SU1058625A1 - Vortex dust collector - Google Patents

Abstract

VORTEX DUST collector, containing a cylindrical body, installed in its lower part an axial inlet of a swirling gas .1 flow and a dust collector, is located on the upper part of the case, a peripheral inlet of a swirling gas flow and an axial inlet for outputting the cleaned gas with a bypass line, in which a fan is installed, characterized in that, in order to reduce the cost of electricity for moving the extracted gas to be cleaned, the bypass line is connected to the axial inlet.

Description

The invention relates to a device for cleaning dust from gases and can be applied in various industries, for example, chemical, food, building materials. 5

Known vortex dust collectors for cleaning gases from dust in counter rotating streams., Which have an axial inlet of a swirling stream of dusty gas and a peripheral 10 inlet of an auxiliary (secondary) stream of swirling gas directed towards each other [1].

Dust collectors of this type provide the separation of particles from gas, including 5 fine particles (3-5 microns) with high efficiency, but they have high energy intensity.

Known vortex dust collector containing a cylindrical body, installed in its lower part ^m axial: the input of the swirling stream of the cleaned gas and a dust collector located in the upper part of the body peripheral inlet of the swirling stream of the secondary gas and the axial pipe for the output of the purified gas, connected by a bypass line on which a fan with peripheral input f 2 is installed.

However, in the known dust collector 30, a secondary swirl flow is introduced (through the bypass line into the peripheral zone of the dust collector, i.e., if there is a significant pressure gradient between the peripheral and central zones, considerable energy must be spent on moving gas through the bypass line from the exhaust pipe to body.

The purpose of the invention is to reduce the cost of electricity for the movement of the selected purified gas.

This goal is achieved by the fact that in the vortex dust collector containing a cylindrical body, the axial inlet of the swirling gas stream and the dust collector located in its lower part, the peripheral inlet of the swirling gas stream and the axial pipe for outputting the purified gas ⁵⁰ with the bypass line, are installed in the upper part of the body which installed the fan, the bypass line is connected to the axial inlet.

The drawing schematically shows the proposed dust collector, 55 'Vortex dust collector contains a cylindrical housing 1, in the upper part of which there is an inlet of a swirling peripheral flow of the gas to be cleaned, made in the form of a tangential nozzle 2, and an axial nozzle 3 for removal of the purified gas. In the lower part of the casing there is an axial inlet of a swirling flow made in the form of a cup .4 with a tangential branch pipe 5, and a conical bottom 6 A branch pipe 3 is connected by a vent line 7 through a fan 8 with a branch pipe 5.

The device operates as follows.

Dusty gas flows through the tangential nozzle 2 into the annular space between the housing 1 and the nozzle 3. In the boiler gap, the gas swirls and rotates in the form of an annular vortex into the lower part of the housing 1. Dust particles under the action of centrifugal force arising in the swirling flow. rush to the wall of the housing 1 and slide into a conical bottom 6 and further into the dust collector.

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The purified gas, continuing to rotate, enters the nozzle 3, and the peripheral part of the gas with contained non-trapped solid particles is captured in the suction nozzle of the fan 8, connected tangentially to the nozzle 3. The fan 8 pumps gas through the bypass line 7 and the nozzle 5 in the axial part of the housing, where, rotating at high speed in the central part of the housing 1, the remaining solid particles are released from it, while simultaneously transmitting additional rotation energy to the dusty gas stream. Next cent. The swirling rotational vortex mixes with the annular gas flow after purification and is sent to pipe 3.

Laboratory tests of the model of the proposed dust collector with a diameter of 300 mm show that, ceteris paribus, the energy cost of moving gas along the bypass line is reduced by 30-35%. This is because in the bypass line at the exhaust pipe, relative pressure is generated in front of the fan, and vacuum is generated after the fan. The difference is 450 Pa. Thus, the connection of the bypass line with the axial inlet allows you to use the differential pressure generated between the different zones of the vortex dust collector to move the gas during its operation.

VNIIIPI Order 9649/6 Circulation 579 Subscription

Branch of PPP Tsentent, Uzhgorod, Project 4,

Claims (1)

Vortex dust collector, containing a cylindrical body, axial inlet of swirling gas installed in its lower part; flow and dust collector located in the upper part of the body, peripheral inlet of swirling gas flow and axial nozzle for discharging purified gas with a bypass line on which the fan is mounted characterized in that, in order to reduce the cost of electricity for the movement of the selected purified gas, the bypass line is connected to the axial inlet. ¹