SU1346207A1 - Filter for fine cleaning of air - Google Patents

Abstract

The invention relates to filtration equipment and can be used in the microbiological industry, in particular, in air purification systems supplied for aeration during the cultivation of microorganisms, and makes it possible to increase durability and maintainability. filter. The air fine filter comprises a housing with a cover and a bottom and a filter element mounted on a perforated cylinder, made of a set of horizontal hollow conical plates, each of which includes perforated plates combined with large bases with filter material placed between them. The inlet pipe and the drain pipe are coaxial to each other, and the lid is connected to the bottom with union bolts with bolts. The filter material is made of basalt cardboard with a hydrophobic impregnation with a thickness of at least 1.2 mm with a fiber thickness of 0.3 - 0.5 microns. The filter is equipped with a tightness control device. In addition, the filter element is equipped with spacer rings and clips, placed respectively in the central part of the plates and on the peripheral part of their outer surface. 3 hp .f-ly, 2 Il. "CO M

Description

The invention relates to filtration and can be used in the microbiological industry, in particular in air purification systems supplied for aeration during the cultivation of microorganisms, as well as in the purification of air emissions from fermenters.

The purpose of the invention is to increase the durability and maintainability of the filter.

FIG. 1 shows a filter, a general view, in FIG. 2 - filter element

The fine air filter consists of a cylindrical body, which is fixed to the bottom 2 by means of a traverse 3 and bolts 4 with a cover 1. The bottom of the filter is fitted with nozzles for inlet 5 and air outlet 6 and condensate drain 7. A filter element is placed in the filter housing hollow conical plates consisting of individual lentil-shaped cassettes 9 with filter material.

The sealing of the disk block to the bottom of the filter is carried out with the aid of flanges by bolts.

The determination of the tightness of the installation of the disk unit is carried out with the help of a nipple 10 and a pressure decay method.

The filter material 11 on the outside of the unit is protected by perforated plates 12. In the central part of each plate there is a spacer ring 13 installed. Sealing of the filter cassettes around the outer perimeter is carried out by means of sunset sleeves 14, and internally with gaskets 15 , set between separate cas: eta1chk, and the filter element is placed on a perforated cylinder 16.

The filter works as follows

The unpurified air enters the nozzle 5, passes through the filter 1vuy material 11 cassettes of lenticular shape and enters the filter housing. The purified air through the pipe 6 enters the corresponding ducts,

In the proposed device, a highly efficient filtering material is used, which is reproducible by repeated treatment with direct steam.

It has been found that, to a greater extent, these requirements are met by FMT brand basalt cardboard with a fiber diameter of 0.3-0.5 µm. In order to increase the service life of the filtering material (i.e., durability), it is recommended to use hydrophobic impregnation (polymethylhydrosiloxane).

When choosing a reasonable thickness of the filtering material, work was done to study the dependence of the permeability coefficient of basalt cardboard on the thickness of the filtering layer. In accordance with the requirements of asepsis in the microbiological industry, fine filters should have a permeability coefficient of no more than 1–10% for standard oil mist (SMT) to trap particles with a diameter of at least 0.3 µm, I

It was found that the optimum thickness of the filtering layer should be in the order of microns, while the permeability coefficient is -10%. An increase in the thickness of the filtering material leads to an increase in the aerodynamic resistance of the filters and, as a result, to unjustified energy costs. It is not possible to use smaller thicknesses of the filtering material, based on the requirements of asepsis.

In addition to the listed advantages, the selected filtering material (basalt cardboard) is also a very important property for microbiological production - it is chemically inert and as a result of exposure to acute water vapor, aggressive substances are not released.

In the proposed filter design, a device is proposed for monitoring the tightness of fastening the filter cassette to the filter bottom. This device improves the maintainability of the filter, because in a matter of minutes (min) the pressure drop is determined by the pressure drop method of this unit. This allows you to extend the life of the filter cassette and not to replace it earlier.

Improving the reliability (durability) of the filter is also achieved by the fact that the filtering material is protected from the outside by perforated metal plates, which increases the mechanical strength of the material.

The serviceability of the proposed filter design is achieved by the fact that the filter cassette consists of a set of lenticular cassettes that can be checked individually by the magnitude of the permeability coefficient and replaced accordingly. This gives a certain economic effect, since in this case there is no need to replace the entire filter cassette. only individual lentils.

The proposed fastening of the cover and the bottom by means of cross-arms significantly reduces the metal structure.

Claims (4)

1. A fine air filter, comprising a housing with a bottom and a lid, inlet, air outlet and condensate elbows, a perforated cylinder with a filter element attached to it, so that, in order to increase durability and maintainability the filter, the filter element installed in the lid is made of a set of horizontal hollow conical plates, each of which includes perforated plates with large bases combined with a filtering material placed between them, the inlet pipe is installed coaxially to the drain pipe, and the lid is connected to the bottom with cap screws with bolts , 2. The filter according to claim 1, characterized in that the filtering material is made of basalt cardboard with hydrophobic impregnation with a thickness of less than 1.2 mm with a fiber thickness of 0.3-0.5 µm. 0 3. Filter on PP. 1 and 2, characterized in that it is provided with a tightness monitoring device. 4. Filter on PP. 1-3, in order to eliminate material kinks, the filter element is provided with spacer rings and collars placed respectively in the central part of the plates and on the peripheral part of their outer surface. FIG. 2 12 Editor S.Patrusheva Compiled by N. Kovalev Tehred A. Kravchuk Proofreader A.Zimokosov Order 5073 / 8Discount 656Subscription VNISh of the USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab, 4/5 Production and printing company, Uzhgorod, st. Project, 4