SU745374A3 - Device for dust removal from gases - Google Patents

Description

one

The invention relates to the mining and other industries, where it is necessary to clean air and other gases from dust.

A battery dust collector is known, consisting of cyclones connected to each other and located one next to the other.

However, the known dust collector, has significant dimensions and weight.

The closest technical solution to the invention is an ejector for dedusting gases, consisting of an inertial filter made in the form of a confuser with inlet) (m and outlet openings in the form of an elongated rectangle, having parallel side walls, a back wall and made in the form of front wall, multicyclone, collector, bent at 90 ° and consisting of separate transitions, which connects the inertial filter with the multicyclone, fan, pipeline and dust collector (2.

The disadvantages of the known device are bulky, heavy weight and high energy consumption.

The aim of the invention is to reduce the size and weight of the device and reduce the energy intensity of the process of dedusting gases.

This is achieved by the fact that the device is provided with a vertical flat mounting wall and a casing, while the confuser is made in this way; that its rear wall is located

Perpendicular to the inlet and outlet openings of the confuser, and the front wall is installed at an angle of 60-89 to the surface of the inlet, with the louvre grille plates

15 are inclined in the direction of movement of the stream being cleaned at an angle of 45-75 to the surface of the inlet of the confuser, while the confuser is provided with partitions installed inside

20 along the entire length from the inlet to the outlet and separating the confuser into channels whose number is equal to the number of collector transitions and the number of cyclones in

25 1 multi-cyclone, communicated with collector junction, moreover, these are made in the form of chokes, and the confuser, the collector and the multicyclone are placed inside the casing and rigidly fixed with a vertical flat mounting wall with a gap between them and the specified mounting wall by means of crookshins and bolted joints. In addition, the device casing is made in the form of a carbon parallelepiped, whose wall, located in front of the confueor and multicyclone, is made in the form of a louvered grille and the dust collector is located outside the specified casing, the pipelines for removing dust from the mule and ticyclone are attached to the dust collector and their length is three times their diameter, and the pipelines for the removal of purified gas out of the casing through an opening made in the top wall with a casing provided with a canopy. The device is also equipped with at least one channel and a system of additional transitions for supplying dusty gas to the confuser, while one of the channels is located behind the mounting wall, and an additional transition that is adjacent to the confuser is installed in the direction of the symmetry axis of the confuser. FIG. 1 shows a dedusting device; in fig. 2, section A-A in FIG. 1. The device consists of an inertial filter made in the form of an adapter consisting of two side walls 1 and 2, a rear wall 3 and a front wall 4, as well as an inlet 5 and an outlet opening. Side walls 1 and 2 are parslite each other and perpendicular to the rear wall 3 and the surface of the inlet 5 and the outlet 6, and the front wall 4 is inclined at an angle of 60-89 to the surface of the inlet 5, the front wall 4 has the form of a sting made of flat slats inclined in the direction of flow dusty air from the inlet of Verstov 5 to the outlet b at an acute angle of 45-75 °. The confuser is divided over its entire length into three channels 8–10 of the same width using partitions 11, 12 parallel to the side walls 1, 2. The multi-cyclone consists of three dilacons 13-15, connected to each other and located one above the other. Cyclones 13–15 in the upper part contain three pipes 16–18; under the dusty air, they are parallelly located one above the other and fitted with flanges 19 in front of each other. In addition, three pipes 20–2 designed to remove dust from the cyclones , and vertical | go upward three pipes 23-25, which discharge purified air. The collector connecting the confuser with the multicyclone is bent at an angle of 90 and also has the shape of a confuser, and it is composed of interconnected passages 26-28, which in the front part are located one next to the other, and in the end part one above the other. to others. The wider end of the manifold is rigidly attached to the outlet; confuser hole 6, and the second end of the manifold ends with flange 29, similar to flange 19 of pipes 16-18. Through flanges 19 and 29 the collector is connected to the multicyclone. The confuser, the licyclone and the collector connecting them are mounted on a flat rectangular vertically arranged mounting wall 30. The rear wall 3 of the confuser and individual cyclones 13-15 of the multicyclone, and also the collector transitions 26-28 are moved a short distance from the mounting wall 30, their rigid position is provided by a system of brackets 31 and bolted joints. The inlet 5 and the outlet b of the confuser are shaped as elongated rectangles. The confuser, the multicyclone and the collector connecting them are covered with a casing made in the form of a flat parallelepiped, which consists of side walls 32, 33 parallel to the rear wall 30, the top wall 34 with a slope to the outside and the front wall 35 parallel to the rear wall 30, and the wall 35 is equipped with louvers 36, 37 located opposite the confuser and the multicyclone. Pipes 23-25; Purified air discharged from the multicyclone, go outside through the upper wall 34 of the casing and are covered with a canopy 38. Pipes 2022, discharging dust from the multicyclone, which are three times longer and the diameter, go down to the outside of the casing and are attached to a sealed dust collector 39, equipped with fitting 40 and valve 41. Mounting wall 30 is part of the wall of the dryer channel 42 with which this device interacts, and above channel 42 there is another channel 43 and transitions 44 and 45 through which dusty air is fed from the drying columns of the grain dehumidifiers to the suction-injection fan 46 located below the casing under the confusion and connected to it by means of a junction 47 installed in the direction of the axis of symmetry of the confuser. The operation of the device is in the ice. The fan 46 through the transition 47 injects air containing dust into the inlet 5 of the confuser. After passing through the confuser, approximately 93% of the dust-free air goes out through the slots between the strips 7 of the front wall 4 and further through the louvers 37 to the outside of the casing. The condensed dust and approximately 7% of the initial volume of air through the manifold is injected to the multicyclone, where the remaining air is dedusted.

Claims (4)

1. A device for dedusting gases, preferably air, including an inertial filter, made. in the form of a confuser with inlet and outlet openings in the form of an elongated straight bar, parallel side walls and a front wall made in the form of blinds, a multicyclone, angled 90 collector, consisting of separate junctions, connecting an inertial filter with a multicyclone, fan , piping and air collector, which is due to the fact that, in order to reduce the size and weight of the device and to reduce the energy intensity of the dedusting processes, the device is equipped with a vertical flat mounting wall and casing, while the confuser is designed so that its back wall is perpendicular to the inlet and outlet openings of the confuser, and the front wall is mounted to the surface of the inlet at an angle of 60-89 °, with the front wall louver plates inclined in the direction of the movement of the gas stream being cleaned at an angle of 45- 75 to the surface of the confuser inlet, while the confuser is provided with partitions installed inside it along the entire length from the inlet to the outlet and separating the confuser into channels, the number of which equal to the number of transitions collector and the number of cyclones in multicyclone communicated with the collector transitions, and these transitions are made in the form of throttles, and the confuser, the collector and the multicyclone are placed inside the casing and rigidly fixed on the vertical flat mounting wall with a gap between them and the specified mounting wall by means of brackets and bolted connections. 2. A device according to claim 1, characterized in that the casing is made in the form of a rectangular parallelepiped, while its wall, located in front of the confusor and the multi-cyclone, is made in the form of a louvered grille. 3. The device according to paragraphs. 1 and 2, that the dust collector is located outside the casing, while the pipelines for dust removal from the multicyclone they are attached to the dust collector and Their length is three times their diameter, and the pipelines for draining the cleaned gas out of the casing through an opening which is made in the upper wall of the casing and are equipped with a canopy. 4. Device on PP. 1-3, from the fact that it is equipped with at least one channel and a system of additional transitions for supplying dusty gas to the confuser, one of these channels is located behind the mounting wall, and an additional transition adjacent to the confuser is installed in the direction of the axis symmetry confuser. Sources of information taken into account in the examination 1.Rudenko K.G. and others. Dust removal and dust collection in the processing of minerals. M., Nedra, 1971, p. 244. 2. US patent 3538688, cl. 55-418, published. 06/13/68 (prototype). (/ X yXwyxSy - FTSU. f r 3S Riga.g