SU655407A1 - Apparatus for cleaning gases from dispersed particles - Google Patents

Description

(54) DEVICE FOR GAS CLEANING

For the entrance and exit of the gas flow, a hollow shaft 2 located along its axis is rigidly connected with a plurality of small holes, equipped with several conical or flat baffle plates 3. A discharge device is connected to the expanded cylindrical part 4 of the shell having filter holes 5, mounted on a sealed fixed housing 6, inside which is mounted rotor 1, and connected to collection 7 of filtered particles. In the middle of the expanded part of the housing 6, having a supply gas pipeline 8, a pipe 9 is mounted, which is connected to a sump 10 equipped with a pump 11 for supplying the working fluid through the feed pipe 12 to the hollow shaft 2 of the rotor 1.

The operation of the liquid pump 11 is provided by an electric motor 13 of small power, which can be excluded from the installation scheme by connecting the pump 11 to the motor 14 of the fan 15. A sealed housing 6 has a bearing 16, into which is placed a solid shaft 17 connected by an axle coupling fan impeller 15 for transmitting torque to rotor 1.

The design of the discharge device 5 can be made in the form of a tubular puller using the principle of a knife removal.

The device works as follows.

When the fan is running, the hollow shaft 2 is supplied with working fluid (water or another solution suitable for it) from the feed tube 12 by the pump 11. Under the action of centrifugal forces, the working fluid is ejected through a multitude of small radial holes of the shaft 2, forming a series of continuous curtains and, falling on the inner side wall of the rotor 1, creates a continuous fluid layer moving towards the expanded cylindrical part 4 of the rotor 1.

The contaminated gas flow from the supply pipe 8, the entrance cavity, is fed into the rotating rotor 1, where it is cleaned of suspended particles, and then the flow through the output rotor cavity by the fan 15 is directed to use or to the atmosphere.

In a gas flow swirling in a rotating rotor 1 under the action of centrifugal forces, suspended particles are thrown to the periphery of the rotor 1 and, falling into the moving fluid layer, are carried into the cylindrical part 4 of the rotor 1, where the particles are filtered as a continuous layer on its inner surface. Hence, periodically, as

the separated particles are discharged by the discharge device 5 and sent to collector 7. At the same time, on removal of the inner cylindrical surface of part 4, a layer of 2-3 mm thick filtered particles remains, which | Is a filter for subsequent filtration of the liquid.

The filtered liquid with a small amount of entrained material, falls to the bottom of the housing b, is directed through the pipe 9 into the sump 10, where particles are separated from the liquid and the purified liquid is again supplied by the pump 11 to the device.

The device has the following displays. The size of the captured chas1 - 100 particles, microns

Initial dustiness, g / nm

0.7 - 2.2

The temperature of the dust-gas flow, C

20 - 200 End of dust,.

G / NM

0.01 - Oh, 04

The efficiency of trapping vzvetiennyh particles, which include 10-20% fine and 90-80% .g

medium dispersed,% 99-99.6,

The device provides effective purification of gases and air from suspended particles, is structurally simply small-sized and can be used as an attachment for centrifugal fans. The capacity of the fan in conjunction with the device decreases slightly with a constant engine power, but this is completely offset by providing highly efficient gas and air purification from suspended particles, which improves the working conditions and the environment.

In addition, when cleaning gases from pyrometallurgical plants, using such devices for fans will provide high economic efficiency in metallurgical production by trapping suspended particles from industrial gases, the value of which quickly pays for the necessary costs for the reconstruction of ventilation systems.

Claims (2)

1. Device for cleaning gases from dispersed particles, comprising a housing, a rotor with a shaft, a drive and breaker plates, an irrigation device and a device for unloading trapped particles, characterized in that, in order to increase the degree of gas cleaning and reliability five devices in f) a5oTe, the rotor is made in the form of a cylindrical shell, the cylindrical part of which is perforated, and the shaft is hollow and perforated and connected to the irrigation device. 2. The device POP.1, characterized in that the angle when 6554076 the apex of the conical part of the rotor is 60-90 °. Sources of information taken into account in the examination 1. US Patent No. 3561195, cl. 55-409, 09.02.71. 5 2. USSR inventor's certificate N 17 (545, class H 01 D 45/18, 07.15.64.