RU13615U1 - EXPERIMENTAL INSTALLATION FOR CLEANING AIR FROM DUST - Google Patents

Abstract

1. An experimental installation for cleaning air from dust, containing an inertial vortex dust collector with an axial nozzle for outputting clean air and an axial nozzle for outputting dust with first and second inlet nozzles for entering dusty air, regulating valves, a feeder for supplying a dust and gas mixture, connected by an inlet to the atmosphere, and exit through the first pipeline with the first inlet pipe of the dust collector, and through the second pipeline and the first control valve with the second inlet pipe of the dust collector, fan, blower the main line of which is connected to the atmosphere, a filter, fittings for instrumentation, characterized in that the dust outlet pipe is connected through a third pipe to a fabric filter and through a fourth pipe with a second control valve to a fan suction line, and the axial pipe for clean air outlet connected to the suction line of the fan through the fifth pipe. 2. The experimental installation for cleaning air from dust according to claim 1, characterized in that the fittings for instrumentation are installed on the first, second, third, fourth and fifth pipelines.

Description

Experimental installation for dust air purification.

The utility model relates to gas purification techniques, namely, devices for experimental studies of the effectiveness of dusty air purification and can be used in laboratory practice to study the work of dust collectors.

Known experimental installation for cleaning air from dust, containing an inertial vortex dust collector with axial nozzles for outputting clean air and dust outlet, with a first inlet pipe and a second inlet pipe, a feeder with an ejector that is connected to a second inlet pipe, and a first damper, while the pipe the dust outlet is connected through a storage hopper and the first damper to a second ejector, the output of which is connected to the first ejector (see the description of the invention to the USSR copyright certificate No. 1042813, IPC VOCHS 9/00, public Kationia 09/23/83.).

The disadvantage of this installation is the lack of efficiency of air purification from dust.

Known experimental installation for cleaning air from dust, containing an inertial vortex dust collector with axial nozzles for the output of clean air and dust outlet, with the first inlet and second inlet nozzles of dusty air, the first and second control valves, a feeder for supplying a dust-gas mixture connected to the inlet with the atmosphere, and the outlet through the pipeline with the first inlet pipe of the dust collector, and through the second pipeline and the first control valve with the second inlet pipe of the dust collector, fan, pump the line which is connected to the atmosphere, a filter and a fitting for the installation of instrumentation.

(see the dissertation of V. Azarov for the degree of Candidate of Technical Sciences Dedusting the air of industrial premises in the production and use of carbon black, abstract 05.26.01. Rostov-on-Don, 1997, published by the Rostov State University of Civil Engineering).

MPKVO1D 46/02, 50/00 VOSCH 9/00

The disadvantages of this design include the lack of the possibility of dust extraction from the hopper of the apparatus, which does not allow to evaluate all the parameters of its efficiency.

The technical problem, which this utility model is aimed at, is the possibility of studying the influence of various parameters of the vortex dust collector on the cleaning efficiency.

The essence of the utility model lies in the fact that in the experimental installation for air purification from dust, containing an inertial vortex dust collector with axial nozzles for the output of clean air and dust outlet, with the first and second inlet nozzles for entering dusty air, the first and second control valves, a feeder for feeding dust and gas mixture, connected with the inlet to the atmosphere, and the outlet through the first pipeline with the first inlet pipe of the dust collector, and through the second pipeline and the first control valve with a second inlet a dust collector nozzle, a fan, the discharge line of which is connected to the atmosphere, a filter, fittings for instrumentation, a dust outlet nozzle is connected through a third pipeline to a fabric filter and through a fourth pipeline with a second control valve with a fan suction line, and an axial outlet pipe for clean air connected to the suction line of the fan through the fifth pipe.

In addition, the fittings for instrumentation are installed on the first, second, third, fourth and fifth pipelines.

This allows you to expand the capabilities of experiments to assess the effectiveness of the dust collector.

The essence of the utility model is illustrated in the drawing, where figure 1 shows an experimental installation for cleaning air from dust, general view:

The experimental installation for cleaning air from dust contains an inertial vortex dust collector 1 with an axial nozzle 2 of the clean air outlet, with a dust outlet 3, with the first inlet 4 and with the second inlet 5 for supplying the dust and gas mixture to the dust collector 1.

The feeder 6 for loading dust is connected to the first pipe 7 and the second pipe 8 with the first control valve 9.

The installation comprises a third pipe 10, a fabric filter 11, a fourth pipe 12 with a control valve 13, connected to the suction line 14 of the fan 15, the discharge line 16

which is connected to the atmosphere, as well as the fifth pipe 17 connected to the fan 15 through the suction line 14.

On the first 7, second 8, third 10, fourth 12 and fifth 17 pipelines, fittings 18,19,20,21 and 22 are installed, respectively, for the installation of instrumentation.

The experimental setup works as follows.

Under the action of the fan 15, air from the atmosphere enters the first pipe 7, in which it is mixed with the dust supplied in the calculated amount through the feeder 6. Next, the dusty air mixture through the pipe 7 enters through the first inlet pipe 4 to the dust collector 1 and through the second pipe 8 and the first control valve 9 and the second inlet pipe 5 to the dust collector 1.

Both streams of dusty air are twisted in one direction using swirlers (not shown in the drawing) and are directed towards each other. Under the action of centrifugal and inertial forces, the dust is separated from the air and sent to the lower part of the dust collector 1 to the pipe 3 of the dust outlet.

The collected dust from the nozzle 3 of the dust collector 1 is sucked off by the fan 15 and enters through the third pipe 10 into the fabric filter 11, where it settles. A part of the air entering the fabric filter along with the dust through the fourth pipe 12 through the second control valve 13 also enters the suction line 14 of the fan 15 and is discharged through the discharge line 16 into the atmosphere.

The air purified in the dust collector 1 through the fifth pipe 17 passes into the fan 15 and is discharged into the atmosphere together with the air separated from the dust in the fabric filter.

The dust trapped in the filter AND is removed during periodic shutdowns of the dust collector 1 or at the end of the experiment to measure the amount of separated dust and determine the efficiency of dust collection.

The operating mode of the experimental setup is adjusted by changing the amount of dust-air mixture using the first 9 and second 13 control valves.

Nipples 18,19,20,21 and 22 are intended for installation of instruments for measuring air pressure at the corresponding points of pipelines 7,8,10,12 and 17 of the dust collector 1.

The claimed design of the experimental setup allows you to study the parameters of the efficiency of the dust collector by measuring the amount of dust released, as well as pressure loss in the apparatus and aerodynamic resistance of the apparatus.

From the applicant:

General Director of the Public Health Organization Volgogradekotey $ e $ but

V4-V.N.Azarov

Claims (2)

1. An experimental installation for cleaning air from dust, containing an inertial vortex dust collector with an axial nozzle for outputting clean air and an axial nozzle for outputting dust with first and second inlet nozzles for entering dusty air, regulating valves, a feeder for supplying a dust and gas mixture, connected by an inlet to the atmosphere, and exit through the first pipeline with the first inlet pipe of the dust collector, and through the second pipeline and the first control valve with the second inlet pipe of the dust collector, fan, blower the main line of which is connected to the atmosphere, a filter, fittings for instrumentation, characterized in that the dust outlet pipe is connected through a third pipe to a fabric filter and through a fourth pipe with a second control valve to a fan suction line, and the axial pipe for clean air outlet connected to the suction line of the fan through the fifth pipe. 2. The experimental installation for cleaning air from dust according to claim 1, characterized in that the fittings for instrumentation are installed on the first, second, third, fourth and fifth pipelines.