RU2343989C1 - Dust collection system - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention concerns gas treatment systems. Dust collection system includes source of gas to be cleaned, pipes, fan, three dust collectors at oncoming swirl gas flows, dampers and conical separation concentrator installed in the pipes, concentrator containing cylindrical swirl chamber connected to inlet chamber with tangential inlet. Swirl chamber encases axial pipe for discharge of gas flow with lesser dust concentration, pipe outlet located at the swirl chamber side opposite to inlet chamber. Swirl chamber surface carries side pipe for discharge of gas flow with larger dust concentration. Source of gas to be cleaned is connected to tangential inlet of separation concentrator, side pipe of which is connected via dampers to tangential inlet pipe and inlet swirler of first dust collector. Axial outlet pipe of first collector is connected to tangential inlet pipe of third dust collector via a damper and to side pipe of separation concentrator via dampers. Axial pipe of concentrator is connected to tangential inlet pipe and inlet swirler of second dust collector, axial outlet pipe of which is connected to inlet swirler of third dust collector and to axial outlet pipe of separation concentrator, while axial outlet pipe of third dust collector is connected to suction pipe of fan.

EFFECT: improved gas treatment efficiency, convenience of maintenance.

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Description

The invention relates to systems for gas purification and can be used in various industries - chemical, food, woodworking, building materials, which require the cleaning of exhaust gases from fine dust particles.

A known dust collection system containing a source of gas to be purified, a fan and two dust collectors on counter-swirling gas flows, each of which is made in the form of a cylindrical body with a conical hopper, with a tangential inlet pipe, with an inlet swirl in the second inlet pipe with a dust cone washer on it the outer surface, with an axial outlet pipe and with a dust outlet in which the lock gate is installed. In this case, the outlet of the source of the gas being cleaned, the tangential inlet pipe, the cylindrical body, the axial inlet pipe of the first dust collector, the fan, the tangential inlet pipe, the cylindrical body and the axial output pipe of the second dust collector are connected in series. The fan outlet is connected directly to the input swirl of the second dust collector, the dust outlet of which is connected directly to the input swirl of the first dust collector (see the description of the invention to patent RU No. 2137528, 1999). This system is the closest analogue of the proposed technical solution.

A disadvantage of the known system is that it does not provide cleaning of the stream from fine dust.

The objective of the proposed invention is to increase the efficiency of gas purification, especially containing highly dispersed particles, and ensuring ease of maintenance.

The essence of the invention lies in the fact that the dust collection system contains a source of gas to be cleaned, pipelines, a fan and two dust collectors on counter-swirling gas flows, each of which is made in the form of a cylindrical body with a conical hopper, the first tangential inlet pipe, an inlet swirler in the second inlet pipe and a dust cone washer on its outer surface, with an axial outlet nozzle of purified gas and a dust outlet in which the lock gate is installed. The dust collection system differs from the closest analogue in that it is additionally equipped with a third dust collector on counter-swirling gas flows of a similar design, dampers installed on the pipelines and a separator-concentrator including a cylindrical vortex chamber in communication with an inlet chamber having a tangential input, and a vortex chamber is installed axial pipe for outputting a gas stream with a lower concentration of dust, the output of which is located on the side of the vortex chambers opposite from the input chamber , a side nozzle is located on the surface of the vortex chamber for outputting a gas stream with a higher dust concentration, while the source of the gas to be cleaned is connected to the tangential inlet of the separator-concentrator, the side nozzle of which is connected through the first and second shutters to the tangential inlet nozzle and additionally through the third shutter to the inlet the swirl of the first dust collector, the axial outlet of which is connected through the fourth damper to the tangential inlet of the third dust collector and through four the fifth, first and first shutters with a lateral branch pipe of the separator-concentrator, the axial tube of which is connected through the sixth and seventh shutters to the tangential inlet branch pipe, additionally through the eighth shutter with the inlet swirl of the second dust collector, the axial outlet of which is connected through the ninth shutter to the inlet swirl of the third dust collector and through the ninth, tenth and sixth flaps to the axial pipe of the separator-concentrator, and the axial output pipe of the third dust collector is connected to the suction pipe com fan.

The invention is illustrated by drawings, where figure 1 shows a diagram of the proposed dust collection system, figure 2 is a front view of the separator-hub shown in figure 1, and figure 3 is a top view thereof.

The dust collection system contains a source of gas to be cleaned 1, a fan 2 and three dust collectors 3, 4 and 5 on counter-swirling gas flows, each of which is made in the form of a cylindrical housing 6 with a conical hopper 7, a tangential inlet pipe 8, an inlet swirl 9 installed in the second inlet pipe 10, and the dust cone washer 11 on its outer surface, with an axial outlet pipe of the purified gas 12 and a dust outlet 13 in which the lock gate 14 is installed.

The system contains ten shutters 15-24 and a separator-concentrator 25, including an inlet chamber 26 having a tangential inlet connected to the vortex cylindrical chamber 27, a side pipe 28 for outputting a gas stream with a higher concentration of dust, and an axial pipe 29 for outputting a gas stream with a lower dust concentration.

The dust collection system operates as follows.

The flow of dusty gas from the source 1 enters through a tangential input into the inlet chamber 26 of the separator-concentrator 25 (see Fig. 2, 3), from where it is supplied to the cylindrical vortex chamber 27, where it is separated. An axial tube 29 is installed in the vortex chamber 27 for outputting a gas stream with a lower dust concentration, the outlet of which is located on the side of the vortex chamber opposite to the inlet chamber, and a side pipe 28 is located on the surface of the vortex chamber for outputting a gas stream with a higher dust concentration.

The gas stream with a higher concentration of dust from the side pipe 28 is fed for cleaning to the first dust collector 3 as follows. With the open shutters 15, 16 and 17 and the closed shutter 19, the flow is supplied to the tangential inlet pipe 8 and through the inlet swirler 9 into the second inlet pipe 10.

After cleaning in the first dust collector 6, the gas through the axial outlet pipe 12 through the open valve 18 enters the tangential inlet pipe 8 of the third dust collector 5.

A gas stream with a lower dust concentration from the axial pipe 29 of the separator-concentrator 25 with the open shutters 20, 21 and 22 and the closed shutter 24 is directed to the tangential inlet pipe 8 of the second dust collector 4 and through the inlet swirler 9 into the second inlet pipe 10 of the second dust collector 4.

After cleaning in the second dust collector 4, the gas through the open valve 23 is fed to the inlet swirl 9 of the third dust collector.

From the axial outlet pipe 12 of the third dust collector 5, the stream of purified gas enters the suction pipe of the fan 2 and is then released into the atmosphere.

The dust released in the dust collectors 3, 4 and 5 is removed through the dust outlets 13 through the lock gate 14.

If necessary, carry out cleaning to reduce the resistance of the dust collection system. To do this, turn off the first 3 and second 4 dust collectors by blocking the shutters 16, 18, 21 and 23, while the shutters 15, 19, 20 and 24 remain open and the streams of dusty gas from the axial pipe 29 and the side pipe 28 of the separator-hub 25 are supplied, respectively to the tangential inlet pipe 8 and inlet swirl 9 of the pipe 10 of the dust collector 5, and the cleaned gas enters the fan 2 and is released into the atmosphere.

Example.

The proposed dust collection system was used to capture coke dust with an initial concentration of 5.2-12 g / m ³ at the system inlet, while the content of coke dust particles with sizes up to 15 μm reached 40%. At the system outlet, the concentration of dust particles was 0.2-0.4 g / m ³ , and the content of particles with a size of up to 15 μm was less than 15%.

Thus, the proposed dust collection system is not only convenient to maintain, but also characterized by high gas cleaning efficiency.

Claims (1)

Dust collection system, including a source of gas to be cleaned, pipelines, a fan and two dust collectors on counter-swirling gas flows, each of which is made in the form of a cylindrical body with a conical hopper, the first tangential inlet pipe, an inlet swirl in the second inlet pipe and a dust collection conical washer on it the outer surface, with an axial outlet pipe of the purified gas and a dust discharge pipe in which a lock gate is installed, characterized in that it is further provided with a third a dust collector on counter-swirling gas flows of a similar design, valves installed on the pipelines and a separator-concentrator including a cylindrical vortex chamber in communication with an inlet chamber having a tangential inlet, an axial tube is installed in the vortex chamber to output a gas stream with a lower dust concentration, the output of which placed on the opposite side of the vortex chamber from the input chamber, a side pipe is located on the surface of the vortex chamber to output a gas stream with a higher dust, while the source of the gas to be cleaned is connected to the tangential inlet of the separator-concentrator, the side pipe of which is connected through the first and second valves to the tangential inlet pipe and additionally through the third valve to the inlet swirl of the first dust collector, the axial outlet of which is connected through the fourth valve to the tangential the inlet pipe of the third dust collector and through the fourth, fifth and first flaps with the side pipe of the separator-hub, the axial pipe of which is connected through the sixth and seventh shutters with a tangential inlet pipe, additionally through the eighth shutter with an inlet swirl of the second dust collector, the axial outlet of which is connected through the ninth shutter to the input swirl of the third dust collector and through the ninth, tenth and sixth shutters to the axial tube of the separator-concentrator, and the axial outlet pipe of the third dust collector is connected to the suction pipe of the fan.

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