RU2379519C1 - Dust extractor-washer of gas stream - Google Patents

Abstract

FIELD: mining engineering.

SUBSTANCE: task of invention is ability of usage dust extractor in gas stream with temperature higher 60°C, and also simplification of its technological service. For decision of assigned task driving motor is taken away from gas pipeline, in structure it is used lamellar dust moisturiser, meshy gas scrubber, washer-cyclone direct-flow, which is communicated to mouth with bin for withdrawal of sludge. For simplification of technological service dust extractor consists of separate sections, waterproof joined to each other by flanges.

EFFECT: reliability growth of dust extractor operation.

4 dwg

Description

The invention relates to industries whose enterprises use or receive gas streams.

The prototype of the invention is "Dust collector" according to ed. St. USSR 1247561 A1, cl. E21F 5/20, publ. 08/30/86, BI No. 28. It is a direct-flow cyclone, inside of which there is a nozzle, a drive electric motor with a shelter providing air cooling of the electric motor, on the shaft of which there are two impellers of an axial fan with a poly-cylindrical gas humidifier, and there is a longitudinal slot along the entire length of the cyclone body , in which a knife cutter for the formed sludge is installed, which leads it to the sludge outlet, and from it to the tank (hopper) for the sludge.

During the operation of the dust collector, the gas to be cleaned, passing through the supply gas pipeline, is moistened with the help of a nozzle and twisted by the first wheel of the axial fan, after which it passes through the slotted annular channels of the washer, and the sludge droplets formed in them are twisted together with the gas by the second ring of the axial fan by re-creating the cyclone process. In this case, droplets of sludge are thrown to the inner walls of the cyclone body, forming a sludge film on it, which is also moved by a rotating gas stream, cut off with a knife cutter of the sludge and through a slot located in the bottom wall of the cyclone body, enters the sludge outlet located under the cyclone body in its entire length with a slight slope towards the tank for trapped sludge, and the cleaned gas is released into the environment.

The prototype has the following disadvantages:

- has a relatively complex service, consisting in the fact that the drive motor is located inside the pipeline and requires shelter, providing the possibility of cooling during operation;

- cannot be used for cleaning hot (over 60 ° С) gases, because a drive motor is located inside the gas pipeline;

- does not ensure the stability of the device, because Due to the small inclination angle of the sludge outlet, thickened sludge periodically settles and accumulates on the surface of its bottom, which requires forced and unplanned shutdowns of the dust collector and additional labor costs to remove the accumulated sludge.

The authors were faced with the task of simplifying the installation and maintenance of the dust collector, the possibility of using the dust collector at elevated temperatures of more than 60 ° C, and increasing the reliability of the dust collector.

This problem is solved by the fact that in the dust collector including the nozzle, a swirl in the form of axial fan impellers, a humidifier, a drive motor mounted coaxially with the swirl, humidifier and sludge trap, the nozzle is located in the supply part of the gas pipeline connected to the rotary elbow where the plate humidifier is located , then the rotary elbow is connected to the housing of the mesh gas washer, where two impellers of the axial fan are located, between which sections of the mesh washer are installed connected by a flange to the body of a once-through cyclone washer-cyclone, in the lower right part of which a neck is made along the entire length to discharge trapped sludge into the hopper, and the drive electric motor is placed outside the gas pipeline and installed coaxially with the net and washer-cyclone washer cyclone cases, all of which are connected tight flanges between each other.

The invention consists in the following:

- The removal of the drive motor beyond the dust collector provides the possibility of gas purification with a temperature of 60 ° C or more.

- The introduction of a plate dust humidifier into the structure of the dust collector, in the multi-slit space of which intense turbulization of the dust-gas mixture occurs, contributes to an increase in the efficiency of gas washing and dust moistening.

- Replacement of a poly-cylindrical humidifier with a grid gas washer, in which, when a rotating gas-liquid stream passes through it, it provides a highly efficient gas flushing of the stream to be cleaned and contributes to highly efficient wetting of fine dust particles.

- The refusal to use the sludge discharge chute and to provide direct communication of the inside of the cyclone washer-flow through the hopper for trapped sludge allows the sludge trapped by the cyclone to flow directly into the sludge hopper without using the sludge trap, which increases the reliability of the entire device and reduces the labor costs for it operation.

The invention is illustrated by drawings, where Fig. 1 shows a general view of a dust collector-washer device for a gas stream, Figs. 2, a and b show sections of a screen washer, and Fig. 3 shows a coupling circuit of a once-through cyclone with a slurry hopper.

The gas flow dust collector-washer consists of separate sections (a rotary elbow, a mesh gas washer body, a straight-through cyclone washer body), which include the following elements: a gas supply line 1 with a nozzle 2 located in it, a rotary elbow 3, inside of which there is a plate humidifier 4, consisting of from the group of parallel plates forming flat parallel channels, which serve for intensive turbulization of the cleaned gas stream, its moistening and washing; a gas gas washer follows the knee, in the housing 5 of which there are two impellers 6 of the axial fan, between which sections of the gas washer 7 are placed (see Fig. 2), and a dust collector shaft 8 leading to the supports 9 and placed on the central axis of the housing 5 connected to a drive motor 10.

The casing 5 of the gas gas washer is connected to the casing 11 of the direct-flow cyclone-washer, in which on the right side (upstream) along the entire length of the casing there is a neck 12 (see Fig. 3) connecting the inside of the cyclone with the hopper 13 for discharge into it films 14 of sludge captured by the cyclone.

The dust collector operates as follows.

The dusty stream under the action of the rotating impellers 6 of the axial fan and partly due to the ejection of a jet of flushing fluid created by the nozzle 2, is sucked into the inlet part of the supply pipe 1, where dusty gas particles are irrigated in a spray of flushing fluid. The dust-gas flow then enters the plate humidifier 4, in the slots of which intense turbulization and gas flushing takes place, after which the flow is twisted by the first impeller 6 of the axial fan and swirls through sections 7 (see Figs. 1, 2) of the mesh washer 5, where there is a crushing of liquid droplets, their atomization and intensive turbulization of the washed stream, after which the stream is twisted a second time by the second impeller 6 and enters the once-through cyclone washer 11, where the wetted dust together sludge drops under the effect of centrifugal forces on the swirling flow is discarded inner wall (see. Figure 3) of the cyclone 11 to form film 14 thereon sludge which the wall of the neck 12 of the hopper 13 is supplied into the hopper for the sludge. The cyclone is finally cleaned. The sludge settles, and the cleaned gas stream 15 undergoes further technological processes.

The accumulated sludge is periodically removed. During operation of the dust collector, the condition of the inner part of the neck of the hopper is periodically checked, for which the cover 16 is removed, inspection, cleaning of the neck of the hopper is carried out with the subsequent installation of the specified cover in place.

Thus, all of the above proves that the task is solved. The implementation of the dust collector-washer of the gas stream from separate sections connected tightly to each other, provides ease of technological maintenance. The sludge removal process is simplified. The removal of the electric motor outside the pipeline makes it possible to use the proposed dust collector at gas flow temperatures of more than 60 ° C.

Claims (1)

Dust collector-gas flow washer, comprising a nozzle, a swirl in the form of axial fan impellers, a humidifier, a drive electric motor, characterized in that the nozzle is located in the inlet part of the gas pipeline connected to a rotary elbow in which the plate humidifier is installed, then the rotary elbow is connected to the housing mesh gas washer, it contains two impellers of an axial fan, between which sections of a mesh gas washer connected to the body are installed a direct-flow cyclone, in the lower right part of which a neck is made along the entire length for discharging the collected sludge into the hopper, while the drive motor is located outside the gas pipeline and is installed coaxially with the net gas washer body and the direct-flow cyclone washer, the supply part of the gas pipeline is rotary the elbow, the casing of the gas scrubber and the casing of the direct-flow scrubber-cyclone are interconnected by flanges hermetically.

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