RU84735U1 - DUST COLLECTOR FOR DRY GAS CLEANING - Google Patents

Abstract

1. Dust collecting apparatus for dry cleaning of gases, comprising a housing with an electrostatic precipitator and a fabric filter installed in it along the gas stream, characterized in that the ratio of the deposition surface area of the precipitating electrodes of the electrostatic precipitator to the filtration area of the tissue filter is 0.1 ... 0.8, while precipitation electrodes of the electrostatic precipitator are installed with an interelectrode distance of not more than 500 mm. ! 2. Dust collecting apparatus for dry gas cleaning according to claim 1, characterized in that the filtering rate of the fabric filter is from 0.6 m3 / m2 · min to 1.8 m3 / m2 · min.

Description

The proposal relates to the field of gas purification with a high concentration of fine dust and can be used in the power industry, metallurgy, building materials industry, chemical industry and other industries.

A known dust collecting apparatus for dry gas cleaning, comprising a housing with an electrostatic precipitator and a fabric filter installed in it along the gas stream. (RU patent No. 2248837 cl. B01D D 6/02, 2004)

A disadvantage of the known dust collecting apparatus is the unsatisfactory cleaning of fine dust

The technical task of the proposed utility model is the development of a dust collecting apparatus that provides an increase in the efficiency of gas purification with increased input dust content and fine dust dispersion.

The technical problem is solved due to the fact that the dust collecting apparatus, consisting of a housing with an electrostatic precipitator and a fabric filter installed in it along the gas, has a ratio of the deposition surface area of the precipitating electrodes of the electrostatic precipitator to a filtration area of a tissue filter of 0.1 ... 0.8, while precipitation electrodes of the electrostatic precipitator are installed with an interelectrode distance of not more than 500 mm, and the filtering rate of the fabric filter can be from 0.6 m ³ / m ² min to 1.8 m ³ / m ² . min

In Fig.1 shows a dust collecting apparatus.

Figure 2 is a section along aa of Figure 1.

Figure 3 is a section along BB of figure 1.

The dust collecting apparatus comprises a housing with a diffuser 1 at the gas inlet, an electrostatic precipitator 2, a fabric filter 3, a gas outlet 4, precipitating electrodes 5, corona electrodes 6, filter elements 7, a hopper part of an electrostatic precipitator 8, a hopper part of a fabric filter 9, valve sections 10, manifolds dirty gas 11, clean gas manifolds 12.

Dusty gas enters the diffuser 1, where, distributed along the height and width of the electrostatic precipitator 2, it is cleaned under the action of high voltage supplied through the corona electrodes 5 to a dust level sufficient for normal operation of the fabric filter 3. The trapped dust is mainly deposited on the surface of the precipitation electrodes 5 and then, after impact, enters the hopper part of the electrostatic precipitator 8. Then, through the dirty gas collector 11, the dusty stream enters the surface of the filter elements 7, and the purified gas is blackened of clean gas manifold 12 and gas outlet pipe 4 exits the filter. Dust trapped on the surface of the filter elements 7, through the valve section 10 enters the hopper part of the fabric filter 9.

Considering that the efficiency and dimensions of the electrostatic precipitator depend on the surface area of the deposition of precipitation electrodes, and the dimensions of the fabric filter - on the filtration area, calculations were performed to determine the ratio of these areas to ensure maximum efficiency of the dust collecting apparatus. The effective operation of an electrostatic precipitator means the absence of a corona discharge during cleaning of finely dispersed dust of increased concentration, and the efficiency of a fabric filter depends on the pressure drop across the filter element, exceeding which either destroys the filter element, or breaks in dust through the filter element, or requires intensive regeneration of the filter element.

The ratio of the surface area of the deposition of precipitation electrodes and filtration of 0.1 ... 0.8 allows for increased cleaning efficiency and reliable operation of the dust collecting apparatus. When the ratio is less than 0.1, the efficiency of the electrostatic precipitator is insufficient, increased dust content at the entrance to the fabric filter leads to low efficiency due to the frequent regeneration of filter elements.

At a ratio of more than 0.8, an increased filtration rate leads to dust breakthrough and destruction of filter elements, which also reduces the cleaning efficiency.

The proposed solution allows to increase the efficiency of gas purification from highly dispersed dust of high concentration, including dust difficult to collect in the electrostatic precipitator, for example, with high electrical resistivity.

Claims (2)

1. Dust collecting apparatus for dry cleaning of gases, comprising a housing with an electrostatic precipitator and a fabric filter installed in it along the gas stream, characterized in that the ratio of the deposition surface area of the precipitating electrodes of the electrostatic precipitator to the filtration area of the tissue filter is 0.1 ... 0.8, while precipitation electrodes of the electrostatic precipitator are installed with an interelectrode distance of not more than 500 mm. 2. Dust collecting apparatus for dry gas cleaning according to claim 1, characterized in that the filtering rate of the fabric filter is from 0.6 m ³ / m ² · min to 1.8 m ³ / m ² · min.