SU1219120A1 - Dust trap - Google Patents

Description

2. The dust collector according to claim 1, clause 1, which is equipped with a float connected to the lower bowl, and vertical ti1

The invention relates to the field of cleaning gases (air) from dust and can be used in the metallurgical, chemical, and other industries.

The aim of the invention is to increase the efficiency of dust collection, reduce the size and increase the stability of the work of the paper trap.

The drawing shows the proposed trap.

The device consists of a housing 1

with krish1ka 2, input Zi output by chopping, hopper 5dl wash bone and pipe 6 output sludge.

A circular nozzle with a flow section in the form of a Venturi tube, formed by the upper and lower cups, is installed in the housing 1. The upper bowl is made in the form of a vertical cylindrical nozzle 7 connected in series with each other, a straight perforated 8 and a reverse 9 truncated cones. The lower bowl is made in the form of a follower of the connected cone 10 and two truncated straight 11 and reverse 12 cones. A baffle 13 is installed at the end of the truncated back cone 9. The cups are interconnected by a device 14, which allows to regulate the flow area between them Cone 10, the truncated cone 11 of the lower bowl and the truncated cone 8 of the upper bowl are perforated with openings for supplying irrigation fluid in a circular nozzle between the bowls.

The upper and lower bowls by means of the device 14 are mounted on the same axis, with the cone 10 being located inside the nozzle 7. Thus, the upper and lower bowls

The tubular nozzle is mounted coaxially and is movable in the inlet nozzle.

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p 5 p

form a circular nozzle with a flow section in the form of a Venturi tube: the cone 10 and the nozzle 7 form a diffuser, truncated cones 8 and 11 of the throat, and the reverse cones 9 and 12 form a diffuser. The nozzle 7 is installed coaxially and movably in the inlet nozzle 3. Inside the housing 1, a droplet separator 15 is installed with a drainage tube 16 for draining the collected dropping liquid into the outer cavity of the upper bowl. A float 17 is fixed on the lower bowl, with which the entire circular nozzle is held in the liquid and can move vertically as its level changes.

Dust collector works as follows.

Before starting the operation, the hopper 6 and partly the dust trap body are filled with liquid to the lower edge of the nozzle 7.

The filled gas through the inlet 3 enters a circular nozzle. The passage through the narrowing section between the nozzle 7 and the cone 10 (confuser), the gas is accelerated to 70-150 m / s, while ejecting fluid from the hopper 5 through the holes in the cone 10. Next, the groove enters the annular space between the truncated cones 8 and 10 (throats), where additional gas reflux occurs due to liquid ejection through the openings in truncated cones 8 and 10. After this, the gas enters the zone of gradual expansion (diffuser) between the truncated reverse cones 9 and 11, where its velocity decreases to speed in the socket 7.

The liquid ejected by the gas stream at high speed is crushed into small droplets and due to

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the strong turbulence of the gas flow, its rotation in a circular nozzle of relatively high speed between the particles to be captured and the liquid droplets, intensive dust sedimentation and their coagulation occur.

At the exit from the circular nozzle, the dust – liquid – liquid mixture by the baffle 13 is thrown onto the mirror of the liquid, where the enlarged particles of the drip drop are deposited. The trapped dust in the form of sludge is collected in the bunker 6 and is permanently or periodically removed.

The purified gas through the drop catcher 15, where the small droplets are collected from the stream, and the outlet 4 is removed from the apparatus. The liquid caught in the droplet separator 15 through the drainage nozzles 16 enters the outer cavity of the upper bowl and enters the irrigation of the dusty gas stream through the holes; in a truncated cone 8.

In the case of a change in the level of a liquid, the entire circular nozzle with the help of L. Grathillo

Compiled by A.Zyuzin

Tehred A. Komarnitska Proofreader; E. Sirohman

Order 1184/10 Circulation 663 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., d. 4/5

Branch PIP Patent, Uzhgorod, st. Project, 4

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204

by the float 17 and due to the possibility of free movement of the nozzle 7 in the inlet nozzle 3 also changes its position by 5 vertical lines, remaining unchanged relative to the level of the liquid. The principle of operation of the apparatus with this also remains unchanged and is carried out in the manner described.

Increasing the efficiency of the pouring is achieved by increasing the amount of irrigating liquid, since according to energy theory, the efficiency of wet dust collection increases with increasing contact energy, which increases with increasing amount of irrigated liquid.

Increasing the stability of the dust collector reduces the cost of its maintenance and eliminates the need for complex fluid level control systems.

Size reduction is achieved by positioning the confused Venturi section of the vertical section of the pipe.

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Claims (2)

1. A dust collector, including a housing with a lid, an inlet and outlet nozzle for gas and a hopper for flushing liquid and sludge, an upper and lower bowl, which form a circular nozzle with a cross section in the form of a Venturi pipe, a drop catcher, the upper bowl is made in the form of a direct and reverse truncated cones, and the lower one in the form of a reverse truncated cone, which is characterized in that, in order to increase the efficiency of dust collection, reduce dimensions and increase the stability of the dust collector, it is equipped with a vertical cylindrical patr com mounted on the upper bowl arranged to direct nizhney.chashe perforated cone and the truncated cone, connected in series, wherein the vertical pipe and direct the cone bottom portion of the bowl form a convergent Venturi tube and a straight truncated cone upper cup is perforated. SU, 1219120 2. Dust collector in π. 1, characterized in that it is equipped with a float connected to the lower bowl, and the vertical cylindrical pipe is installed coaxially and is movable in the inlet pipe.