SU816510A1 - Apparatus for cleaning gas - Google Patents

Description

(54) DEVICE FOR CLEANING GAS

The invention relates to ferrous and nonferrous metallurgy and the automotive industry and can be used to clean process gases, for example, in sinter, blast furnace, open-hearth and converter plants for cleaning air supplied to cylinders of internal combustion engines and automobile exhaust gases. In addition, it can be used to clean aspiration air in various sectors of the national economy, as well as in quality. a cooler for cooling gases or for hardening balls and similar items, for example in mechanical engineering. A device for cleaning contaminated media is known, including a KorgGus with a lid and a bottom, nozzles for supplying cleaned and venting cleaned gas, filtering granular material and a transporting mechanism 1 / m and more. The purpose of the invention is to increase the degree of gas purification and improve the regeneration of the filtering material while reducing operating and capital costs. The goal is achieved by the fact that the device is equipped with a cylinder located coaxially inside the body, made with nozzles for receiving and exiting granular material, and horizontal and inclined separating grids, one part of which is adjacent to the body, the other to the cylinder, and the transporting mechanism is designed in the cylinder of the worm shaft, the upper end of which is fixed in the lid, the lower end is in the bottom, while the receiving pipe of granular material is made between inclined separating grids, yuschimi to the cylinder. The feed pipe of granular material is equipped with a rotary distributor. The inclined separating grid, located under the intake pipe of the granular material, is installed with the possibility of rotation around the cylinder. The housing and the cylinder are provided with guide rings, and the gas supply nozzle is located below the guide rings.

FIG. 1 is a diagram of a gas cleaning unit in plan; figure 2 is the same, a longitudinal section,

The gas cleaning device comprises a housing 1 with a lid 2 and a bottom 3 filtering granular material 4, nozzles 5 and b for supplying the gas to be cleaned and discharging the purified gases, respectively, connected to the annular collection pipelines 7 and c.

Depending on the physico-chemical properties of gases and physico-chemical properties and fractional characteristics of the dust contained in gases, for example, granulated cast iron, lead shot, narrowly classified coke, crushed stone, rubber pieces, and other materials can be used as filtering material.

A horizontal separation grid 9 and inclined separation grids 10, 11 and 12 are located in the housing 1, which divide the housing into zones 13, 14 and 15 of gas filtration, regeneration of the filter element, dust deposition, respectively, a transporting mechanism 16 is placed in the middle part of housing 1, made in the form of a red worm 17 placed in a cylinder 18 with openings for receiving 19 and dispensing 20 granular material.

In order to uniformly lay the granular material in the body 1, the branch pipe 20 for the exit of the granular material is provided with a distributor 21,

Improved regeneration of the filter material contribute to the inclined separating gratings 10, 11 and 12, installed at an angle to the vertical. The inclined separation grid 12 of the set to be made both stationary and movable, rotated, for example, by means of a drive 2 2, is also a drive of a worm shaft 17 /. The grille 12 is provided with an individual drive for giving it a rotation speed different from that of the worm shaft 17..

In order to eliminate the peripheral and central movement of the gases, the housing 1. And the cylinder 19 are provided with guide rings 23.

A given level of flushing fluid in the regeneration zone is supported by j, for example, with help of supplying 24 times and draining 25 pipes and fittings to overflow. The level control of the washing liquid in the regeneration zone was carried out using a level gauge (not shown).

To pre-remove dust from the gases, a gas chamber 26 is installed in front of the gas cleaning device, in which the dust is moistened and coagulated. For ease of maintenance and repair, two devices are installed in parallel: one working, the second redundant. In this case, the gases are separated before entering the purification process into two streams using, for example, the tails 27.

5 The sludge removed during the regeneration of the filtration material is removed. from the device by the feeder 28 to the precipitation bath 29. The sludge dewatering is carried out, for example

Q scraper conveyor 30. For receiving the dehydrated sludge is the conveyor path 31.,

In order to periodically dispense granular material to devices, for example, to repair gratings, the transport mechanism 16 is provided with a window 32 with a nozzle 33, which is provided with a valve 34. To receive the granular material from the device, conveyors 35 and 36 are installed and

0 a storage bin 37, which also serves to store a certain amount of granular material fed periodically to the device to compensate for abrasion losses.

5 It is fed into the device from the storage bin by means of a feeder 38 and a transport mechanism 16. Access to the housing 1 is achieved through quality.

Q To improve the regeneration of the filter element, the device is equipped with nozzles 40 and supply lines 41, such as additional washing liquid, purge air, surfactants and other materials aimed at maintaining an efficient and stable gas cleaning, as well as an activator 42.

The clarified washing liquid is supplied to the regeneration zone by pump 43.

Horizontal separation grid 9 is made with large gaps to facilitate cleaning, and to eliminate the failure of the granular material, the grid is covered on top with 44 t balls.

For the period of supplying the granular material to the device body 1, for example after repair, the branch pipe for receiving the granular material of the cylinder 19 of the transport mechanism 16 is closed by an annular damper 45.

As a washing liquid, for example, water, water with the addition of detergents, various technical oils, both fresh and used, with a high flash point, low vapor pressure and well wetting dust, other substances that contribute to an effective, i.e. . high-speed and full-motion, wetting of dust and its: removal from the filter material.

The device works as follows. The transport mechanism 16 is driven into rotational motion and the granular material is circulated. The gas to be purified is fed to the prechamber 26, where coagulation of small dust particles is produced by moistening the gases. From the pre-chamber 26, the gas through the annular pipeline 7 .and the radial channels 5 enters the housing 1 - the lower hour of the filtration zone 13. Due to the created vacuum, the gas rushes up and passes through the filtering material 4. The passage through the layer of wet granular material, the gas is cleaned from dust and is removed from the device through the radial channels 6 and the ring pipe 8. The dust free gas is freed from moisture and guide the consumer. Gas is freed from moisture, if necessary, in a device that does not contain washing liquid and with stationary granular material where washing is carried out periodically. The design features of the device allow changing the height of the layer of granular material and changing its circulation rate without turning off the gas supply for cleaning. . Particles of dust accumulated in the granular material are removed in the regeneration zone 14 by moving the granular material in the washing liquid. Inclined separating grids 10, 11 and 12 allow the granular material to be moved in the washing liquid to a low-height layer, which contributes to improving the quality of regeneration with a uniform gathering of the granular material over the cross section of the device in the filtration zone 13. The degree of removal of dust particles from the granular material increases due to the additional forced circulation of the washing liquid by rotating the activator 42, feeding through pipes 41 to the nozzles 40 of the additional washing liquid with the necessary pressure, compressed air, pulping and other liquids. gaseous and solid products. The slime formed in the regeneration zone 14 is removed from the device, by a feeder 28 into a precipitation bath .29. The removal of the sludge is carried out by the scraper conveyor 30, delivered to the conveyor path 31 and sent for recycling. The clarified washing liquid from the precipitation bath 29 is pumped by the pump 43 to the regeneration zone 14 of the granular material ... 1. A device for gas purification, including a housing with a lid and a bottom, nozzles for supplying the gas to be purified and evacuated, filtering granular material and transporting mechanism, characterized in that, in order to increase the degree of gas purification and improve the regeneration of the filtering material while reducing operational and capital costs, it is provided with a cylinder located coaxially inside the body, made with nozzles for receiving and exiting granular material, and horizontal and inclined dividing grids, one part of which is adjacent to the body, the other - to the cylinder, and the transporting mechanism is made in the form of a worm shaft placed in the cylinder, the upper end of which is fixed in the lid, the lower end is in the bottom, while the nozzle for receiving granular material is inclined separation bars adjacent to the cylinder. 2. A device according to claim 1, characterized in that the outlet pipe of the particulate material is provided with a rotary distributor. 3. The device according to claim 1, of which there is a sloped separation grid, located under the nozzle of the granular material, is installed with the possibility of turning around the cylinder. 4. The device according to claim 1, that is, that the case and the cylinder are equipped with directional stakes, and the nozzle for supplying the cleaned ase is located below the guide plates. Sources of information taken into account in the examination 1. USSR author's certificate I 450581, cl. At 01. O. 23/10, 25.05.73.

Claims (4)

1. A device for cleaning gas, including a housing with a lid and a bottom, nozzles for supplying cleaned and exhausting purified gas, filtering granular material and transporting 1 mechanism, characterized in that, in order to increase the degree of purification of gases and improve the regeneration of the filter material while reducing operational and capital costs, it is equipped with a cylinder located coaxially inside the housing, made with nozzles for receiving AND output of granular material, and horizontal and inclined dividing and gratings, one part of which is adjacent to the housing, the other to the cylinder, and the conveying mechanism is made in the form of a worm shaft located in the cylinder, the upper end of which is fixed in the lid, the lower end is in the bottom, while the nozzle for receiving the ernis material is made between inclined separation grilles adjacent to the cylinder. 2. The device according to π. 1, characterized in that the outlet pipe of granular material is equipped with a rotary distributor. 3. The device according to π. 1, characterized in that the inclined, dividing lattice located under the nozzle for receiving granular material is installed with the possibility of rotation around the cylinder. 4. The device according to claim 1, wherein the housing and cylinder are provided with guide rings, and the nozzle for supplying the gas to be cleaned is located below the guide rings.