RU2209655C2 - Cartridge filter - Google Patents

Abstract

FIELD: cleaning gases from dust; ferrous and non-ferrous metallurgy; manufacture of building materials; chemical industry. SUBSTANCE: proposed cartridge filter has housing with filtering cartridges inside it; each filtering cartridge consists if filter medium and framework. Mounted in upper portion of filter is pulse regeneration unit provided with blow valves, pyramidal detachable caps at opening angle of 60-0 deg. and air divider mounted in upper portion of detachable caps located under blow valves. Filter is divided into sections in vertical plane. Filtering cartridges are so located that divide each section of filter in horizontal plane into clean and contaminated gas chambers; they consist of wedge-shaped wells of filter medium and wedge-shaped framework made from wire members. Filter housing is provided with rods rigidly secured on it at points of connection of wedge-shaped wells for free suspension of filtering cartridges. Upper edge of filter medium is made in form of loop over perimeter of filtering cartridge; each section of filter is provided with fixed shelf and hold-down plate between clean and contaminated gas chambers; loop of upper edge of filter medium is secured between said shelf and plate. EFFECT: enhanced efficiency; possibility of regeneration of filter with no reduction in its throughput; enhanced reliability. 3 dwg

Description

 The invention relates to the field of gas cleaning from dust and can be used in various industries: ferrous and non-ferrous metallurgy, building materials industry, chemical industry, etc.

 Known cartridge (frame) filter containing filter elements made in the form of flat structures mounted on metal grids inserted in cassettes (Gordon V.M., Peysakhov I.L. Dust collection and gas purification. M., 1968). Filtration in it is carried out from the outside to the inside (similarly to bag filters with pulse regeneration).

 The main advantage of such a filter is the ability to place a larger filtration surface in the same volume than in a bag filter, with the same gas load. At the same time, the height of such a filter is almost 2 times less compared to a similar bag filter.

 However, such a filter has drawbacks associated with laborious flushing, oil regeneration, and oil entrainment from the filter to the compressor flow path. In winter, sometimes icing of the cassettes occurs, which creates the need for their dismantling.

Also known is a pocket filter for gas purification (Aut. St. USSR 1200945, IPC ⁴ V 01 D 46/02, publ. 30.12.85, bull. 48), comprising a housing with inlet and outlet nozzles, filter sections, filter material in which placed between the outer and inner frame rods. The purpose of the frame rods is to maintain volumetric shape in the processes of filtration and regeneration of filter material. The regeneration of the filter elements is carried out by reverse purging the air supplied by the fan.

 The disadvantages of this filter are the low efficiency of dust cleaning of gases from the method of filtration and regeneration of the filter material, due to the fact that reverse purging is ineffective when using needle-punched fabric of high surface density. In addition, when applying backflushing, it is necessary to remove individual sections or the entire filter from the filtering mode during the regeneration.

Closest to the claimed invention in technical essence and the achieved result is a cassette filter (Auth. Certificate. USSR 797731, IPC ³ 01 D 46/12, publ. 23.01.81, bull. 3), in which the cartridges are made in the form of hexagons, located in the filter housing in the form of honeycombs. The cassette is made hexagonal with stiffeners fitted with a mesh and filter material. This design allows for an equivalent volume of existing filters to reduce their volume by 40% while maintaining the same filtration area. In such a filter, the process of regeneration of the filter material of the cartridges is also carried out by the method of backward blowing with fan air.

The disadvantages of such a filter (as described above) are the low efficiency of gas cleaning from dust by filtration and the regeneration of the filter material. The use in these filters of regeneration of filter elements by reverse purging with ventilation air makes it necessary to remove part (separate sections) or the entire filter from the filtration mode for the duration of regeneration. It should be noted that as a result of regeneration, the filtering process in the filter partially or completely stops. The filter stop time for regeneration is from 5 to 10 minutes. In addition, in order to conduct regeneration, the filter unit must be equipped with special devices to switch the filter to filtration or regeneration mode. Back-flushing is ineffective when using needle-punched filter cloth of increased density (500 g / m ² or more) and low air permeability, i.e. eliminates the possibility of filtering gases containing fine dust. All this reduces the technical and economic indicators of the known cassette filters.

 The basis of the creation of the claimed invention is the task to develop an improved cassette filter, the design of which allows for high efficiency of gas purification from fine dust by the filtration method and at the same time to regenerate the filter material without reducing the filter performance. The efficiency of gas purification from fine dust can be achieved through the use in the claimed invention of a new design of filter cassettes, which allows them to use such filter material as a needle-punched cloth of high density, and effective regeneration of the filter cloth can be obtained by applying pulses of compressed air more powerful than during regeneration by backflushing.

The inventive cartridge filter refers to filters of small capacity up to 10000 m ³ / h. Therefore, when creating it, the task was to develop such an improved cassette filter, which is compact, simple in design, as well as high technical and economic performance and reliability in operation. At the same time, automation and continuous monitoring of the operation of the new cassette filter are ensured using standard automation equipment and instrumentation.

The problem is solved in that in the known cassette filter comprising a housing and filter cassettes located therein, consisting of a filter material and a frame, according to the claimed invention, in the upper part of the filter is equipped with a pulse regeneration device with purge valves, pyramidal removable caps with an opening angle of 60 ÷ 90 ^o and air dividers installed in the upper part of the removable caps, and the removable caps are located under the purge valves, in a vertical plane, the filter ra is divided into sections, filter cartridges are installed so that they divide each section of the filter horizontally into clean and dirty gas chambers and consist of wedge-shaped pockets of the filter material and a wedge-shaped frame made of wire elements, at the junction of the wedge-shaped pockets, the filter housing is rigidly fixed to rods to which the filter cartridges are freely suspended, the upper edge of the filter material around the perimeter of the filter cartridge is made in the form of a loop, and to Each section of the filter between the clean and dirty gas chambers along the perimeter is equipped with a fixed shelf and a pressure bar, between which a loop of the upper edge of the filter material of the filter cartridge is fixed.

 The installation in the inventive cartridge filter, in its upper part, of a pulse regeneration device, as well as a new constructive solution of filter cartridges made of wedge-shaped pockets of filter material with wedge-shaped frames made of wire elements (which makes it possible to use needle-punched fabric of increased density as a filter material), provides effective gas purification from fine dust and regeneration of the filter material by applying pulses of compressed air without removing Ode to individual sections from a gas filtration process. A purge valve supplies a pulse of compressed air to the regenerated section, creating a shock wave evenly over the surface of the filter material. The opening time of the purge valve is less than 0.01 s, and the full opening and closing is not more than 0.1 s. Back pressure for cleaning the filter material from the side of the clean gas is at least 2000 Pa, which makes it possible to use a filter material of high density. Such a constructive solution provides high efficiency for dust gas cleaning by filtration, and the system of pulsed regeneration devices provides compressed air pulses to create a shock wave during the regeneration of the filter material without stopping the filtering process of the regenerated filter section for a duration of one regeneration cycle of not more than 0.1 s .

The installation in the upper part of the filter under the purge valves of pyramidal removable caps with an opening angle of 60 ÷ 90 ^o , as well as the installation of air dividers in the upper part of the removable caps, makes it possible to create a uniform front of the shock wave, since conditions are provided for the expansion of the air stream created by a pulse of compressed air from the purge valve over the entire area of the regenerated section of the filter.

The decrease in the opening angle of the removable cap less than 60 ^o will cause an unjustified increase in the height of the filter, and the increase in the opening angle of more than 90 ^o creates the conditions for an uneven supply of compressed air for regeneration.

 The execution of caps located under the purge valves, removable provides access to the filter housing from the side of clean gas.

Due to the fact that in the vertical plane the filter is divided into sections, optimization of both the filter design according to its dimensions and performance is ensured, based on the conditions for creating an economical filter design with a capacity of up to 10,000 m ³ / h. The choice of a specific number of sections is determined by a given filter performance.

 The separation of each section in a horizontal plane into the chambers of clean and dirty gas allows us to ensure the convenience of servicing the internal elements of the filter from the side of clean gas, which, in turn, improves the reliability of its operation.

 The sealing of the clean gas chamber necessary for efficient and reliable operation of the cassette filter is achieved by performing the upper edge of the filter material around the perimeter of the filter cartridge in the form of a loop, as well as supplying each section of the filter between the clean and dirty gas chambers along the perimeter with a fixed shelf and a pressure bar, between which the loop of the upper edge of the filter material of the filter cartridge is fixed. Shelves and strips between which a loop of filter material is fixed, reliably ensure the sealing of the clean gas chamber, thereby eliminating the leakage of dirty gas into the clean gas chamber, which, in turn, is necessary to create high efficiency and reliable operation of the cassette filter as a whole.

 The rods, rigidly fixed in the filter housing at the junction of the wedge-shaped pockets, to which the filter cartridges are freely suspended, are a support for the filter cartridges. Such a simple constructive solution provides not only a reliable fastening of the filter cassettes, but also solves the issues of filter design optimization, ensuring the reliability of its operation.

 Taking into account the above and taking into account the disclosed causal relationship between the totality of the features of the claimed invention and the technical result obtained through their use, it can be argued that the task underlying the creation of a new cassette filter is fully completed, since the use of the invention allows to ensure the efficiency of gas purification from fine dust by filtration and at the same time to regenerate the filter material without compromising performance and a filter using such a filter material as a needle punched fabric increased surface density. The inventive design is compact, simple, and also provides high technical and economic performance and reliability in operation. In addition, the use of the claimed invention allows for automation and continuous monitoring of the cartridge filter using standard instrumentation.

The essence of the invention is illustrated by drawings, which show:
- figure 1 is a schematic General view of an 8-section cassette filter;
- figure 2 - view A;
- figure 3 - node B.

The cartridge filter contains a housing 1 with inlet 2 and output 3 nozzles located on both sides of the housing 1, hoppers 4 located in the lower part of the housing 1, a pulse regeneration device 5 with purge valves 6, pyramidal removable caps 7 with air dividers 8, filter cartridges 9 with wedge-shaped pockets 10 made of filter material and a wired volumetric frame 11 of a wedge-shaped shape. The pyramidal removable caps 7 are located under the purge valves 6 and are equipped with air dividers 8, which are installed in the upper part of the pyramidal removable caps 7. The opening angle of the pyramidal removable caps 7 is 60 ÷ 90 ^o . In the vertical plane, the filter is divided into sections according to the number of removable hoods 7, and in the horizontal plane, each section is divided into two chambers of clean gas 12 and dirty gas 13. At the locations of the filter cartridges 9, which consist of wedge-shaped pockets 10 made of filter material, and wedge-shaped frames 11 made of wire elements, the filter housing 1 is provided with rods 14 rigidly fixed to it, to which filter cartridges are freely suspended 9. The upper edge of the filter material and around the perimeter of the filter cartridge 9 is made in the form of a loop 15, and each section of the filter between the chambers of clean gas 12 and dirty gas 13 is equipped with a fixed shelf 16 and a pressure bar 17, between which a loop 15 of the upper edge of the filter material of the filter cartridge 9 is fixed.

 The cassette filter operates as follows.

 Dirty gas through the inlet pipe 2 enters the dirty gas chamber 13 and is further distributed along the outer surface of the filter material between the pockets 10 of the filter cartridge 9. During the filtration process, the purified gas flows through the filter material into the interior of the wedge-shaped pockets 10 of the filter cartridge 9 and rises into the clean chamber gas 12, and from there through the outlet pipe 3 is discharged into the atmosphere.

 The volume of wedge-shaped pockets 10 of the filter material of the filter cartridge 9 is maintained by a wedge-shaped frame 11 made of wire elements.

As the dust layer accumulates on the surface of the filter material of the filter cartridge 9, the filter resistance increases and, upon reaching the specified pressure drop in the dirty gas chambers 13 and clean gas 12, the purge valves 6 of the pulse regeneration device 5 are automatically activated. Compressed air is supplied by a pulse from the purge valves 6 into the pyramidal removable caps 7. The formation of the front of the shock wave due to the pulse of compressed air is provided by the opening angle of the pyramidal removable caps 7, making conductive ÷ 60 90 ^o, and installed in the upper part of the pyramidal removable caps 7 8 air spargers. A shock wave created by a pulse of compressed air acts on the inner surface of the filter cartridge 9 (from the side of the clean gas chamber 12) and creates a backpressure in it. The wedge-shaped pocket 10 of the filter material of the filter cartridge 9 sharply opens, and dust from its surface is discharged into the hopper 4 of the cassette filter housing 1.

 Sealing between the chambers of clean gas 12 and dirty gas 13 is achieved by framing in the form of a loop 15 the upper edge of the filter material around the perimeter of the filter cartridge 9, as well as installing on the border between the chambers of clean gas 12 and dirty gas 13 a fixed shelf 16 and a pressure bar 17, between which secured the loop 15 of the filter material of the filter cartridge 9.

Claims (1)

A cassette filter containing a housing and filter cassettes located inside it, consisting of a filter material and a frame, characterized in that the filter has a pulse regeneration device with purge valves, pyramidal removable caps with an opening angle of 60 ÷ 90 ^o and air dividers installed in the upper part in the upper part of the removable caps, and the removable caps are located under the purge valves, in a vertical plane the filter is divided into sections, the filter cassettes are installed so that pour each section of the filter in a horizontal plane onto the chambers of clean and dirty gas and consist of wedge-shaped pockets of the filter material and a wedge-shaped frame made of wire elements, at the junction of the wedge-shaped pockets, the filter body is equipped with rods rigidly fixed to it, to which filter cartridges are freely suspended, the upper edge of the filter material around the perimeter of the filter cartridge is made in the form of a loop, and each section of the filter between the chambers of clean and dirty gas erimetru provided with a fixed flange and a clamping plate between which the loop is secured the upper edge of the filter material of the filter cassette.

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