KR840002040Y1 - Ceramic filter - Google Patents

Abstract

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Description

High Temperature Ceramic Filters

1 is an explanatory view showing a cross section of an embodiment of a high-temperature ceramic filter of the present invention.

2 is an explanatory diagram showing a partial enlarged cross section of FIG.

The present invention relates to a high temperature ceramic filter for collecting and removing the dust and the like contained in the high temperature combustion exhaust gas discharged from various combustion apparatuses.

The combustion flue gas emitted from various combustion apparatuses such as boilers, combustion furnaces, or incinerators, such as thermal power plants or various factories, contains a large amount of dust and dust, so that the exhaust gas discharged from the combustion apparatus is released into the atmosphere as it is. In order to cause a problem, conventionally, the high temperature combustion flue gas of about 500 ° C to 900 ° C is cooled to about 300 ° C to 350 ° C, for example, to remove the dust in the combustion flue gas with an electric dust collector or the hot combustion flue gas to about 100 ° C. After cooling, the method of removing the sash by using a cloth bag filter is widely known and practically used.

However, in a dust collector using a conventional electrostatic precipitator or a bag filter, the high temperature combustion exhaust gas of about 500 ° C. to 900 ° C. cannot be used as it is, so that the high temperature combustion exhaust gas discharged in large quantities is 300 ° C. to 350 ° C. In the case of the bag filter, it is necessary to cool down to about 100 ° C., respectively, and in order to do so, a large cooling device is required.

The high-temperature ceramic filter of the present invention is to solve such a defect in the related art, and is efficiently used to directly remove dust or dust contained in the combustion exhaust gas without cooling the high-temperature combustion exhaust gas at about 500 ° C to 900 ° C. It is an aggregate of fire-resistant particles, and has a user cylindrical body having a plurality of small holes communicating with the inner and outer surfaces, and the annular thick portion having a bulkhead near the opening end of the user body thicker than the bulkhead of other parts. It is a high temperature ceramic filter which forms and forms the suspension support part, and removes the dust in the hot combustion flue gas which has the inclined surface which expands toward an opening end side.

The detailed configuration of the present invention will be described with reference to FIGS. 1 and 2 showing one embodiment of silica sand, ceramic pulverized product, metal oxides such as Al ₂ O ₃ , ZrO ₂ , TiO ₂ , silicon carbide, nitride, boride Or a plurality of pores which communicate with the inner and outer surfaces of the refractory particles 7 having a predetermined particle size distribution, such as other refractory materials, as the refractory binder 8 such as water glass, frit, glaze, or the like. The partition wall 3 near the opening end 2 of the user normal body 1 having a holding cylindrical body 1 having a 9 is formed to have an annular thick portion 4 which is thicker than the partition wall 3b of the other part. The annular thick portion 4 constitutes the suspension support portion 5 of the whole ceramic filter. And a high-temperature ceramic for trapping and removing the dust contained in the high-temperature combustion flue gas having an inclined surface 6 in which the annular thick portion 4 has an inclined surface 6 extending toward the opening end portion 2 in the suspension supporting portion 5. Filter

In addition, the inclined surface 6 that extends toward the open end 2 side of the annular thick portion 4 has the inclined surface 6 within the contact surface with the support plate 10 supporting the ceramic filter as shown in FIG. It is important to have a slope 6 is more effective than the lower surface of the support plate 10 in terms of mechanical strength is more effective.

In addition, the maximum thickness of the partition 3a of the annular thick portion 4 near the opening end 2 constituting the suspension support 5 is 1.2 times or more, preferably 1.5 to 1.5 times the thickness of the partition 3b of the other part. 2.5 times is better and the thickness of the partition 3b including the closed end is 5mm or more, preferably 10 to 15mm may be regarded as the point of the collection efficiency of the dust. The particle diameter of the refractory particles is preferably about 100 to 200, the porosity is about 25 to 50%, and the average pore diameter is about 20 to 80 µ.

The high temperature ceramic filter of the present invention has the above configuration, and in use, the ceramic filter is inserted into the through hole of the support plate 10 and the inclined surface 6 of the suspension support part 5 is supported as shown in FIG. Close contact with (10) to maintain airtightness and suspend in exhaust gas.

In FIG. 1, the suspension state of only one ceramic filter is shown. However, in the actual apparatus, tens or hundreds of ceramic filters are suspended and used in parallel.

In addition, when the high-temperature combustion exhaust gas discharged from various combustion apparatuses passes through the pores 9 of the partition walls 3b from the outside of the ceramic filter toward the inner cylinder portion, the dust and the like contained in the combustion exhaust gas are collected and removed on the outer surface of the ceramic pulp. do. In the case of containing unburned substances such as carbon powder in the sold-out, the unburned substances are burned on the surface of the ceramic filter in a high temperature state, and combine the characteristics of dust removal removal and promotion of combustion of unburned powder.

In addition, since there is an inclined surface 6 in which the annular thick portion 4 of the ceramic filter faces the opening end 2 side, the airtight structure is simply achieved by simply dropping the ceramic filter into the through hole of the support plate 10. .

As described above, the high-temperature ceramic filter of the present invention has a relatively simple structure and shape, but is configured as an aggregate of refractory particles, so that the high-temperature ceramic filter can be directly used for high-temperature combustion flue gas at about 500 ° C to 900 ° C. Since there is an inclined surface to enlarge, the airtight structure is extremely simple and reliable.

In addition, it is possible to directly collect and remove the dust in the hot combustion flue gas, and at the same time, there are many advantages such as the combustion promoting effect of the unburned powder contained in the flue gas.

Therefore, the dust collector using the high temperature ceramic filter of the present invention does not require any cooling device for the high temperature combustion flue gas, so it is possible to miniaturize the dust collection equipment, which is economically extremely advantageous, effective for preventing air pollution, and extremely useful for preventing pollution.

Claims (1)

It is an aggregate of refractory particles, and has a user cylindrical body having a large number of pores communicating with the inner and outer surfaces. The partition wall near the open end of the user cylindrical body forms an annular thick portion thicker than the partition walls of other portions, and the annular thick portion is the current branch. A high temperature ceramic filter comprising a branch and removing dust in the hot combustion exhaust gas having an inclined surface in which the annular thick portion extends toward the open end side.