RU2343988C1 - 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, fan, pipes and three dust collectors at oncoming swirl gas flows, each collector made in the form of cylindrical case with conical tank, tangential top inlet pipe, inlet swirler in bottom inlet pipe, and dust-screening conical disk at its outer surface, with axial outlet pipe for cleaned gas and dust discharge pipe in which flood gate is mounted. Conical tanks of first and second dust collectors have dust and gas mix discharge pipes. Source of gas to be cleaned is connected to the fan inlet, fan delivery nozzle is connected by pipes with dampers to tangential inlet pipes and inlet swirlers of first and second dust collectors, axial outlet pipes of which enter open air. Dust and gas mix discharge pipes of conical tanks of first and second dust collectors are connected by pipes with dampers to tangential inlet pipe and inlet swirler of third dust collector, axial outlet pipe of which is connected over a damper to pipe connecting source of gas to be cleaned to the fan inlet.

EFFECT: efficient treatment system for large gas volumes.

1 dwg, 1 ex

Description

The invention relates to gas purification and can be used in various industries - chemical, food, woodworking, production of building materials and products, and other industries where it is necessary to clean the exhaust gases from fine dust particles.

A known dust collection system containing a source of gas to be purified, a fan and two vortex inertial dust collectors on counter swirling gas flows, each of which is made in the form of a cylindrical body with a conical hopper, with an upper tangential inlet pipe, with an inlet swirl in the second lower inlet pipe with a dust collection conical a washer on the outer surface of the lower nozzle, with an axial outlet nozzle and with a dust outlet in which the lock gate is installed. In this case, the source of the gas being cleaned, the tangential inlet pipe, the cylindrical body, the axial output 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).

A disadvantage of the known system is: the impossibility of its application for the effective cleaning of large volumes of dusty gas, as well as the inability to control the volume of the dust and gas mixture in the conical hopper of the second dust collector, which significantly affects the reliability and efficiency of its operation.

The task of the invention is to develop a dust collection system that provides effective cleaning of large volumes of dusty gas.

The essence of the invention lies in the fact that the dust collection system containing a source of gas to be cleaned, a fan, pipelines 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, an upper tangential inlet pipe, an inlet swirl placed in the lower inlet pipe, and dust cone washer on its outer surface, with an axial outlet pipe of purified gas and a dust outlet in which the lock is installed the creature differs from the closest analogue in that it is equipped with a third vortex dust collector of a similar design, while the conical bins of the first and second dust collectors are made with outlet pipes for the dust and gas mixture, the source of the gas to be cleaned is connected to the fan inlet, the discharge pipe of which is connected by pipelines equipped with dampers, with tangential inlet nozzles and inlet swirlers of the first and second dust collectors, the axial outlet nozzles of which are in communication with the atmosphere, and dust-gas mixture outlet tube of conical bins first and second dust collectors pipes provided with dampers are connected to the tangential inlet and the inlet of the dust collector of the third swirler axial outlet through which the damper is connected to a conduit connecting the source of gas to be purified with the fan input.

The proposed system through the parallel installation of the first and second dust collectors makes it possible to efficiently clean a large volume of dusty gas, and using the shutters to regulate the volume of the dust and gas mixture in the conical hoppers of the first and second dust collectors and thereby increase the reliability and efficiency of their work.

The invention is illustrated in the drawing, which schematically shows a dust collection system.

The dust collection system contains the source 1 of the gas to be cleaned, fan 2 and three vortex inertial 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, an upper tangential inlet pipe 8, an input swirl 9 in the second inlet pipe 10, a dust cone 11 on the outer surface of the pipe 10, an axial outlet pipe 12 and a dust outlet 13 in which the lock gate 14. The system comprises ten shutters 15-24. Conical bins 7 of the first 3 and second 4 dust collectors are made with outlet pipes 25 and 26 of the dust and gas mixture.

The dust collection system operates as follows. The dusty gas flow from the source 1 through the fan 2 is fed through open shutters 15, 16, 17 and 18 to the tangential inlet nozzles 8 and inlet swirls 9 of the first 3 and second 4 dust collectors located in the lower inlet nozzles 10. The stream of purified gas from the axial outlet pipe 12 of the first dust collector 3 through the shutter 19 and from the axial outlet pipe 12 of the second dust collector 4 through the shutter 20 through the pipeline is released into the atmosphere. Through the nozzle 25 through the open damper 21 from the conical hopper 7 of the first dust collector 3 and through the nozzle 26 through the open damper 22 from the conical hopper 7 of the second dust collector 4, the dust and gas mixture is fed to the tangential inlet 8 of the third dust collector 5, and through the open damper 23 into the inlet swirl 9 the inlet pipe 10 of the dust collector 5. The cleaned gas stream from the axial outlet pipe 12 of the third dust collector 5 through the valve 24 enters the pipeline connecting the source of the gas to be cleaned with the fan inlet. The dampers 17, 18 and 23 are designed to control the ratio of the flow rates of gas flows to the upper tangential inlet 8 and to the inlet swirl 9 of dust collectors 3, 4 and 5. The dampers 21 and 22 are used to connect and disconnect the supply of dust and gas mixture from conical bins 7 of the first 3 and a second dust collector 4 into a third dust collector 5. The dust trapped in the dust collectors 3, 4 and 5 is removed from the conical bins 7 through the dust outlet 13 provided with lock gates 14.

The organization of the suction of the dust and gas mixture from the upper part of the hopper 7 of the dust collectors 3 and 4 contributes to an increase in the discharge in them, which intensifies the process of dropping dust particles to the walls of the housing 6 and increases the rate of their deposition into the hopper 7. In this case, the dust and gas stream sucked from the hopper 7 is effectively cleaned dust collector 5.

Example.

The proposed dust collection system was used to capture coke dust with an initial concentration of 15-22 g / m ³ at the system inlet, while the content of dust particles with a size of up to 15 μm at the entrance to the dust collection system reached 23%. At the exit from the system, the concentration of dust particles was 0.5-0.7 g / m ³ , and the content of particles with a size of up to 15 microns was less than 12%, and the capture of particles with a size of up to 5 microns was about 8%.

Parallel installation of VZP devices allowed to achieve a capacity of 16 thousand m ³ / h of gas to be purified.

Thus, the claimed invention allows to ensure the reliability of the dust collection system and increase the efficiency of cleaning a large volume of contaminated gas from dust.

Claims (1)

A dust collection system containing a source of gas to be cleaned, a fan, pipelines 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, an upper tangential inlet pipe, an inlet swirl located in the lower inlet pipe, and a dust collection conical washer on its outer surface, with an axial outlet pipe of purified gas and a dust discharge pipe in which a lock gate is installed, characterized in that it is provided with a third a vortex dust collector of a similar design, while the conical hoppers of the first and second dust collectors are made with outlet pipes for the dust and gas mixture, the source of gas to be cleaned is connected to the fan inlet, the discharge pipe of which is connected via pipelines equipped with dampers, with tangential inlet pipes and inlet swirls of the first and second dust collectors, axial outlet pipes which are in communication with the atmosphere, and pipes for the exit of the dust and gas mixture from the conical bins of the first and second precipitators of conduits provided with valves, are connected to the tangential inlet and the inlet of the dust collector of the third swirler axial outlet through which the damper is connected to a conduit connecting the source of gas to be purified with the fan input.