RU81092U1 - DEVICE FOR DUST CAPTURE AND CLASSIFICATION BY FRACTIONS - Google Patents

Abstract

The device relates to devices that are designed for dry cleaning of gases from dust and classification of trapped dust by fractions, and can be used in chemical, pharmaceutical, food, construction and other industries. A device for collecting and classifying dust by fractions, which includes two stages of dust collection, containing a housing, a swirler, a nozzle for introducing dusty gas, a nozzle for purified gas, a cylindrical screen, a receiving cylinder, two inclined bottoms, two nozzles for removing dust, a cylindrical baffle. Moreover, the screen has a cylindrical shape, and the degree of overlap of the first stage h ₁ and the degree of overlap of the second stage h ₂ are shorter than the three diameters of the screen of a cylindrical shape h ₁ <3 · D and h ₂ <3 · D, where h ₁ is the distance between the lower edge of the screen of a cylindrical shape and the upper edge of the receiving cylinder; D is the diameter of the screen of a cylindrical shape; h ₂ - the distance between the lower edge of the septum of a cylindrical shape and the upper edge of the exhaust pipe. The result is an increase in the degree of efficiency, a decrease in hydraulic resistance, and the possibility of separating dust particles up to 5 ... 20 microns in size. The second stage of the dust collector receives at least 20 ... 25% of the fine fraction of the total mass of dust.

Description

The utility model relates to devices that are designed for dry cleaning of gases from dust and classification of trapped dust by fractions, and can be used in chemical, pharmaceutical, food, construction and other industries.

A device is known in which dust collection occurs in the body of a device divided by partitions (Rodionov A.I., Klushin V.N., Torocheshnikov N.S. "Technique of environmental protection", M .: Chemistry, 1989, p. 31, fig. 1-2, b).

The specified device has a low efficiency, especially for trapping fine dust, because no swirling flows are created in the chamber, which means that centrifugal forces are not used in the separation of the gas-solid system.

A device for collecting dust is known, in which a dusty gas is introduced into a dust collector, dust particles are classified, and different dust fractions are collected in different receivers, and the coarse fraction is initially separated (AS USSR No. 1629077, M. Cl. B01D 45/06 , 1991)

The disadvantage of this device is its low efficiency, due to the secondary ablation of dust, because insufficiently used the inertial component of the resulting all forces (centrifugal, inertial and gravitational) acting on solid particles when they are removed from the gas stream.

The closest constructive analogue is a dust collector containing a housing, an axial nozzle for introducing a dusty gas stream placed at it, at the upper end of which a swirl is installed, and an axial nozzle for outputting the purified gas, the swirl is made in the form of a hollow disk with rigidly fixed profiled placed in it

blades, the dust collector is equipped with a truncated cone screen located under the swirler and a smaller base fixed along the lower edge of the disk, and a cylindrical partition in its upper part attached to the lower edge of the disk from the side opposite the screen, and a receiving cylinder mounted coaxially to the outlet pipe of the cleaned gas, made in the lower part with an inclined bottom and placed with a gap between its upper edge and the bottom wall of the swirl, a cylindrical partition is installed between the receiving qi Indra and the axial spigot for the withdrawal of purified gas outlet for axial withdrawal of purified gas is mounted concentrically outside the axial nozzle entering dust-laden gas, the wall of the pipe entering dust-laden gas, the bottom wall of the swirler, the screen and the cylindrical partition wall arranged to form interconnected voids. The cylindrical partition is installed with a gap between its lower edge and the inclined bottom of the receiving cylinder. The receiving cylinder is made with partitions forming several receiving compartments.

Dusty gas is introduced into the dust collector, dust particles are classified, and different dust fractions are collected in different receivers, the coarse fraction is initially separated in the first stage of the dust collector, after separation of the coarse fraction, the gas flow direction is changed by 180 ° and sent to the second stage under the screen with the formation of an upward flow when moving between the inner wall of the screen and the wall of the receiving cylinder, and the classification of particles is carried out with a periodic change in the upward direction of the gas flow to the downside In this case, the process is carried out with decreasing the cross-sectional area of the descending channels of the dust collector along the gas flow from the periphery to the center, subject to the condition S ₁ > S ₂ , and

S ₁ = π / 4 (D ² -d ₁ ² ), S ₂ = π / 4 (d ₂ ² -d ₃ ² ).

Where S ₁ - the cross-sectional area of the space between the wall of the housing of the dust collector and the screen, mm ² ;

S ₂ - the cross-sectional area of the space between the wall of the receiving cylinder and the cylindrical partition, mounted on the opposite side of the screen and installed between the wall of the receiving cylinder and placed concentrically relative to it of the axial pipe for the output of purified gas, mm ² ;

D is the diameter of the dust collector body, mm;

d ₁ - screen diameter, mm;

d ₂ - diameter of the receiving cylinder, mm;

d ₃ - the diameter of the cylindrical partition, mm (RF patent No. 2153916, IPC ⁷ V 0145/04, V01D 45/06, V01D 45/12, publ. 10.08.2000)

The disadvantage of this device is that it does not allow to separate the fine fraction from the coarse fraction in the range of 5 ... 20 μm, since it was experimentally established that the second stage of the dust collector receives no more than 6 ... 7% of the fine fraction of the total dust mass.

The objective of the proposed utility model is to eliminate the above drawback. The specified result is achieved in a device for collecting and classifying dust by fractions, which includes two stages of dust collection, a housing, a swirler, a pipe for introducing dusty gas, a pipe for purified gas, a cylindrical screen, a receiving cylinder, two inclined bottoms, two pipes for removing dust, a partition cylindrical shape.

Moreover, the screen has a cylindrical shape, and the degree of overlap of the first stage h ₁ and the degree of overlap of the second stage h ₂ are shorter than the three diameters of the screen of cylindrical shape h ₁ <3 · D and h ₂ <3 · D, where

H ₁ - the distance between the lower edge of the screen of a cylindrical shape and the upper edge of the receiving cylinder;

D is the diameter of the screen of a cylindrical shape;

h ₂ - the distance between the lower edge of the septum of a cylindrical shape and the upper edge of the exhaust pipe.

The result is an increase in the degree of efficiency, a decrease in hydraulic resistance, and the possibility of separating dust particles up to 5 ... 20 microns in size. The second stage of the dust collector receives at least 20 ... 25% of the fine fraction of the total mass of dust.

Figure 1 shows the proposed dust collecting device.

The dust collector includes a housing 1 of two stages I - a coarse fraction, II - a fine fraction with a swirl 2 placed in it made in the form of a hollow disk and consisting of an upper 3 and lower wall 4, between which profiled blades 5 are located. Along the axis of the housing 1 a dusty gas inlet pipe 6 is located adjacent to the bottom wall of the swirl. Concentrically outside the inlet pipe 6 under the swirl is installed a pipe outlet 7 of the purified gas. On the outer bottom wall 4 of the swirler 2 mounted screen 8 in the form of a cylinder. Between the body of the apparatus 1 and the outlet pipe of the purified gas 7 under the swirler 2 there is a receiving cylinder 9 with an inclined bottom 10 and a pipe 11 located in the lower part of the bottom for unloading dust. A gap is formed between the upper edge of the receiving cylinder 9 and the lower wall 4 of the swirl 2. Between the wall of the receiving cylinder 9 and the wall of the pipe of the purified gas 7, a cylindrical partition 12 is installed coaxially with the upper edge of which is attached to the lower wall 4 of the swirler 2, and the lower edge of the partition forms a gap with an inclined bottom 10 of the receiving cylinder 9. The lower part of the housing 1 of the apparatus ends inclined bottom 13 with a pipe 14 for the removal of large particles of dust from it.

The dust collector operates as follows. Dusty gas through the inlet pipe 6 enters the swirl 2. The separation of dust particles in a swirling flow under the action of centrifugal forces begins with swirl 2 when flowing around its blades, then most intensively in the space between the screen 8 and the housing 1.

Separated dust along the wall of the housing 1 under the action of gravity falls into its lower part and is collected on an inclined bottom 13 and through

the pipe 14 is removed from the apparatus. The gas stream, cleaned of large dust particles, changes its direction by 180 ° and enters under the screen 8, forming an upward flow when moving between the inner wall of the screen 8 and the wall of the receiving cylinder 9. Then, reflecting from the bottom wall 4 of the swirl 2, it changes again the upward direction of movement is in the descending direction and enters the receiving cylinder 9. The final separation of fine dust particles occurs in the space between the wall of the receiving cylinder 9 and the outer wall of the purified gas pipe 7. In this case, the dust due to inertia forces separated from the gas stream and collected on an inclined bottom 10 in the lower part of the receiving cylinder 9, and then through the pipe 11 is removed from the apparatus.

The purified gas stream, changing its downward movement to the upward one, passes into the space between the partition 12 and the outer wall of the nozzle 7, is again reflected from the lower wall 4 of the swirl and through the gap between the upper edge of the nozzle 7 and the lower wall 4 of the swirl 2 falls into the pipe of the purified gas 7 and It is removed from the dust collector.

Claims (1)

A device for collecting and classifying dust by fractions, which includes two stages of dust collection, comprising a housing, a swirler, a pipe for introducing dusty gas, a pipe for purified gas, a screen, a receiving cylinder, two inclined bottoms, two pipes for removing dust, a cylindrical baffle, characterized in that the screen has a cylindrical shape, and the degree of overlap of the first stage h ₁ and the degree of overlap of the second stage h ₂ are shorter than the three diameters of the screen of cylindrical shape h ₁ <3 · D and h ₂ <3 · D, where h ₁ - the distance between the lower edge of the screen of a cylindrical shape and the upper edge of the receiving cylinder; D is the diameter of the screen of a cylindrical shape; h ₂ - the distance between the lower edge of the septum of a cylindrical shape and the upper edge of the exhaust pipe.