SU1472136A1 - Once-through cyclone - Google Patents

Abstract

The invention relates to dust collection devices and may find application in various areas of national economy. The purpose of the invention is to increase the efficiency of dust collection. A continuous cyclone consists of a housing 1 with a gas supply 2 and a gas outlet 3 with branch pipes, a separation shell 4 with a conical swirl 5 in the form of a system of flat tangentially located on the generator of the cone of inclined flat blades. The air flow entering the nozzle nozzle 11 provides gas recirculation with fine discharges through the channel 7 into the annular chamber 12 of the flap 10 and then into the cavity of the swirler 5. The upper part of the dust collector 8 is provided with a baffle 9, and a pressure filter bag 15 is installed on the nozzle 14 Recirculation of gas to the zone of axial flow through the nozzle nozzle 11, as well as the presence of the bump 9, causes coagulation of fine impurities and an increase in the efficiency of their deposition. 1 hp f-ly, 3 ill.

Description

-eleven

The invention relates to dust collection devices and may find application in various areas of national economy.

The purpose of the invention is to increase the efficiency of dust collection,

FIG. 1 shows the slope, general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one .

The cyclone contains a cylindrical body 1. with a gas supply 2 and a gas discharge 3 branch pipes, a separation shell 4 attached to a larger base of a swirler 5, made in the form of a truncated cone with flat tangential blades 6. Between two adjacent blades 6, a swirl 5 recirculation channel 7.

Above the dust collector 8, a bump 9 is installed, which is a continuation of the cylindrical wall of the housing 1.

The fairing 10, made in the form of a hollow truncated cone with an axial channel, is installed on a smaller base of the swirler 5. In the truncated one. the fairing 10 is mounted concentrically on a smaller, facing upstream, base, nozzle nozzle 11 with the formation between them an annular chamber 12 connected by a recirculation channel 7 with a cavity between the removal shell 4 and the housing 1, and an annular channel 13, formed between the constrictor; the end of the nozzle 11 and the large base of the strut 10, p. swirl cavity

Under the bag 8 on the nozzle 14 is installed packaging filter bag 15, made of porous fabric and designed to collect dust.

The cyclic cyclone operates as follows.

The dust-laden gas passes through the gas supply to the blunt pipe 2 in the swirl 5, on the blades of which it acquires a rotary motion.

Up to 20% of the total flow of dusty gas enters the axial channel of the spinner 10, at the top of the nozzle nozzle 11 of which acquires a maximum speed that reduces the gas pressure in this zone, leading to suction and coagulation of fine aerosols through recycling gas.

Q

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7 into chamber 12 and then into the cavity of the swirler 5 through the annular channel 13.

As the gas moves further, the central jet stream and the recycle gas stream interact with the peripheral swirling gas and merge into a single vortex flow.

The aerosols squeezed into the near-wall layer by centrifugal forces move along the wall of the separation shell 4 and, having reached the edge due to the forces of the dynamic head of the flow, combined with the formation of a nozzle nozzle 11, are turned 180 ° into the annular cavity between the shell 4 and the housing 1, from where the dust enters the dust collector 8. The overwhelming mass of particles by the baffle 9 is directed to the zone of the aerodynamic shade under it, where there is a gradual increase in the concentration of dust and its subsequent coagulation with the sedimentation of the aggregates into the dust collector. The remaining part of the air, carrying with it a certain amount of fine dust through the channel 7, is recycled.

Compared with the prototype, the proposed cyclone cyclone provides for an increase in the degree of dust collection: by 5.0% with a decrease in residual dustiness while collecting dust by a median diameter of 5 µm.

Claims (2)

1. A straight cyclone containing a cylindrical body, a truncated cone zagrykhlitel with flat tangential vanes and a fairing located on a smaller base of the cone facing towards the gas flow, a dust collector, characterized in that, in order to increase the efficiency of dust removal, it is equipped with installed - concentric in the housing on a larger basis with a swirler separation shell, and the fairing is made in the form of a hollow truncated cone with an axial channel and provided installed concentrically on it nshem facing upstream, the basis of the nozzle head to form therebetween an annular chamber connected to the recirculation channel; located between two adjacent blades swirl, with a cavity between the separation shell and the casing, and the annular channel - formed between the tapering end of the nozzle and the large base of the fairing, with a swirler cavity. 2. The cyclone according to claim 1, of which is provided with a baffle bar mounted above the dust collector. tightness of the cylindrical wall of the housing. / f- / f FIG. g Fig.d