KR20110108044A - Dust collector for minimizing a reverse-cleaning effect - Google Patents

Abstract

Synthetic gas or exhaust gas introduced through the inlet port 2 of the cylindrical dust collection container 4 passes through the plurality of dust collecting filters 30 installed to be fixed to the internal fixed plate 6, and then the dust collection container ( 4) In the dust collector which is discharged to the upper outlet 7, the dust is collected on the surface of the dust collecting filter 30, the dust collecting container to separate the plurality of dust collecting filters 30 into a plurality of cluster bundles And a partition wall 20 provided at (4), wherein each of the dust collecting filters 30 is formed of a crimped multilayer metal mesh, and tapered toward the lower side, so that the dust collecting filters can be backwashed while being separated from each other. Since the high-pressure gas flow through the dedusted dust cake and the dust collection filter does not affect the surrounding dust filters, it is possible to operate the dust collector more stably, and the high-pressure gas flow through the dust filter is tapered. Since it passes vertically with respect to the surface of the dust filter and is bent in the lower direction of the dust collecting device, not only all the dust cakes collected on the surface of the dust collecting filter are removed but also when the multiple dust filters are backwashed simultaneously, The high pressure gas passed through is combined to induce a large flow in the downward direction of the dust collector.

Description

DUST COLLECTOR FOR MINIMIZING A REVERSE-CLEANING EFFECT}

The present invention relates to a dust collecting device for collecting dust contained in the synthesis gas or exhaust gas generated under high temperature and high pressure conditions, and more particularly, in the case of back washing to remove the dust collected on the surface of the dust collecting filter, Since the high-pressure gas flow passing through the dust collecting filter does not affect the surrounding dust collecting filter, the present invention relates to a dust collecting device that minimizes the backwashing effect that enables stable dust collecting operation.

In general, when operating a dust collector for collecting dust contained in syngas or exhaust gas generated under high temperature and high pressure conditions, dust is collected on the surface of a plurality of dust collecting filters installed inside the dust collector, and the collected dust is removed. In order to remove the collected dust, the dust is collected by performing a reverse washing step of supplying a gas such as nitrogen or air at a high pressure in a short time to each dust collecting filter.

1 shows a configuration of a conventional dust collecting device, and FIG. 2 is a cross-sectional view of FIG. 1, and thus, it will be described in detail with reference to this drawing. As shown, the conventional dust collecting device has a cylindrical dust collecting container 4. After the synthesis gas or the exhaust gas flows through the inlet 2 of the filter, and passes through the plurality of dust collecting filters 5 installed to be fixed to the fixed plate 6 therein, to the outlet 7 of the upper part of the dust collection container 4. Discharged. At this time, dust is collected on the surface of the dust collecting filter 5. As illustrated in FIG. 2, the dust collecting filter 5 is provided in the inner cylinder 8 such that a plurality of dust collecting filters 5 are not affected by the synthesis gas or the exhaust gas flowing through the inlet 2. .

In order to remove dust collected in the dust collecting filter 5, backwashing is performed using a gas such as nitrogen or air at high pressure. That is, as a plurality of venturis 10 are installed adjacent to the dust collecting filter 5, and the backwashing gas piping 3 is installed in each venturi 10, the high-pressure gas is applied to the backwashing gas piping 3. When supplied through, the high pressure gas is supplied to the dust collecting filter 5 through each venturi 10 to desorb dust collected on the surface of the dust collecting filter 5 and drop it to the lower portion of the dust collecting container 4. .

However, since such backwashing is performed only in a part of the dust collecting filters 5 of the installed dust collecting filters 5, the high pressure gas which has passed through the dust collecting filter 5 when the backwashing proceeds is performed with the existing synthetic gas or the exhaust gas. Combined, the flow rate increases, thereby allowing dust to be collected more quickly in the dust collecting filter 5, which is not immediately backwashed around.

In addition, the high-pressure gas passing through the dust collecting filter 5 pushes the dust particles collected in the surrounding dust collecting filter 5 into the dust collecting filter 5 to block the pores of the dust collecting filter. The filter has a poor backwashing effect, making it difficult to operate a normal dust collector, so that the backwashing is performed at a higher pressure and a higher flow rate, thereby increasing the pore blockage.

In addition, the high pressure gas passing through the dust collecting filter at a higher pressure and a large flow rate scatters the dust cake detached from the filter surface to instantly increase the dust concentration around the dust collecting filter, or in the worst case, to operate at high temperature. Damage to the filter is caused by instantaneous cooling of the filter causing thermal shock. Due to the damage of the dust collector, there is a problem that the operation stop situation of the linkage process of the front and rear ends.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to collect dust or dust to be further trapped or desorbed in the dust collecting filter located around by the high-pressure gas passing through the dust collecting filter after backwashing. By clogging the dust collecting filter located in the surroundings quickly, to separate the dust collecting filter using a plurality of partitions, to provide a dust collecting device to minimize the backwashing effect by making the shape of the dust collecting filter to taper.

The dust collecting device for minimizing the backwashing effect of the present invention for achieving the above object passes through a plurality of dust collecting filters installed so that the synthesis gas or exhaust gas introduced through the inlet of the cylindrical dust collecting container is fixed to the internal fixed plate. Then, the dust collecting device is discharged to the outlet of the upper portion of the paper, the dust is collected on the surface of the dust collecting filter, comprising a partition provided in the dust collection container to separate the plurality of dust filters into a plurality of cluster bundles. .

Each of the dust collecting filters consists of a compressed multilayer metal mesh and can be tapered downward.

According to an embodiment of the present invention, as the partition wall is installed, the backwashing may be performed while the dust collecting filters are isolated while the backwashing is in progress, so that the high-pressure gas stream passing through the dedusted dust cake and the dust collecting filter is surrounded by the dust collecting filter. Since it does not affect the more stable operation of the dust collector is possible.

In addition, according to the embodiment of the present invention, the high-pressure gas flow passing through the dust collecting filter is passed in the vertical direction with respect to the surface of the tapered dust collecting filter is bent in the lower direction of the dust collecting device according to the use of the data type dust collecting filter In addition to desorbing all of the dust cake collected on the surface of the filter, when backwashing several dust filters at the same time, the high-pressure gas passing through the dust filters is combined to induce a large flow in the downward direction of the dust collector. Have

1 is a cross-sectional view showing the configuration of a conventional dust collector,
2 is a cross-sectional view taken along line AA of FIG. 1,
3 is a cross-sectional view showing the configuration of a dust collecting apparatus according to an embodiment of the present invention,
4 is a cross-sectional view taken along line BB of FIG. 3,
Fig. 5A and Fig. 5B are schematic diagrams showing flows in backwashing as the conventional dust collecting filter and the dust collecting filter of the present invention, respectively.

Hereinafter, with reference to the accompanying drawings will be described in detail the operation of an embodiment according to the present invention.

3 is a cross-sectional view showing the configuration of a dust collecting apparatus according to an embodiment of the present invention, Figure 4 is a cross-sectional view taken along the line B-B of FIG.

As shown in Figures 3 and 4, the dust collector of the present invention is fixed to the fixing plate 6 therein, when the synthesis gas or exhaust gas is introduced through the inlet port 2 of the cylindrical dust collection container (4) After passing through the plurality of dust collecting filters 30 installed to be discharged to the discharge port 7 of the dust collecting container 4, the dust is collected on the surface of the dust collecting filter 30 at this time.

In order to desorb dust collected in the dust collecting filter 30, backwashing is performed using a gas such as nitrogen or air at high pressure. That is, as a plurality of venturis 10 are installed adjacent to the dust collecting filter 30, and the backwashing gas pipes 3 are installed in the respective venturis 10, the high-pressure gas is applied to the backwashing gas pipes 3. As it is supplied through and supplied to the dust collecting filter 30 through each venturi 10, the dust collected on the surface of the dust collecting filter 30 is detached and dropped to the lower portion of the dust collecting container 4.

As shown in FIG. 4, the dust collector of the present invention is installed in the inner cylinder 20 such that a plurality of dust filters 30, that is, 12, are not affected by the synthesis gas or the exhaust gas introduced through the inlet 2. The inner cylinder 20 includes a partition 22 to separate the twelve dust collecting filters 30 into a plurality of cluster bundles, four cluster bundles of three. As a result, the present invention isolates the dust collecting filters 30 which are simultaneously subjected to reverse washing, so that the high-pressure gas flow passing through the dust collecting filter 30 during the reverse washing is not collected. Influence 30 is fundamentally blocked. In order to increase the blocking efficiency, it is preferable that the central portion 24 of the inner cylinder 20 is formed longer in the lower portion. That is, during backwashing, the dust cake separated from the dust collecting filter 30 undergoing backwashing is settled to the lower part of the dust collecting container 4 without affecting the other dust collecting filter 30.

In addition, the dust collector of the present invention, when the dust collecting filter 30 is manufactured as a material of the crimped multilayer metal mesh, and has excellent processability and sufficient physical strength, the dust filter may be detached when the dust collecting filter 30 has a shape that is tapered toward the lower side. The force to be attached to the surface of the dust collecting filter is reduced so that it is not easily dropped to the lower portion of the dust collecting device by its own weight, and the gas flow direction of the high pressure passing through the dust collecting filter 30 in the reverse washing section is directed downward. In this way, as the detached dust cake 34 quickly falls to the bottom of the dust collector, the reattachment of the fine dust is prevented as much as possible.

Referring to Figure 5 the operation of the dust collector to minimize the backwash effect according to an embodiment of the present invention configured as described above are as follows.

As shown in FIG. 5A, when backwashing in the conventional dust collector, only a part of the dust collector filters 5 installed therein proceed with backwashing, and the high pressure gas passing through the dust collector filter 5 is a conventional synthetic gas or the like. Combined with the exhaust gas, the flow rate is increased, whereby dust is collected more quickly in the dust collecting filter 5 which has not undergone reverse washing in the vicinity, and the high-pressure gas flow passing through the dust collecting filter 5 is collected in the dust collecting filter ( As it passes in the direction 12 perpendicular to the surface of 5), only a part of the dust cake 14 collected on the surface of the dust collecting filter 5 is detached.

On the other hand, in the dust collector of the present invention, since the backwashing proceeds while the dust collecting filters 30 which are backwashed by the partition wall 220 are separated from each other, the high-pressure gas that has passed through the desorbed dust cake and the dust collecting filter 30 is provided. Since the flow does not affect the surrounding dust collecting filter 30, more stable operation of the dust collecting device is possible.

In addition, in the dust collector of the present invention, as shown in FIG. 5B, since the dust collecting filter 30 is tapered downward, the high-pressure gas flow 32 passing through the dust collecting filter 30 is collected in the dust collecting filter 30. Passed in the vertical direction with respect to the surface of the bent in the lower direction of the dust collector, so as not only to remove all of the dust cake 34 collected on the surface of the dust collecting filter 30, but also to collect several dust filters 30 at the same time In the case of backwashing, the high pressure gas passing through the dust collecting filter 30 is combined to induce a large flow in the downward direction of the dust collector.

The dust collecting device for minimizing the backwashing effect according to the present invention described above is just one preferred embodiment, and the present invention is not limited to the above-described embodiment, so that the present invention as claimed in the following claims. Without departing from the gist of the present invention, those skilled in the art to which the present invention pertains to the technical spirit of the present invention to the extent that various modifications can be made.

2: inlet port 3: backwash gas pipe
4: dust collection container 5, 30: dust collecting filter
6: fixed tube 7: outlet
8,20: inner cylinder 12, 32: high pressure gas flow
14, 34: detached dust cake 22: bulkhead
24: center part

Claims (2)

Syngas or exhaust gas introduced through the inlet of the cylindrical dust collecting container passes through a plurality of dust collecting filters installed to be fixed to the internal fixed plate, and then is discharged to the outlet of the upper part of the dust collecting container, and dust is collected on the surface of the dust collecting filter. In this dust collecting device,
A partition installed in the dust collection container to separate the plurality of dust filters into a plurality of cluster bundles;
Dust collector to minimize backwash effects.
The method of claim 1,
Each of said dust filters consists of a crimped multilayer metal mesh, tapered downward
Dust collector to minimize backwash effects.

Images