RU2248837C1 - Dust catching apparatus - Google Patents

Abstract

FIELD: power engineering; ferrous and nonferrous metallurgy; cement industry; gas sweetening from a dust.

SUBSTANCE: the invention presents a dust catching apparatus intended for gas sweetening from a dust in different fields of industry, in particular, in power engineering, ferrous and nonferrous metallurgy, cement industry, etc. The dust-catching apparatus includes an electro filter and in series with it installed a fabric filter with a ratio of their active volumes as 0.1-0.9. The apparatus ensures: a maximum efficiency of gas cleaning irrespective of concentration of a dust in the cleaned gas, its dispersity and specific electrical resistance; a big service life between repairs.

EFFECT: the dust catching apparatus ensures a maximum efficiency of gas cleaning and a big service life.

3 cl, 2 dwg

Description

The invention relates to the field of gas purification from dust and can be used in energy, ferrous and non-ferrous metallurgy, cement and in other industries.

Known electrostatic precipitators, which are widely used for cleaning gas from dust (see the Handbook on dust and ash collection. M: Energoizdat, 1983, p.197-234). Their advantage is the high concentration of dust in the gas being cleaned - above 50 g / m ³ , and the disadvantage is the unsatisfactory gas purification from fine and high resistance dust, i.e. dust with high electrical resistivity. The residual concentration of dust in the purified gas is tens or more mg / m ³ , which does not always satisfy modern requirements.

To clean the gas from dust, fabric filters are also used (see the Handbook on dust and ash collection. M: Energoizdat, 1983, p. 169-193). Their disadvantage is the limited concentration of dust in the gas being cleaned - from units to 50 g / m ³ . At the same time, very frequent regeneration of the sleeves is required, which dramatically reduces their service life. The lower the inlet dust concentration in the bag filter, the less often the regeneration and the longer the service life of the bags and the reliability of the bag filter. The advantage of fabric filters is the efficient purification of gas from fine and high resistance dust. In this case, the residual dust concentration in the purified gas may be units of mg / m ³ .

The objective of the proposed technical solution is the development of a dust collecting apparatus that provides the maximum degree of gas purification regardless of the concentration of dust in the gas being cleaned, from dispersion and from the electrical resistivity of dust with a long resource between repairs.

The problem is solved by the proposed dust collecting apparatus, the distinguishing features of which are that a fabric filter is installed sequentially behind the electrostatic precipitator with a ratio of active volumes of the filter to the electrostatic precipitator of 0.1-0.9, and the electrostatic precipitator and filter are located in one or different cases.

Figure 1 shows the dust collector in one housing, and figure 2 in two buildings. Here, the gas enters the diffuser 1, is first cleaned in the electrostatic precipitator 3, which consists, for example, of two sections, and then in the fabric filter 5 and exits the confuser 6. High voltage is supplied to the electrostatic precipitator through insulators 4, and the collected dust enters the hopper 7. The housing 2 is uniform for the entire apparatus in figure 1 and separate for the electrostatic precipitator and fabric filter in figure 2.

The active volume of the electrostatic precipitator is the volume of the apparatus occupied by the electrode system, and in the fabric filter, the volume of the apparatus occupied by the filtration elements.

The ratio of the active volumes of the filter to the electrostatic precipitator 0.1-0.9 creates normal operating conditions for the filter even with a maximum dust concentration at the inlet of the electrostatic precipitator - 100 g / m ³ and resource life of the sleeves up to 5-6 years or more. When the ratio of the active volumes of the filter to the electrostatic precipitator is less than 0.1, the load on the filter elements becomes unacceptably large, which leads to an increase in the hydraulic resistance of the filter elements and the termination of the filtering process. This requires an increase in the intensity of regeneration and leads to rupture of the sleeves.

When the ratio of the active volumes of the filter to the electrostatic precipitator is more than 0.9, the dust concentration at the inlet to the filter increases. This leads to an increase in the frequency of regeneration of filter elements and a decrease in the service life of the sleeves and an increase in dust emissions from the dust collecting apparatus.

The application of the proposed dust collecting apparatus provides the maximum degree of gas purification regardless of the properties of dust and provides the required overhaul cycle.

Claims (3)

1. Dust collecting apparatus containing an electrostatic precipitator, characterized in that after the electrostatic precipitator a fabric filter is installed with a ratio of active volumes of the tissue filter to the electrostatic precipitator of 0.1-0.9. 2. The dust collecting apparatus according to claim 1, characterized in that the electrostatic precipitator and the fabric filter are located in one housing. 3. The dust collecting apparatus according to claim 1, characterized in that the electrostatic precipitator and the fabric filter are located in different buildings.

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