RU2027479C1 - Gas scrubbing device - Google Patents

Abstract

FIELD: power engineering, metallurgy, mechanical engineering and other industries; cleaning of flue and process gases and air loaded with mechanical and vapor-gas admixtures. SUBSTANCE: scrubbing device has housing whose lower part is filled with liquid, gas inlet branch pipe arranged in center of housing, gas outlet and slime outlet branch pipes, liquid feeder, attachment, sprinkler and drip pan. Sprinkler is made in form of continuous slot closed over perimeter by walls of channel, with liquid feed branch pipes. Sprinkler is arranged on converging tube of gas inlet branch pipes. Device has also another sprinkler arranged on attachment coaxially with gas inlet branch pipe. This sprinkler is made in form of continuous slot closed over perimeter by walls of attachment, with liquid feed branch pipes. Slots of sprinklers arranged on gas inlet branch pipe and on attachment are adjustable in width owing to provision of frame which are wedge-type in cross section and are closed over perimeter. Frames are arranged, respectively, in channel which closes the slot and in attachment and are held by bolts. Frames are installed for periodically reciprocation. EFFECT: enhanced quality of gas cleaning. 2 dwg

Description

 The invention relates to apparatus for wet cleaning of flue and process gases, air contaminated with mechanical and vapor-gas impurities and can be used in energy, metallurgy, mechanical engineering and other industries in flue gas treatment systems and ventilation emissions.

 A device is known for wet air purification in a spray booth, comprising a housing with staggered plates arranged therein, a screen provided with longitudinal partitions installed in the direction of irrigation fluid movement, a water distribution tray with a guide plate and an outlet gap between them, made with a variable extending to the center by a section [1].

 The disadvantages of this device are the relatively complex design and the limitations of its use (special devices).

A device for direct cooling and washing the dusty gas in countercurrent and / or co-current gas stream during repeated rotation through ^about 180 [2]. The device is a tank with several metal sheet walls inclined relative to one another, mounted concentrically in the tank to form diffusion chambers similar to a venturi. The movable sheet walls are inserted into the gaps between the rigidly fixed sheet walls to form diffuser chambers in a longitudinal section. The movable sheet walls with a common lifting device are moved in the vertical direction to change the cross section of the entrance of the annular diffuser chambers.

 The disadvantages of this device are the low efficiency of gas purification and the inability to capture resinous substances present in the gases, which leads to "overgrowing" of the internal walls of the device and a decrease in its reliability.

 The purpose of the invention is to increase the cleaning efficiency and reliability of the device.

 This goal is achieved in that the device for wet gas purification comprises a housing partially filled with liquid, with a sprinkler on the wall, a central inlet pipe with a sprinkler oriented to the liquid surface, gas outlet pipes and a sludge outlet, nozzles made with a closed side wall and a sprinkler placed coaxially with the inlet pipe, fluid supply pipes. The sprinkler of the inlet pipe is made in the form of an annular gap along the perimeter of its walls, limited by the walls of the chamber in communication with the fluid supply pipes. The side wall of the nozzle is fixed by the upper and lower edges to the inlet pipe with the formation of an internal cavity in communication with the fluid supply pipes and stretched along the transverse axis. The nozzle sprinkler is made in the form of an annular gap on its surface, and the housing sprinkler is placed at a level no lower than the nozzle axis and is made on the side wall of the housing in the form of an annular gap limited by the chamber walls in communication with the fluid supply nozzles. All sprinklers are equipped with slit width adjusters made in the form of annular wedge-shaped frames placed with the possibility of fixed reciprocating movement in the chambers and the internal cavity of the nozzle, respectively.

 In FIG. 1 shows the proposed device for wet gas purification, General view; in FIG. 2 - node I in FIG. 1 (option).

 A device for wet gas purification comprises a housing 1, the lower part of which is filled with liquid, a gas inlet pipe 2 located in the center of the body, gas outlet pipes 3 and 4 and sludge outlet 4, respectively, a liquid supply device (not shown), hollow nozzles 5, fixed on the nozzle 2 of the gas inlet, sprinklers 6 and 7, a droplet eliminator (not shown), located on the nozzle 3 of the gas outlet. The sprinkler 6 is made in the form of a continuous slit 8, closed along the perimeter by the walls 9-11 of the channel 12, with nozzles 13 for supplying liquid and placed, for example, on the confuser 14 of the nozzle 2 of the gas inlet. The sprinkler 7, placed on the nozzle 5 coaxially to the gas inlet pipe 2, is made in the form of a continuous slit 15 closed along the perimeter by the walls 16 and 17 of the nozzle 5 with the liquid supply pipes 18. The slots 8 and 15 of the sprinklers 6 and 7, respectively, located on the gas inlet pipe 2 and the nozzle 5, are made adjustable in width S due to the wedge-shaped frames 19 and 20 in the channel 12 closed along the perimeter, closing the slot 8 and the nozzle cavity 5 s slot 15, for example, by means of mounting bolts 21 and 22. In this case, the frames 19 and 20 are mounted with the possibility of periodic fixed reciprocating motion, i.e. when adjusting the width S (gaps) of the slots 15, the mounting bolts 21 and 22 are screwed in or out, giving reciprocating movement to the frames 19 and 20, and are fixed in the adjusted position by lock nuts 23 and 24. If necessary, it is possible to place the nozzle 2 on the confuser 14 and a straight section the gas inlet of a number of series-parallel installed sprinklers similar to sprinkler 6.

 A device for wet gas purification works as follows.

 The fluid is supplied through the nozzles 13 into the cavity of the channel 12 and the slotted sprinkler 6, where, expiring through a continuous slot 8, a film screen is formed in the cavity of the confuser 14 of the pipe 2 of the gas inlet. At the same time, liquid is supplied through nozzles 18 into the cavity of nozzle 5 and slotted sprinkler 7, where, flowing out through a continuous slot 15, it forms a closed space (chamber) limited by a liquid film, the surface of nozzle 5 and a mirror of the liquid surface located in the lower part of the housing 1. the gas passing through the liquid film barrier formed in the cavity of the confuser 14 of the gas inlet pipe 2 is mixed with the liquid, then the gas-liquid mixture hits the mirror of the liquid surface at high speed. At the same time, large particles of dust are captured by the liquid, and smaller ones, due to strong turbulence, are well wetted and, together with a certain amount of liquid caught by the gas vortex, fall onto the surface of the nozzle 5 and the film screen, passing through which the gas is additionally cleaned (washed) and enters branch pipe 3 in a droplet eliminator.

 The absence of special complex nozzles simplifies its design, and adjusting the width of the slots of the irrigators allows you to extend the life of the device, and therefore increase its reliability.

Claims (1)

 WET GAS CLEANING DEVICE, comprising a housing partially filled with liquid, a central inlet pipe with a sprinkler oriented to the liquid surface, gas outlet pipes and a sludge outlet, nozzles made with a closed side wall and a sprinkler placed coaxially with the inlet pipe, a liquid inlet pipe characterized in that, in order to increase the cleaning efficiency and reliability of the device, the inlet sprinkler is made in the form of an annular gap along the perimeter of its walls, limited by the walls to amer connected to the fluid inlet nozzles, the side wall of the nozzle is fixed by the upper and lower edges to the inlet nozzle with the formation of an internal cavity in communication with the fluid inlet nozzles, the nozzle sprinkler is made in the form of an annular gap on its surface, while all sprinklers are equipped with slot width regulators, made in the form of annular wedge-shaped frames placed with the possibility of a fixed reciprocating movement, respectively, in the chamber and in the inner cavity of the nozzle.

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