SU969298A1 - Apparatus for wet cleaning of gases - Google Patents

Description

(54) DEVICE FOR WET GAS CLEANING

one

The invention relates to the wet cleaning of highly polluted industrial process gas from solid and gaseous particles suspended in them and can be used in foundry shops for the cleaning of cupola gases, as well as in the chemical, metallurgical and other industries.

A device for wet gas cleaning is known, comprising a housing, inside which a rotor with a fan is stirred. The rotor is made in the form of two truncated cones connected by their smaller bases, the lower of which has slotted holes along the generators, and the case is divided in height by conical diaphragms with grids 1.

The closest to the proposed technical essence and the achieved result is a device for wet gas cleaning, including a housing with inlet and outlet nozzles for gas and liquid, inside of which is placed a rotor with a bladed fan and a drip tray 2.

However, the known gas cleaning devices are not very productive and cannot be used to clean heavily soiled cupolas, and are used only for cleaning fine soils, for example, lacquer dust.

The purpose of the invention is to increase the productivity of a device for the purification of highly polluted cupola gases.

The goal is achieved by those. what

10, in a device for wet gas cleaning, having a housing inside which a rotor with a blade fan, a drip gutter and inlet and outlet nozzles for gas and liquid are placed, the rotor is made in the form of a truncated cone with a bottom in a larger base, the fan is placed in the bottom with blades attached tangentially to the outer surface of the rotor and made with openings for the mixture to exit, while the 20 drop separator is made conical and equipped with a visor attached at a right angle to the cone-forming agent.

Claims (2)

In addition, the gas inlet connection is made evenly tapering. FIG. 1 shows the proposed device, a longitudinal section; in fig. 2 shows section A-A in FIG. 1. A device for wet gas cleaning includes a housing 1, inside which is placed a rotor 2, a downward-extending truncated cone, made in one piece in its expanded part with a centrifugal fan 3, whose blades 4 are made closed at the ends and placed along tangent to the outer surface of the rotor 2. Under each blade is placed a window 5 for the exit of gas and liquid. The rotor 2 at the bottom, on the side of the large base, is made with a closed end 6 having a fairing 7, and on the side of the smaller base it has an open throat, which includes an inlet 8 and a pipe with a sprayer 9 at the end. The inlet 8 is made over the section evenly tapering in the direction of the rotor, increases the gas flow rate, which eliminates the connection of solid particles on its walls. The housing 1 is made conical and provided on the inside with an annular sprinkler 10 and a tapered drip drop 11 with a taper greater than that of the rotor by 5-15 °, having a visor 12 at the bottom at right angles to the plane forming it to increase the pricing, and on the outside the upper part has a nozzle 13 for the exit of purified gas, a manhole 14 for inspection, a cover 15. At the inlet nozzle 8 there is an explosive valve 16. In the lower part of the housing there is a nozzle 17 for removal; laziness of water (sludge). The bottom of the housing is made oblique, in the center of which a shaft 18 is mounted, rigidly connected to the rotor 2, and a sealing device 19. The rotor 2 is set in motion from the electric motor 20. In order to finally capture impurities, the device has a droplet separator 21 at the outlet. The device operates as follows. The motor 20 rotates the rotor 2 with the centrifugal fan 3 through a pulley. Inside the rotor, a discharge is created, which provides movement of the contaminated gas through the inlet pipe 8 and encounters a spray liquid from the spray gun 9, which is perpendicular to the rotor wall when entering the rotor. , 6-12 jets, diametrically directed, creating a flat curtain of liquid droplets due to the twisting effect of the rotor (1-stage gas cleaning). Further, due to the turbulent motion of the gas and the centrifugal force of the liquid, the droplets, together with the gas and solid inclusions, are thrown onto the walls of the rotor 2 and the long path along the walls to the fan blades is well moistened by it (gas purification stage 2). Then, a mixture of gas and liquid with a high linear velocity of 40–80 m / s is ejected by the fan blades tangentially to a conical drip tray 11 with a visor 12, where a layer of gas-liquid foam is formed, in which the final trapping of harmful impurities occurs (3-stage gas cleaning) . Using an annular sprinkler 40 with openings from the inner surface of the housing and the outer surface of the rotor, solid inclusions are carried away with the irrigating liquid through the nozzle 17 into the sludge line. The cleaned gas, the passage through the droplet separator 21, is removed through the outlet 13 to the atmosphere. The gas is ejected due to the expiration of the mixture of gas and liquid with high linear velocity from the fan blades, which greatly increases the productivity of the device while reducing energy consumption. The high efficiency in the proposed device is achieved by several sequentially and jointly working effective cleaning steps interconnected among themselves. Claim 1. A device for wet cleaning of gases, including a housing with inlet and outlet nozzles for gas and liquid, inside which is placed a rotor with a blade fan and a drip-trap, characterized in that, in order to increase the performance of the device when cleaning highly polluted gases, the rotor is made in the form of a truncated cone with the bottom in a larger base, the fan is placed in the bottom with blades attached tangentially to the outer surface of the rotor and made with holes for the mixture to exit, with This drip hood is made conical and equipped with a visor attached at right angles to the generator of the cone. 2. A device according to claim 1, characterized in that, in order to prevent solid particles from settling in the inlet gas tube, the tube is made uniformly narrowing. Sources of information taken into account in the examination 1. USSR author's certificate number 463462, cl. B 01 D 47/16, 04.24.73. 2. USSR author's certificate number 566611, cl. B 01 D 45/12, 03.10.75. Phage. R