxide - 10-89, carbon - 10-89, silver - 1 [Patent RU102195, IPC B01D 24/16, B01D 39/06, publ.20.02.2011]. The particle size of silicon dioxide and carbon is 0.5-80 nm, and that of silver is 20-80 nm. The design of the filter includes a vertical cylindrical body with inlet and outlet fittings and, installed in the body, upper and lower perforated drainage baffles with granular filter material placed between them, the lower drainage baffle is spring-loaded. Drainage baffles can be provided with a silver coating. The inlet and outlet fittings are placed coaxially with the housing axis.

Known filter-sorber bulk type for cleaning process air, consisting of a cylindrical body, bottom, removable cover, bottom and top cassette plates, at least one channel corresponding to the position of the sorbent in the cassette, inlet and outlet pipes mounted on the body sorber filter, and at least one cassette placed vertically inside the sorber filter housing [Patent RU85362, IPC B01D 53/04, publ. 10.08.2009]. The cassette is installed between the lower and upper cassette plates with end parts resting in them, has a cylindrical body and is equipped with a sorbent. The inlet pipe is located above the upper cassette plate, and the outlet pipe is located under the lower cassette plate. In particular cases of bulk-type filter-sorber, firstly, granulated organic material of the SKT-3 brand and (or) silica gel of the KSKG type is used as a sorbent, secondly, the upper and lower layers of the sorbent are silica gel of the KSKG type, and an intermediate layer of a sorbent - the granulated organic material of the SKT-3 brand.

In addition, a granular filter with porous granules for water and gas purification is known, which includes a vertical cylindrical body with inlet and outlet nozzles filled with granular filter material, which is porous spherical granules with a diameter of 5 mm, a pore diameter of 1.9 mm, a total porosity environment ε=0.63 5 [Patent RU206834, IPC B01D 24/10, B01D 39/02, B01D 46/30, publ. 29.09.2021]. The body and pipes are made of polyurethane foam. Porous spherical granules can be made of ceramic, polyactide or carbon.

The disadvantages of these analogues are the complexity of the design, the reduced efficiency of particle deposition due to the use of granules without holes in the design [Patent RU85362, IPC B01D 53/04, publ. 10.08.2009] and the complexity of manufacturing porous granules [Patent RU102195, IPC B01D 24/16, B01D 39/06, publ.20.02.2011; Patent RU 206834, IPC B01D 24/10, B01D 39/02, B01D 46/30, published 09/29/2021].

Closest to the utility model in terms of technical essence and the achieved result is a bulk filter with a regeneration system designed for dry cleaning of gases from dust, consisting of a cylindrical body, an inlet fitting for introducing a dusty stream, an outlet fitting for the outlet of purified gas, a two-layer filter cassette, consisting of two layers with different granule sizes of the filter material: the first layer along the flow with a granule size of 3-6 mm, the second layer with a granule size of 1-3 mm, separated by a perforated partition, bounded from below by a perforated bottom, divided into two sections that open down and are fixed with the help of retaining sliding shelves on the movable shaft with the help of movable supports; a block of perforated purge tubes mounted on a rod for raising and lowering a block of perforated purge tubes; nozzles for filling new filter material [Patent RU 2629683, IPC B01D 53/00, B01D 24/04, publ. 31.08.2017].

The disadvantages of this utility model are the complexity of the design and the reduced efficiency of particle settling due to the use of granules without holes in the design of the filter.

The objective of the utility model is to develop a granular filter with perforated granules, in which the disadvantages of the prototype are eliminated.

The technical result is to increase the efficiency of particle deposition.

The technical result is achieved by the fact that the granular filter with perforated granules for gas purification contains a cylindrical body with a diameter of 2 cm with auxiliary nozzles filled with filter material, according to the proposed utility model, the filter material is perforated granules with a diameter of 5 mm with a diameter of perforation holes of 2.125-2.875 mm ; filter material thickness 2 cm; the length of the inlet and outlet auxiliary pipes is 1 and 4 cm, respectively. The body and nozzles are made of polyurethane foam or metal. Spherical pellets can be made from ceramic, polyactide or carbon.

In FIG. 1 (a, b) shows a granular filter with perforated granules for gas purification in a collapsible form.

The proposed granular filter works as follows. The flow of gas with aerosol particles through the nozzle enters the cylindrical housing of the proposed mechanical filter for cleaning. To form a gas flow, an inlet pipe 1 cm long is located before the packing of the granules, and an outlet pipe 4 cm long is located after the granules. Fig. 2). Numerical parametric calculations showed that these hole diameters are the most optimal (Fig. 3 and 4, where E is the efficiency of particle deposition; S _b is the average surface area of the layer of granules, mm ₂ ; d _h is the diameter of the perforation hole of the granule , mm; d _p - diameter of the aerosol particle, m). The body and pipes are made of polyurethane foam. Spherical pellets can be made from ceramic, polyactide or carbon. The dimensions of the filter design elements and the materials from which the housing and nozzles are made can be changed depending on the filter system.

Perforated granules with a perforation hole diameter of 2.125-2.875 mm provide high settling efficiency with particle diameters of 7⋅10 ^-6 -1⋅10 ^-3 m, in contrast to granules without perforation (Fig. 3).

By perforating the granules, a large surface area of the granule layer is provided. In FIG. 4 is a plot of the mean surface area of a layer of perforated pellets as a function of pellet aperture diameter. Particles additionally settle on the inner surface of the granules.

The advantages of this utility model are that perforated granules are technologically easier to manufacture than porous ones, and that a high surface area is maintained. In addition, the filter is distinguished by its lightness and simplicity of design.

Thus, it can be concluded that granules with aperture modifications improve the filtering properties of the granular filter. With a perforation hole diameter of 2.125-2.875 mm, the granular filter with perforated granules for gas purification provides an increase in the settling efficiency for particles with a diameter of 7⋅10 ^-6 -1⋅10 ^-3 m, in contrast to granules without holes.

Claims (6)

1. A granular filter with perforated granules for gas purification, which includes a cylindrical body with auxiliary inlet and outlet nozzles, filled with granular filter material, characterized in that the granular filter material is spherical perforated granules with a diameter of 5 mm with a perforation hole diameter of 2.125-2.875 mm; filter material thickness 2 cm; body diameter is 2 cm, the length of the inlet and outlet auxiliary pipes is 1 and 4 cm, respectively. 2. A granular filter with perforated granules for gas purification according to claim 1, characterized in that the body and nozzles are made of polyurethane foam. 3. A granular filter with perforated granules for gas purification according to claim 1, characterized in that the body and nozzles are made of metal. 4. Granular filter with perforated granules for gas purification according to claim 1, characterized in that the spherical granules are made of ceramics. 5. Granular filter with perforated granules for gas purification according to claim 1, characterized in that the spherical granules are made of polyactide. 6. Granular filter with perforated granules for gas purification according to claim 1, characterized in that the spherical granules are made of carbon fiber.

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