SU1085617A1 - Apparatus for wet cleaning of air from dust - Google Patents

Abstract

DEVICE FOR WET CLEANING OF AIR FROM DUST, containing a cylindrical conical body partially filled with liquid with gas inlet and outlet nozzles, a cylindrical chamber with radial nozzles installed on the axis of the housing and radial partitions fixed in the lower part of the case, in order to reduce energy costs and simplified construction, radial nozzles are made with open ends, partitions are rigidly fixed on the axis and provided with horizontally mounted plates on the ends, the device is removed placed on its axis by a spring located under the cylindrical chamber, the upper and lower bushings connecting the axis with the spring and the impeller attached to the upper sleeve. (L 00 ate Oh

Description

-1; u) 6pe7-einR-otoskts to the technique of moktyuy cleaning in (X) "t ii) i.; I; li can ps gulsonsho v., f () battle () T 5th years of national economy, where r) ebusts cleaning ha; si (air) from fine impurities, in particular in the food industry.

Apparatuses for wet gas cleaning are known, which include rotations with a phase contacting unit. loaded into my ldc 1.

The drawbacks of these devices are the additional energy consumption associated with the rotation of the contacting unit, as well as the high hydraulic resistance of the apparatus.

The closest to the invention to the technical essence and the achieved result is a device for wet air purification from dust, comprising a cylindrical body partially filled with liquid, with gas inlet and outlet nozzles, a cylindrical chamber mounted along the axis of the body with radial nozzles and radial partitions fixed in the lower part housing 2.

In the known device, the process is significantly intensified due to the addition to the dedusting of nodes by the action of the impact of the rotational movement of the phase contact unit. However, this requires an additional motor. The presence of a drive complicates the design of the installation, its manufacture and operation.

The purpose of the invention is to simplify the design, reducing energy consumption.

This goal is achieved by the fact that in a device for wet air purification from dust, a cylindrical body partially filled with liquid, with gas inlet and outlet nozzles, a cylindrical chamber mounted along the axis of the body — with radial nozzles and radial partitions fixed in the lower part of the body — radial nozzles They are made with open ends, the partitions are rigidly fixed on the axis and fitted with horizontally mounted plates on the ends, the device is equipped with a spring placed along its axis, Assumption below the cylindrical chamber, the upper and lower bushings, binding with the spring axis and the impeller attached to the upper hub.

FIG. I shows the proposed device, a longitudinal section; in fig. 2 shows section A-A in FIG. one.

The device consists of a cylindrical body 1, partially filled with cleaning fluid. In the upper part of the body there is an inlet coaxially with it, which is connected with the cylindrical chamber 3. In the lower part of the chamber 3 it has radial nozzles 4 of circular cross section with the ends bent by 90 °. Camera 3 has the ability to move in a vertical direction and rotate around an axis 5 passing through the lower 6 and upper 7 sleeves of the caliber () s. Moreover, the sleeve 7 is attached to the chamber by means of the bracket - impeller 8.

Axis 5 is rigidly attached to the radial partitions 9 in the region of their intersection. The partitions 9 have horizontally mounted plates 10 in the upper part at the ends. In the lower part of the axis 5, the spring Z is located.

Q In the upper part of the housing there is a fan 12 for injecting dusty air into the inlet 2 and the outlet 13. In the sump of the housing there is an outlet 14 of the sludge.

The device works as follows. 5 Polluted air (gas) is sucked through the inlet of the fan 12 and is fed through the nozzle 2 into the chamber 3.

A cleaning fluid is contained in the lower part of the housing, and it is filled to such a level that in the non-working position of the AHD-AHEET branch pipe 4 of the chamber 3 touched the surface of the fluid with lower edges.

Inside the chamber, the air flow is twisted by the impeller 8, enters the nozzles 4 and exits them with considerable speed into the internal cavity of the housing 1.

The design of the pipes 4 (they are bent to 90 in one direction) is made in such a way that the thrust generated in each pipe by the reaction of the outgoing air flow causes the camera 3 to rotate.

In order to create traction, it is necessary to inform the thrown mass of the working fluid (air) as much as possible, and, under the action of the pressure generated by the fan 12, which rotates camera 5, overcoming the force of the spring 11, is immersed to a certain depth in the liquid.

The untwisted air flow before exiting the chamber enters the moving gas-liquid medium changes direction by 90 °. The pressure of the rotating air flow and the untwisted chamber create a re-masking gas-liquid layer in the vicinity of the contacting unit, which is characterized by a highly developed surface of the contacting phases. five ,,

At the outlet of the gas-nozzle pipes

the mixture hits the radial partitions 9. The enlarged and wetted dust particles, separated from the air flow, together with the cleaning fluid flow into the pan

Q bodies 1. The air flow spirals upwards, meeting the upper (wide) part of the radial partitions 9, which are fitted with horizontally mounted plates 10 at the ends. At the same time, it twists, bending the plate 10,

5 Crashing against the walls 9 and the plate 10 drops flow down the walls, splashing and trapping of smaller dust particles occurs.

The purified air escapes through the pipe 13 into the atmosphere. The precipitated sludge is discharged through pipe 14.

When the sushi plant is preserved, in the prototype of the particle separation mechanism, the proposed device allows using the energy of the air flow itself, which is injected by the fan into the phase contact unit to unwind the latter. At the same time, the proposed device is significantly past, not known and more reliable in operation (no electric drive, no rotating shaft of considerable length, simplified design of the nozzles of the chamber and no need to seal the junction of the dusty air flow into the chamber).

Claims (1)

DEVICE FOR WET CLEANING OF AIR FROM DUST, containing a partially cylindrical-filled housing with gas inlet and outlet pipes, a cylindrical chamber mounted along the axis of the housing with radial nozzles and radial partitions fixed in the lower part of the housing, characterized in that, in order to reduce energy consumption and simplification of design, radial nozzles are made with open ends, partitions are rigidly fixed on the axis and equipped with horizontally mounted plates on the ends, the device is equipped with located on its axis by a spring situated under the cylindrical chamber, the upper and lower bushings connecting the axis with a spring and an impeller attached to an upper vtulit ke. ! 08561 7