RU2029605C1 - Device for cleaning gas - Google Patents

Abstract

FIELD: removing dust from gases. SUBSTANCE: device has housing 1 and inlet branch pipe 2 with central pipe 4. Two caps 4,5, which define circular nozzle 6, are mounted at the bottom end of the central pipe for permitting vertical movement. The nozzle has the cross-section in the form of Venturi with deflector 7. There is a unit for control of the nozzle cross-section constructed as rods 8 which connects top 4 and bottom 5 caps, dissector 11 secured to bottom cap 5, float 9 coupled with bottom cap 5, drop catcher 12, and outlet branch pipe 13. Deflector 7 is split to define separately rotating parts. The parts are pivotally connected over periphery of the top cap for rotation in vertical plane and are spring-loaded. The top part of the rods are connected to the deflector parts through a lever. The dissector has the ejecting openings with flanges. EFFECT: enhanced quality of cleaning. 2 cl, 4 dwg

Description

 The invention relates to techniques for cleaning gases from dust and toxic gaseous components and can be used in chemical, energy and other industries.

 A device for wet gas purification, comprising a housing with a lid, a droplet eliminator, an inlet pipe including an upper and lower bowl, and on the upper bowl with a smaller base, a reverse truncated cone with a chipper is strengthened, and the lower cup is made of consecutively installed reverse truncated cones forming with a reverse truncated cone of the upper bowl circular nozzle with a bore in the form of a venturi [1].

 The disadvantage of this device is the low efficiency of gas purification due to the insufficient degree of wetting in the venturi.

 The closest is a gas purification device, including a housing with a lid, gas inlet and outlet nozzles and a hopper for flushing liquid and sludge, upper and lower bowls forming a circular nozzle with a cross section in the form of a Venturi pipe, a droplet eliminator; the upper bowl is made in the form of forward and reverse truncated cones, and the lower one is in the form of a reverse truncated cone, and the droplet eliminator is equipped with a vertical cylindrical nozzle mounted on the upper bowl, placed on the lower bowl with a direct perforated cone and a truncated cone connected in series, while the vertical nozzle and the straight cone of the lower bowl form the confuser part of the venturi, the straight truncated cone of the upper bowl is perforated, and the float and divider are mounted on the lower bowl, tboynik a visor reinforced upper perimeter of the bowl [2].

 The disadvantage of this device is that to adjust the cross-section of the venturi, it uses nuts with bolts connecting the cups to each other. In order to adjust the gap between the cups, it is necessary to stop the gas cleaning process, partially disassemble the device and adjust the gap by turning the nuts in one direction or another. However, such adjustment is only possible with a constant gas flow rate. With a variable gas flow rate, the optimal gas velocity through the venturi is not created, which does not provide the required quality of cleaning. In addition, a divider mounted on the lower bowl is not used as a surface for additional gas irrigation, which makes the degree of gas wetting insufficient.

 The technical result of the invention is to improve the quality of gas purification.

 This result is achieved due to the fact that in the gas purification device comprising a housing, an inlet pipe with a central pipe equipped with two bowls mounted for vertical movement and forming a circular nozzle with a cross-section in the form of a Venturi pipe with a baffle in the form of a visor, is strengthened along the perimeter of the upper bowl, and a device for adjusting the nozzle section in the form of rods connecting the upper and lower bowls, a divider mounted on the lower bowl, a float connected to the lower bowl, a drop and the catcher outlet. The visor is made split with the formation of individual rotary sections, pivotally mounted around the perimeter of the upper bowl with the possibility of rotation in the vertical plane and spring-loaded, and the upper part of the rods is connected via a lever with the rotary sections of the peak.

 The result is also achieved by the fact that the divider is made with ejection holes with flanges.

 In FIG. 1 shows a diagram of a device, a General view; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - node I in FIG. 1; in FIG. 4 - node II in FIG. 1.

 A gas purification device comprises a housing 1, an inlet pipe 2 with a central pipe 3, cups 4 and 5, forming a circular nozzle 6 with a cross section in the form of a Venturi pipe with a chipper in the form of a visor 7 and a device for adjusting the nozzle cross section in the form of rods 8 connecting bowls 4 and 5. Bowls 4 and 5 are placed one above the other and mounted on the lower part of the pipe 3 with the possibility of vertical movement with a float 9 mounted on the lower bowl 5 and a pipe 10 telescopically mounted with the pipe 3. A divider is mounted on the lower bowl 5 11 sweat ok. A droplet eliminator 12 and an outlet pipe 13 are placed in the upper part of the housing. The visor 7 is made split to form separate rotary sections 14 fixed by a hinge 15 to the perimeter of the upper bowl 4. The sections 14 are mounted for rotation in a vertical plane and are equipped with springs 16. The upper part of the rods 8 is pivotally connected to a lever 17, which at the other end is rigidly fixed to section 14. It is advisable that the divider 11 was provided with ejection holes 18 with flanges 19. The lower part of the housing 1 is provided with Cuttings 20 to drain the fluid. The bowl 4 is provided with ejection openings 21, and the bowl 5 has openings 22. In the lower part of the housing 1 there is a liquid.

 The device operates as follows.

 The contaminated gas is supplied through the pipe 2 to the central pipe 3, from where it is directed by the divider 11 into the circular nozzle 6, where liquid is ejected through the openings 21 and 22 and is intensively washed. Next, the gas-liquid mixture hits the visor 7 and is thrown to the side of the liquid mirror, where liquid droplets with trapped impurities are separated, and the purified gas rushes up, the droplet eliminator 12 passes through the nozzle 13 and is sent to the consumer. The liquid flowing from the drip tray 12 to the upper bowl 4 is again sucked into the gas stream through the openings 21.

 Automatic adjustment of nozzle section 6, i.e. the gap between the cups 4 and 5, to ensure optimal gas flow rate when passing through the nozzle is as follows.

 With an increase in the flow rate of the gas to be cleaned, the portions 14 of the visor 7 under the influence of increasing the gas pressure turn up and push the rods 8 down, compressing the spring 16 and thereby raising the cup 4 relative to the stationary cup 5, which increases the gap between the cups. Since the increased gas flow rate is carried out through the increased gap in the nozzle, its speed does not increase and is constantly in optimal values. With a decrease in gas flow, its pressure on sections 14 decreases, which, under the influence of the elastic forces of the extending spring 16, turn down, and the cup 4 goes down to the stationary cup 5, which reduces the gap between the cups.

 Thus, the gas velocity remains in the optimal range. Due to the fact that the lower bowl 5 is placed on the float and connected to the upper bowl 4 and the nozzle 10, when the liquid level changes, the bowls 4 and 5 also change their height position, which ensures the reliability of the device. In the event that the divider 11 is provided with openings 18 with flanges 19, gas moving along the walls of the divider 11 ejects liquid through these openings, which is partially sprayed in the stream, and partially flows in the form of a film along the inclined wall of the divider to the flange 19 located below. breaks off the lower edge of the flanging and is sprayed in the gas stream.

 The device allows to improve the quality of gas purification by ensuring the optimal speed of gas through the nozzle at a variable gas flow rate, as well as by increasing the intensity of gas irrigation during ejection of liquid through openings with flanges located on the divider.

Claims (2)

 1. DEVICE FOR CLEANING GAS, comprising a housing, an inlet pipe with a central pipe provided at the lower end, mounted with the possibility of vertical movement of the upper and lower bowls, arranged to form between them a circular nozzle with a cross section in the form of a Venturi pipe, a chipper in the form of a visor, mounted around the perimeter of the upper bowl, a device for regulating the nozzle section connected to the upper and lower bowls, a divider mounted on the lower bowl, a float connected to the lower bowl, a drop eliminator and an outlet a pipe, characterized in that the device for regulating the cross section has the form of rods, wherein the visor is made split with the formation of separate sections pivotally mounted along the edge of the upper bowl with the possibility of rotation in the vertical plane and spring-loaded, and the upper part of the rods is connected via a lever to the rotary sections of the visor .  2. The device according to claim 1, characterized in that the divider has ejection openings with flanges.

Images