RU2036016C1 - Electrofilter - Google Patents

Abstract

FIELD: chemical industry. SUBSTANCE: electrofilter electrodes are made of polymeric heat-conducting universal modular multichannel plates with the conducting filler. The plates are connected with fasteners forming electrodes of hexahedral, square, laminar and tubular shape. EFFECT: enhanced efficiency of gas-purifying and dust-catching apparatus. 11 cl, 13 dwg

Description

 The invention relates to gas purification and dust removal apparatuses of such industries as non-ferrous metallurgy, petrochemical industry, mineral fertilizer industry, chemical industry, etc.

Known electrostatic precipitator containing a housing, a system of precipitation electrodes made of polymer materials, a system of corona electrodes, a suspension system of electrodes [1]
The disadvantages of this electrostatic precipitator are the complexity and unreliability of the isolation system of the precipitation system from the corona system.

Closest to the invention is an electrostatic precipitator comprising a housing, a system of polymer precipitation electrodes, a system of corona electrodes and a suspension system of electrodes [2]
The advantage of this electrostatic precipitator is the monoblock design of electrode systems, which creates certain advantages when installing an electrostatic precipitator. However, the insulation system of dissimilar electrodes is also not sufficiently reliable, in particular, when operating in wet mode and does not provide tight tolerances on the electrodes, which greatly affects the efficiency.

 In addition, this electrostatic precipitator is made of expensive special steels, which does not provide sufficient durability and significantly increases the cost of an electrostatic precipitator when used in a chemically aggressive environment.

 This electrostatic precipitator also has significant material consumption, since the walls of the electrodes are continuous.

 The aim of the invention is to eliminate the noted drawbacks, a sharp decrease in the material consumption of electrostatic precipitators, providing tight tolerances, making electrodes, including corona, from thermally conductive polymer materials.

 The goal is achieved by the fact that the precipitation electrodes are made of heat-conducting universal modular multichannel plates interconnected to form hexagonal, tubular, square electrodes, in the lower part they are connected by fasteners matching in cross section in the shape of joints of polymeric multichannel modular plates, moreover, the plates the electrodes are suspended from the top of the beam or lattice, and the corona electrodes are made of thermally conductive polymer material, while plates are formed with tubular channels, and as the resin material for electrode systems use teploelektroprovodyaschuyu polymer composition based on polypropylene, polyvinyl chloride, polyethylene, etc. The same universal modular elements that determine the shape of the electrode are provided with vertical grooves. The upper part of the plate is suspended to the beam by means of a loop or in the suspension beam in the lower part there is a groove for fixing the plates. Corona electrodes can be made in the form of tapes equipped with teeth, as well as from parts of universal modular multi-channel polymer plates to which polymer comb elements are attached. Other options for the implementation of the corona electrodes is to perform them in the form of a tetrahedral asterisk, or there may be a design of these electrodes in the form of a polyhedral asterisk. In addition, the corona electrodes can be equipped with combs having teeth from two opposite end parts. The fasteners are made in the form of bonded together in the spaces between the vertical modular multi-channel polymer plates.

 The present invention provides a sharp decrease in material consumption compared to the prototype. In addition, tight tolerances are provided, providing high electrical characteristics of the electrostatic precipitator and, as a result, its high efficiency (see table).

 As can be seen from the table, the present invention provides the most stringent tolerances of the precipitation electrodes. Material consumption is also significantly reduced.

 In FIG. 1 shows the proposed electrostatic precipitator; figure 2 section of the system of the corona-depositing electrodes of figure 2; figure 3 the mounting element of the plates of the precipitation electrodes in the lower part with the formation of the corresponding shapes of the electrodes; figure 4 plate with a corresponding vertical groove; figure 5 option mounting plates in the upper part in the groove of the beam; in Fig.6 a variant of the suspension of the upper part of the plates using a loop; in Fig.7 the implementation of the corona electrodes in the form of tapes equipped with teeth; on Fig the implementation of the corona electrodes from the parts of the universal modular multi-channel plates to which the comb elements are attached; Fig.9 implementation of the corona electrode in the form of a tetrahedral star; figure 10 comb with teeth on both sides; in FIG. 11 tubular-shaped precipitation electrode; in Fig.12 precipitation electrode of a square shape; in Fig.13 couplers of electrodes having fasteners located in the gaps between the vertical universal modular multi-channel polymer plates.

 The electrostatic precipitator consists of a housing 1, precipitation electrodes 2, loops 3 or grooves 6a for mounting universal modular multi-channel polymer plates 4, couplers 5, determining the shape of the electrode in the lower part. The plates of the electrodes are equipped with grooves 6, providing a free vertical stroke of the plates. The electrostatic precipitator has fastening elements 7, corona electrodes 8, which are supplied or not supplied with combs 9 having teeth 10 or tongues 11. In addition, the corona electrodes can be provided with ribs 12. The electrodes are tensioned by loads 13 or by means of fastening through an insulation system. In the housing there is a drain pipe 14. In addition, there are beams or gratings 15 for attaching the precipitation electrodes 2, consisting of universal modular multi-channel plates 4, and a frame 16 for attaching the corona electrodes 8. In the housing there is a gas supply pipe 17 and a gas discharge pipe 18 The electrostatic precipitator is also equipped with an insulation system 19 and a gas separation system 20. Precipitation electrodes can be made of plates in the form of a hexagon (figure 2), a pipe (figure 11), a square (figure 12), a plate version (figures 6 and 7 )

 The electrostatic precipitator works as follows.

 The contaminated gas enters the nozzle 17, passes through the gas distribution system, after which the gas is evenly distributed over the cross section of the electrostatic precipitator and enters its active zone, which consists of corona 8 and precipitation electrodes 2. The gas polluting particles, getting under the influence of the corona discharge, are charged and moved along towards the precipitation electrodes on which they are deposited, and then removed by one of the known methods.

 A characteristic feature of the proposed electrostatic precipitator is that, depending on the need, the proposed universal modular multi-channel plates allow it to be assembled in hex, square, plate and tubular versions. At the same time, material consumption is sharply reduced, there is no need to use special methods of reinforcing or creating a liquid film necessary for the removal of electricity. Instead of gas distribution grids of one or two, gas distribution vanes or other guiding devices can be used.

Claims (12)

 1. ELECTROFILTER comprising a housing, a system of precipitation electrodes made of polymeric materials with electrically conductive fillers, a system of corona electrodes, a suspension system of electrodes, characterized in that the precipitation electrodes are made of polymer heat-conducting universal modular plates interconnected to form hexagonal, tubular electrodes , square, plate-shaped, in the lower part connected by fasteners matching in cross section in the form of joints of polymer modules x plates, the plates of the electrodes suspended from the top of the suspension system comprising a beam or grid and the discharge electrodes are made of a polymeric material teploelektroprovodyaschego.  2. The electrostatic precipitator according to claim 1, characterized in that the polymer plates are made with tubular channels.  3. An electrostatic precipitator according to claims 1 and 2, characterized in that a thermally conductive polymer composition based on polypropylene, polyvinyl chloride, polyethylene is used as a polymer material for electrode systems.  4. The electric filter according to paragraphs. 1 to 3, characterized in that the universal modular plates, which determine the shape of the electrode, are provided with vertical grooves.  5. The electrostatic precipitator according to claim 1, characterized in that the plates with the upper part are suspended from the beam by means of a loop.  6. The electrostatic precipitator according to claim 1, characterized in that a groove for fastening the plates is made in the lower part of the suspension beam.  7. The electrostatic precipitator according to claim 1, characterized in that the corona electrodes are made in the form of tapes equipped with teeth.  8. The electrostatic precipitator according to claim 1, characterized in that the corona electrodes are made of parts of universal modular multi-channel plates to which polymer comb elements are attached.  9. The electrostatic precipitator according to claim 1, characterized in that the corona electrodes are made in the form of a tetrahedral asterisk.  10. The electrostatic precipitator according to claim 1, characterized in that the corona electrodes are made in the form of a multifaceted asterisk.  11. The electrostatic precipitator according to claim 1, characterized in that the corona electrodes are provided with combs having teeth from two opposite end parts.  12. The electrostatic precipitator according to claim 1, characterized in that the fasteners are made in the form of couplers fastened together in the spaces between the vertical universal modular multichannel polymer plates.

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