RU2029604C1 - Device for cleaning gas by liquid - Google Patents

Abstract

FIELD: removing dust from gases. SUBSTANCE: drop catcher 6 is constructed as concentrically mounted rings 11 made up of angle with the top being positioned upward. The scraper unit is provided with scrapers 12 positioned under each ring of the angle drop catcher and secured to radial rods 13 of shaft 14. The bottom part of the shaft has radial scrapers 15 of slim collector 6. The inlet branch pipe 9 is tangentially mounted. EFFECT: enhanced quality of cleaning. 4 dwg

Description

 The invention relates to apparatus for wet purification of gases and can be used to clean gases from dust forming a compacted precipitate, as well as from other liquid and gaseous impurities.

 A device for gas purification is known, comprising a housing divided by vertical partitions with inclined trays into contaminated chambers and a purified gas chamber, in which contact elements are installed made in the form of curved plates convex to an outlet pipe located in the upper part of the housing and installed in pairs with a gap between each pair of plates, decreasing to the outlet pipe, and a V-shaped guide is installed above the plates [1].

 The disadvantage of this device is the growth of sludge deposits in the sludge trap, the removal of which is very difficult. Slurry deposits are also formed on the droplet separator plates, which worsens the operating conditions of the device.

 Closest to the proposed device is a gas purifier comprising a housing divided into chambers of cleaned and contaminated gas, a separation chamber, a sludge collector, curved channels connecting the separation chamber to a sludge collector, and a scraper conveyor with a traction body located in the channels, the lower branch of the conveyor adjacent to the bottom of the sludge trap, and the top is placed in the separation chamber [2].

 The disadvantage of this device is the design complexity. In addition, the device has significant dimensions and does not have sufficient reliability in operation due to the many rubbing pairs working in an aggressive environment, which does not exclude the possibility of jamming of the conveyor.

 The result of the invention is to simplify the design and increase the reliability of the device in operation.

 The result is achieved due to the fact that in the device for gas purification, which includes a housing divided into chambers of cleaned and contaminated gas, a separation chamber, a sludge collector, a droplet eliminator, a scraper device for cleaning the sludge collector and a droplet eliminator with a drive, the inlet and outlet nozzles, the droplet eliminator is made in the form concentrically mounted rings from the corner profile with the top up, and the scraper device is equipped with scrapers located under each ring of the corner droplet eliminator, attached to shaft rods, the lower part of which is equipped with radial scrapers of the sludge trap, and the inlet pipe is installed tangentially.

 In FIG. 1 shows a diagram of the inventive device for gas purification; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 1 (increased); in FIG. 4 is a cross-section BB in FIG. 1.

 The gas purification device comprises a housing 1, divided into chambers 2 and 3 of contaminated and purified gas, a separation chamber 4, a sludge collector 5, a droplet eliminator 6, a scraper device 7 for cleaning the sludge collector 5 and a droplet eliminator 6, an actuator 8, an input 9 and an output 10 nozzles. Drop eliminator 6 is made in the form of concentrically mounted rings 11 from the corner profile with the top up. The scraper device 7 is equipped with scrapers 12 located under each ring 11 of the angle droplet eliminator 6 in the recess of the corner. The scrapers 12 are attached to the radial rods 13 of the shaft 14, the lower part of which is provided with radial scrapers 15 of the sludge collector 5. The inlet pipe 9 is installed tangentially. The purified gas chamber 3 is cylindrical and provided with cone-shaped contact elements 16, and the chamber 3 is mounted on a conical partition 17. The sludge trap 5 is equipped with a nozzle 18 for discharging sludge.

 A device for gas purification works as follows.

 The contaminated gas through the tangential inlet pipe 9 is fed into the chamber 2, where it acquires a rotational movement, under the action of which large fractions of dust are thrown to the wall of the housing 1 and slide down. Rotating gas collides with the surface of the liquid, causes its rotation under the action of friction and enters the cavity of the chamber 3, where it forms a flowing upward flow of liquid, as a result of which intensive contact of the gas with the liquid takes place. In this case, the dust binds, and other liquid and gaseous impurities are absorbed by the liquid. Elements 16 enhance the interface surface. The liquid with the cleaning products is thrown onto the walls of the chamber 3 and flows down, and the purified gas passes through the droplet eliminator 6, is separated from the droplet liquid and is sent to the consumer through the outlet pipe 10. During operation of the device, the lower part of the rings 11 (troughs of the corners) is covered with a layer of sediment and requires cleaning. To do this, the drive 8 rotates the shaft 14 with the scrapers 12 attached to the radial rods 13. The scrapers 12 scrub the sediment during its rotation, the clods of which are discharged through the conical baffle 17 into the chamber 13 and then into the sludge collector 5. At the same time, the sediment compacted on the walls of the sump 5, is scraped off by radial scrapers 15 during rotation of the shaft 14.

 Scraper devices of various designs are widely used in the filtration technique, however, the implementation of the droplet eliminator in the proposed device in the form of concentrically mounted rings from the corner profile with the top up, placing the scrapers under each ring of the angle droplet eliminator, attaching the scrapers to the radial shaft rods, supplying the bottom of the shaft with radial scrapers of the sludge collector and installation of the inlet pipe tangentially gives the device new positive properties: simplify its design and increase operation In reliability.

 The technical and economic efficiency of the device compared to the prototype is to simplify its design by eliminating the complex scraper conveyor and replacing it with a shaft with radial rods equipped with scrapers in contact with the corners of the drip catcher, as well as radial scrapers of the sludge collector. Simplification of the design allows to reduce the cost of the device by 25-30% and significantly increase its operational reliability by reducing the number of rubbing pairs and mounting the scrapers on the drive shaft.

Claims (1)

 WET GAS CLEANING DEVICE, comprising a housing divided into cleaned and contaminated gas chambers, a separation chamber, a sludge collector, a scraper device equipped with scrapers located in the sludge collector, a droplet eliminator, an inlet and outlet nozzle, characterized in that the droplet eliminator is made in the form of angular profile rings concentrically mounted with the top up, the scraper device has the form of a drive shaft with radial rods and is equipped with additional scrapers attached to the rods and once placed under each droplet eliminator ring, while the scrapers of the sludge collector are made radial and installed in the lower part of the shaft, and the inlet pipe is brought tangentially.

Images