RU2275230C2 - Device for purifying contaminated air - Google Patents

Abstract

FIELD: separation.

SUBSTANCE: device comprises dust catcher, adsorber, and sucking device connected via the through passage for supplying air with inlet and outlet branch pipes and mounted on the individual section of the movable platform for permitting mutual connection. The device is provided with the additional section of the movable platform provided with the lock device for connecting with the main sections. The additional section is provided with the device for fine purification of air, which is mounted downstream of the adsorber. The device for fine purification is made of housing that receives vertical grids whose mesh size does not exceeds 0.6 mm. The layers of chemical absorbers are interposed between the grids. The layers catch harmful gases that are generated during welding. The thickness of each layer is 50-80 mm. The specific gas loading of each of the layers does not exceed 1.5 l/min cm². The device for fine purification of air is provided with the mechanism for discharging of the exhaust chemical absorbers.

EFFECT: enhanced quality of purification.

1 cl, 1 dwg

Description

The present invention relates to techniques for cleaning polluted air and can be used to clean air from gaseous and aerosol harmful substances in chemical, petrochemical and other industries.

A known installation for purifying polluted air, comprising a dust collector, an adsorber and a suction device arranged in a technological sequence, is connected through a feed channel for the cleaned air to the inlet and outlet nozzles (see EP 0909577 A2, class B 01 D 53/04, 1998) .

The closest in technical essence and the achieved result is the installation for the purification of polluted air, containing a dust collector, an adsorber and a suction device located in the technological sequence, connected by a through channel for supplying cleaned air to the inlet and outlet nozzles and installed each on a separate section of the mobile platform with the possibility of mutual connection (see patent RU 2194565 C1, CL B 01 D 53/04, 2002).

A disadvantage of the known installations is the low quality of purification of polluted air due to the accumulation of solid aerosol particles in the dust collector.

In addition, during welding, chemically harmful gases, such as CO, NO _x , HF, enter the air.

The objective of the present invention is to improve the quality of purification of polluted air.

The problem is solved due to the fact that the installation for the purification of polluted air, containing a dust collector, an adsorber and a suction device arranged in a technological sequence, connected by a through channel for supplying cleaned air to the inlet and outlet nozzles and each installed on a separate section of the mobile platform with the possibility of mutual connection, is equipped an additional section of the mobile platform with locking devices for connecting to the main sections and the device mounted on it m of fine air purification, installed in the technological chain after the adsorber, made in the form of a housing with sequentially vertically installed grids in it, the cells of which have a size not exceeding 0.6 mm, and layers of chemical absorbers trapping harmful gases generated during welding located between them works, and the thickness of each layer is 50 ÷ 80 mm, while the specific gas load of each of the layers does not exceed 1.5 l / min · cm ² , and the device for fine purification of polluted air is equipped with mechanisms loads of used chemical absorbers.

In the proposed installation for the purification of contaminated air, chemical absorbers such as GFG hopcalite according to TU-6-16-2432-80, chemosorbents KSPK (chemisorbent based on potassium permanganate) or KhSPB (chemisorbent based on barium permanganate) can be used.

The technical result of the invention is to improve the quality of purification of polluted air, since chemically harmful gases generated during welding, such as CO, NO _x , HF, getting on the chemical absorbers of the fine air purification device, are adsorbed by them and removed from the air.

The drawing shows the described installation for cleaning polluted air.

The installation comprises a dust collector 1, an adsorber 2, a device for fine air purification 3 and a suction device 4 connected by a through channel 5 for supplying cleaned air to the inlet 6 and outlet 7 pipes. In front of the outlet pipe 7, a throttle washer 8 is installed to regulate the hydraulic resistance of the installation. The dust collector 1, the adsorber 2 and the suction device 4 are mounted each on a separate section of the mobile platform, respectively 9, 10, 11. A fine air purification device 3 is installed on the additional section 12 of the mobile platform.

Sections 9, 10, 11, 12 of the mobile platform have locking devices 13 for interconnecting the sections.

In the dust collector 1, horizontal filters 14 and their cleaning devices 15 are installed, connected to a source of compressed air.

The dust collector 1 and adsorber 2 are equipped with sludge discharge mechanisms.

The fine air purification device 3 comprises a housing 16 in which grids 17 are installed vertically successively, the mesh size of which does not exceed 0.6 mm. Between the grids 17 are filled chemical absorbers.

For example, for capturing carbon oxides CO himpoglotitelya used as hopcalite GFG, for trapping nitrogen oxides NO _x - chemisorbent based on potassium permanganate (HSPK) and for trapping hydrogen fluoride HF - chemisorbent based on barium permanganate (HSPB).

In the lower part of the housing of the fine air purification mechanisms 18 are installed unloading of used chemical absorbers.

Installation works as follows.

Air contaminated with solid and gaseous aerosols of poisonous and other harmful substances is drawn from the treated room with a vacuum of up to 5.0 kPa, created by the suction device 4, through the inlet pipe 6 of the through channel 5, and enters the dust collector 1. In this case, solid particles are trapped on the surface of the filters 14. As the filter elements become dirty, their hydraulic resistance increases. Upon reaching the filter resistance of a certain value, they are purged with compressed air with a pressure of 0.5 ÷ 0.6 MPa from an autonomous source in countercurrent to the suction direction. Particulate matter is blown off the surface of the filter cartridges and collected in a hopper, which is periodically emptied. Thus, the contaminated air is cleaned from dust and solid aerosols generated during welding.

Further, the air containing vapors of toxic substances and harmful gases generated during welding works passes through channel 5 to the adsorber, where vapors of toxic substances are actively absorbed by a sorbent having a highly porous structure and high sorption capacity.

Further purification of air from harmful gases generated during welding takes place in a fine air purification device, when air from the adsorber enters through the through channel 5. In the device, harmful gases are absorbed by the corresponding layers of various chemical absorbers, selected depending on the composition of the air. So, carbon oxides are absorbed by HFH hopcalite, nitrogen oxides are absorbed by HSPK chemisorbent, and hydrogen fluoride is absorbed by HSPB chemisorbent.

Control of air pollution leaving the outlet pipe 7, is carried out using gas analyzers. When registering the breakthrough of harmful substances, the corresponding chemical absorber is replaced.

Claims (2)

1. Installation for cleaning polluted air, comprising a dust collector, an adsorber and a suction device arranged in a technological sequence, connected through a feed channel of cleaned air to the inlet and outlet nozzles and installed each on a separate section of the mobile platform with the possibility of mutual connection, characterized in that it is equipped an additional section of the mobile platform with locking devices for connecting to the main sections and the device mounted on it thinly air purification, installed in the technological chain after the adsorber, made in the form of a housing with sequentially vertically installed grids in it, the cells of which have a size not exceeding 0.6 mm, and layers of chemical absorbers trapping harmful gases generated during welding located between them , the thickness of each layer is 50-80 mm, while the specific gas load of each of the layers is not more than 1.5 l / min · cm ² , and the device for fine air purification is equipped with discharge mechanisms of used chemical scavengers. 2. Installation for the purification of polluted air according to claim 1, characterized in that it uses chemical absorbers such as GFG hopcalite, chemisorbents based on potassium or barium permanganate