RU2629673C1 - Adsorber for air cleaning from mercurial vapours - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to equipment for adsorptive processes in the gas (vapour)-adsorbent system. In the adsorber for air cleaning from mercurial vapors containing a body with a cover and an adsorbent, the body and the cover are connected through a gasket with bolts and a nozzle is installed inside the body, coaxially with it, and surrounded by insulation of a soft heat-insulating basalt plate, and perforated disks are installed in the upper and lower parts of the nozzle. The cavity of the nozzle between the disks is filled with adsorbent granules of high adsorption capacity, which present activated carbon, impregnated with sulfur. There are grids laid between the disks and adsorbent. In the cover there is a branch pipe, which suppples polluted air, and in the body there is a branch pipe, which removes the air freed of mercury vapours.

EFFECT: possibility to increase the degree of gas flow purification from the target component due to the increase of the contact area of the adsorbent with the target component.

6 dwg

Description

The invention relates to equipment for carrying out adsorption processes.

The closest technical solution to the claimed object is an adsorber containing a housing with a lid and a bottom and an adsorbent layer located between them according to the RF patent No. 2464071, B01D 53/02 (prototype).

A disadvantage of the known adsorber is that it does not provide a high degree of purification of the gas stream from the target component and dust.

The technical result is an increase in the degree of purification of the gas stream from the target component by increasing the contact area of the adsorbent with the target component.

This is achieved by the fact that in an adsorber for purifying air from mercury-containing vapors containing a housing with a lid and an adsorbent, the housing and the lid are bolted through the gasket, and a glass is installed inside the housing, coaxially to it, around which insulation is laid from a soft heat-insulating basalt plate and in the glass, in the upper and lower parts, perforated disks are installed, while the volume of the glass between the disks is filled with adsorbent - a material in the form of granules with high adsorption capacity and vlyayuschim an activated carbon impregnated with sulfur, and between the discs and the adsorbent laid grid, wherein the lid is located pipe, contaminated air inlet, and in the case - a branch pipe discharging the purified air from mercury vapor.

In FIG. 1 is a diagram of an adsorber; FIG. 2-6 - embodiments of the adsorbent 3.

The adsorber for purifying air from mercury-containing vapors contains a housing 10 and a cover 8 connected by bolts through a gasket 9. Inside the case, coaxially to it, a glass 7 is installed, around which insulation from a soft heat-insulating basalt plate is laid. Perforated disks 2 and 4 are installed in the glass (in the upper and lower parts). The volume of the glass between the disks is filled with adsorbent 3, a material in the form of granules, which has high adsorption ability and is an activated carbon impregnated with sulfur. To prevent the adsorbent from waking up through the openings of the perforated disks, nets are laid between the disks 2 and 4 and the adsorbent 3. A cover 5 is located in the lid 8 for supplying contaminated air, and in the case 10 there is a pipe 11 for discharging air cleared of mercury vapor. Regeneration is carried out by sharp steam through the nozzle 1 located in the lower part of the housing.

An adsorber for purifying air from vapors of mercury-containing substances works as follows. Polluted air is supplied to the adsorber through the nozzle 5, passes through the adsorbent 3 and the cleaned is discharged through the nozzle 11. For regeneration, sharp steam is supplied through the nozzle 1.

The adsorber is used to purify air from vapors of mercury-containing substances, for example mercury-containing phosphor during the disposal of fluorescent lamps. The adsorber allows, together with the phosphor, to extract from each lamp at least 95 ... 97% of the mercury contained in it, which accumulates on activated carbon impregnated with sulfur.

It is possible to fulfill the shape of the adsorbent (Fig. 2) in the form of a cylindrical ring, on the lateral, internal and external surfaces of which a screw thread is made (not shown in the drawing) in opposite directions. It is possible to fulfill the shape of the adsorbent (Fig. 3) in the form of a ball, on the surface of which non-through holes are made hemispherical in shape (not shown in the drawing). It is possible to fulfill the shape of the adsorbent (Fig. 4) in the form of a ring, on the outer surface of which a helical surface is made like a plate auger. It is possible to carry out the adsorbent form (Fig. 5) in the form of at least a three-blade propeller.

It is possible to fulfill the shape of the adsorbent (Fig. 6) in the form of a cylindrical ring, on which two hemispherical surfaces are attached opposite to each other so that the diametrical planes of the hemispheres coincide with the upper and lower bases of the cylindrical ring, and the vertices of the hemispherical surfaces are on the axis of the ring and are directed towards each other, while perforation is performed both on the side surface and on hemispherical surfaces, and the space between the side is internally the surface of the perforated cylindrical ring and two perforated hemispherical surfaces attached to its side surface is filled with additional inert elements, for example, in the form of balls whose diameters are larger than the diameter of the perforation of the ring and hemispherical surfaces.

Claims (1)

An adsorber for purifying air from mercury-containing vapors containing a housing with a cover and an adsorbent, a housing and a cover are bolted through a gasket, and inside the housing, coaxially to it, a glass is installed, around which insulation is laid from a soft heat-insulating basalt plate, and in the glass, in the upper and lower parts, perforated disks are installed, while the volume of the glass between the disks is filled with adsorbent - a material in the form of granules with high adsorption ability and which is activated coal impregnated with sulfur, and nets are laid between the disks and the adsorbent, moreover, there is a nozzle in the lid supplying contaminated air, and in the case there is a nozzle that removes air cleaned from mercury vapor, characterized in that the adsorbent is made in the form of a cylindrical ring to the side the surfaces of which are opposite to each other, two hemispherical surfaces are attached in such a way that the diametrical planes of the hemispheres coincide with the upper and lower bases of the cylindrical ring, respectively, and the vertices are hemispherical surfaces are located on the axis of the ring and are directed towards each other, while perforation is performed both on the side surface and on hemispherical surfaces, and the space between the side inner surface of the perforated cylindrical ring and two perforated hemispherical surfaces attached to its side surface is filled with additional inert elements, for example, in the form of balls, the diameters of which are larger than the diameter of the perforation of the ring and hemispherical surfaces.

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