RU2553304C2 - Scrubber - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: scrubber contains a casing, nozzle for aerosol supply with tangential direction relatively to the cylindrical casing, a cleaned gas removal nozzle, liquid supply pipe, adsorber with drain nozzle, tray with liquid drain nozzle to adsorber, blade separator. In near axis zone of the blade separator a liquid supply nozzle from the adsorber to the internal cavity is installed, spraying via the dosing holes is provided. In the casing above the blade separator and liquid supply pipe additionally the perforated tray is installed, it is filled with drier. The perforated tray is filled with silicate chips used as drier.

EFFECT: increased quality of gas cleaning.

2 cl, 1 dwg

Description

The invention relates to a technology for separating particles by wet methods, in particular to gas purification using a liquid as a separating agent, and can be used to solve environmental problems.

A device for wet cleaning of gases is known, comprising a cylindrical body, a gas supply pipe, over which an emulsification initiator, made in the form of a disk element, is mounted coaxially with the body, the irrigation fluid enters the latter through a dispenser. The emulsifier initiator forms an annular gap with the wall of the housing, in which an annular blade swirler is placed. The gas supply pipe is at the same time a tangential swirl of the gas to be cleaned (Patent RU No. 2086293 C1. Method for wet gas purification and device for its implementation (options). - IPC: B01D 47/04. - 08/10/1997).

A device for wet cleaning of gases, comprising a housing, a hopper filled with liquid, an inlet and outlet nozzles for gas, a confuser and a static swirl placed in the lower part of the inlet nozzle. A hollow cylindrical-conical perforated fairing is installed in the inlet pipe, the inner cavity of which is divided by shelves into chambers in communication with the hopper fluid by means of coaxially mounted ejection tubes. Perforation in the walls of the fairing was made with a change in the live section and / or size of the holes along the gas (Copyright certificate SU No. 1681920 A1. Device for wet gas cleaning. - IPC: B01D 47/10. - 07.10.1991. Bull. No. 37).

A device is known for wet cleaning of gases from dust, including the lower and upper parts of the apparatus, nozzles for supplying and discharging liquid and gas, a plate, a nozzle for transferring liquid from a plate to the lower part of the apparatus, a vortex contact device consisting of a cover, a bottom, plates and a separator. In the bottom of the vortex contact device in the axial region there is a nozzle for supplying liquid from the lower part of the device to the inner region of the vortex contact device (Patent RU No. 2400289 C2. Device for wet cleaning of gases from dust. - IPC: B01D 47/02, B01D 47/06. - September 27, 2010). This invention is taken as a prototype.

The main disadvantage of the known technical solutions is the low quality of gas cleaning, affecting the ecology of the environment.

The main task, to the solution of which the claimed technical solution is directed, is to improve the quality of gas purification and environmental protection.

The technical result achieved by the claimed technical solution is to improve the quality of gas purification and preserve the ecology of the environment.

The specified technical result is achieved by the fact that in a known gas scrubber comprising a housing, a nozzle for supplying an aerosol flow with a tangential direction to the cylindrical body, a pipe for removing purified gas, a pipe for supplying a liquid, an adsorber with a drain pipe, a plate with a pipe for draining the liquid into an adsorber, a blade separator , in the axial region of which there is a pipe for supplying liquid from the adsorber to the inner cavity of the blade separator with spraying through the metering holes, according to the proposed technical solution,

in the case above the blade separator above the pipe for supplying liquid, a perforated plate filled with a hydrophilic substance is additionally installed;

as a hydrophilic substance, the perforated plate is filled with silicate chips.

The analysis of the prior art carried out by the applicant made it possible to establish that there are no analogues characterized by sets of features identical to all the features of the claimed scrubber. Therefore, each of the claimed technical solutions meets the condition of patentability "novelty."

The search results for known solutions in the art in order to identify features that match the distinctive features of the prototypes of the claimed technical solution have shown that they do not follow explicitly from the prior art. From the prior art determined by the applicant, the influence of the transformations provided for by the essential features of the claimed technical solution on the achievement of the specified technical result is not revealed. Therefore, the claimed technical solution meets the condition of patentability "inventive step".

The claimed technical solution can be successfully used in various industries to solve environmental problems. Therefore, the claimed technical solution meets the condition of patentability "industrial applicability".

The figure schematically shows the inventive gas scrubber.

The gas scrubber comprises a housing 1, a nozzle 2 for supplying an aerosol with a tangential direction to the cylindrical housing 1, a nozzle 3 for removing the purified gas, a pipe 4 for supplying liquid, an adsorber 5 with a pipe 6 for draining waste, a plate 7 with a pipe 8 for draining the liquid into the adsorber 5, and a blade a separator 9, in the axial region of which a nozzle 10 for supplying liquid from the adsorber 5 to the inner cavity of the separator 9 is installed with spraying liquid through the metering holes 11. In the housing 1 above the separator 9 above the pipe 4 for supplying liquid perforated plate 12 become filled with a hydrophilic substance 13 with low resistance, e.g. silicate crumb.

The gas scrubber operates as follows.

The aerosol stream enters the adsorber 5 through the nozzle 2 with a tangential direction to the cylindrical body 1, in which the aerosol stream swirls and the liquid rotates under the action of friction against the gas stream, expanding the adsorption surface due to the action of centrifugal forces in the liquid, where gas impurities are adsorbed that settle into the liquid. As a result of the swirling of the gas stream in the axial region of the blade separator 9, a vacuum is formed, under which the liquid 10 rises from the adsorber 5 into the internal cavity of the separator 9 and is sprayed through the metering holes 11, thereby irrigating impurities in the gas stream flowing through the cavity of the separator 9 in which there is a mixture of gas impurities with the irrigated liquid and the final wetting of gas impurities. Then, the liquid with trapped impurities, passing through the separator 9, passes under the action of centrifugal forces from the sprayed state to the film state and is separated from the gas stream, then, under the action of gravity, it settles in liquid form into the plate 7, from which it flows down the pipe 8 into the adsorber 5. So the gas is cleaned of large impurities. After separation, the finely dispersed aerosol is additionally subjected to coalescence by passing it through a hydrophilic substance 13 with low hydraulic resistance, for example, silicate chips, in a perforated plate 12. Passing through the hydrophilic substance 13, the finely dispersed aerosol is cleaned of both solid and liquid fine dispersions, the latter are poured into drops of liquid and under the action of gravity through the perforations in the plate 12 flow into the plate 7, from which with the liquid and impurities present in it flow over the pipe 8 in a sorber 5. After clarification, fluid re-enters the pipe 10, forming a closed loop, and settled impurities through the conduit 6 is sent to waste.

Such a gas scrubber can significantly improve the quality of gas scrubbing and preserve the ecology of the environment.

Claims (2)

1. A gas scrubber comprising a housing, an aerosol flow inlet pipe with a tangential direction to the cylindrical housing, a purified gas outlet pipe, a liquid supply pipe, an adsorber with a drain pipe, a plate with a liquid discharge pipe in an adsorber, a blade separator, in which a pipe is installed in the axial region supplying liquid from the adsorber to the inner cavity of the blade separator with spraying through the metering holes, characterized in that in the housing above the blade separator above the pipe for supplying liquid ti is further installed a perforated plate, filled with hydrophilic substance. 2. The gas scrubber according to claim 1, characterized in that the perforated plate is filled with silicate crumb as a hydrophilic substance.