SU1273145A1 - Apparatus for cleaning gases - Google Patents

Abstract

The invention relates to the field of gas purification from mist and vapors of sulfuric acid and improves the efficiency and reliability of the device and ensures the continuity of its operation. The device comprises a housing and at least three insulated filter vessels, which are insulated from one another, and contain corrugated and flat vinyl grids. Each filter tank consists of a piping placed along the axis with a partition in the lower part and connected with it, radial supporting piping placed by channels connected to an annular piping forming the frame of the filtering container, on which filter packages are fixed with casing with height gap between the packages, Under packages an annular drainage collector is placed with openings in the side part, adjacent to which are radial drainage pipes connected to an axial pipe and an opening and E in the lower part adjacent to the end face of the filter pack. The lower radial pipes are made with a clone to the horizontal, connected to the axial pipe and placed on a tray with edges protruding beyond the edges of the filter bags. Filter bags consist of a set of alternating flat and corrugated vinyl-plastic grids having a size (L vertical in the shtakhtam order of the hole with the offset of the opposite holes by one diameter and with the formation of the vertical channels. The axial pipeline is equipped with a regulating washer. the annular inlet manifold gets water through the holes into the end of the filter bag and through the grooves in the bag, cleaning them and the walls of the grids from contamination, flows 4 down and goes to the protruding . For this purpose the edge of the filter trays paketok further through the openings in the annular water enters drain manifold and from there along radial lines -. A septum under an axial conduit 3 ZP-f ly 1 yl.

Description

The invention relates to the purification of gases from fog and vapors of sulfuric by trapping its droplets with fissile material and can be used in the metallurgical, construction and chemical industries for the purification of air removed from etching baths from fog and vapors of sulfuric acid and aerosol of iron sulfate.

The aim of the invention is to increase efficiency, reliability and ensure continuous operation.

Figure 1 shows the device, a General view; figure 2 is the same, a top view; in Fig.Z - the same side view; figure 4 - inlet holes of the socket; in Fig.5 is a section aa in Fig.Z (filter drum); Fig.6 ree BB in Fig.5; in Fig.7 - in Fig.6; Fig. 8 is a sectional view of Fig. 6; in Fig. 9 ~ node II in Fig. 10 is a section G-D in Fig. 5 (view of the filter bag); in view D in Fig. 7 (top view of the plunger bag).

The device contains a housing

- site I BB in Fig.6;

"In which at least three filtering containers 2 are located, isolated from each other. A bell 3 is placed along the entire length of the housing for supplying gas to the filtering containers. The socket has a bevel at the end parallel to the bevel of the base of the filtering tanks. In the end wall 4 of the socket, holes 5 are made, uniformly increasing in diameter as they move away from the axis of the socket,

The filtering containers in the upper part have a discharge pipe 6 of purified gas with a shut-off-control damper 7.

The exhaust pipes 6 are connected to the manifold 8 of the purified gas.

The frame of the filter tank 2 consists of an axial pipe 9 and connected to it placed in tiers of radial support pipelines 10 and radial feed pipelines 11. Pipelines 10 are connected to. an annular pipe 12 forming the frame of the filter tank, on which the filter bags 13 are fixed with a clearance between the bags in height in the middle part of the filter tank. Pipelines 11 are connected to annular supply manifolds 14 having openings 15 in the side and 16 in the lower part for supplying water to the bags 13.

The filter bags 13 are located transverse to the direction of entry of the gas stream and consist of a set of flat 17 and corrugated vinyl-plastic grids 18, alternating between each other and forming vertically staggered holes 19 with the offset of the opposing holes by one diameter and with the formation of zigzag channels vertically. The upper and lower filter bags 13 are separated by a looped collector 14.

The pipelines 12 are vertically connected by pipes 20. The complex of pipelines 10, 12 and pipes 20 acts as a power element of the frame. An annular drainage collector 21 is made in the lower part of the filtering tank frame, adjacent to the lower part of the filtering bags 13, having an opening 22 at the place where it adjoins the package. Radial drainage pipes 23 are connected to the collector 21 at an angle to the horizontal of 15 ^H , connected to the lower part of the axial pipeline 9. Under the radial drainage pipelines 23, a continuous conical pan 24 is made with edges protruding beyond the edges of the filter bags 13,

The pipeline 9 in the upper part is connected to the water supply pipe 25 for regeneration of the filters, and in the lower part - to the pipe 26 for removal of regeneration products and trapped acid. The pipeline 9 in the lower part above the junction with the pipe 23 is equipped with a partition 27, and in the upper part - a regulating washer 28.

The device operates as follows.

The purified gas is fed into the socket 3 and through the hole 5 in the walls 4 of the socket evenly enters the space between the walls of the housing and filter containers, from where it enters the filter bags 13.

Due to the displacement of the holes 19 by one diameter in the flat 17 and corrugated 18 grids and the formation of vertical channels, particles of fog and vapors entering the filter bags 13 move along zigzag trajectories located in

1273 different planes, and settle on the walls of the nets.

The water entering the annular supplying collector 14 through the holes 16 enters the end of the filtering unit _{5 of the} keta 13 and through the grooves formed in the package ι formed by the grids, cleaning them and the walls of the grids of dirt, flows down and falls onto the edges of the filtering ones acting for this purpose packages of pallets 24. Then, through openings 22, water enters the annular drainage collector 21, and from it through radial pipelines 23 into the axial pipeline 9 under the partition 5.

The regulating washer 28 ensures that water flows into the upper annular supply manifold in cases of a decrease in water pressure in supply pipe 25, and, consequently, a decrease in its supply, since water flows into the lower collector by filling the axial pipe cavity 25 with water 9 to the level location of the lower feed ring collector.

To regenerate the filter tank, close the shutter 7 on the air duct, through the pipe 25 to the pipe 9 water is supplied, which through the pipe 11 enters the collector 14. Through the side openings in it and through the lower holes, it enters the mesh of the filter bags, and then onto the pan 24 and through pipelines 23 and 26 to the sewer.

Two filter containers are in operation constantly, ₄₀

Claims (2)

The invention relates to the purification of gases from mist and vapors of sulfuric acid by trapping its droplets with a filter material and can be used in the metallurgical, maotin-building and chemical industries to purify the air removed from etching baths from mist and vapors of sulfuric acid and aerosol of iron sulphate. The aim of the invention is to increase efficiency, reliability and ensure continuity of work. Figure 1 shows the device, a general view; Fig 2 is the same, top view; on fig.Z - the same, VI, C sideways j in figure 4 - the inlet holes of the socket; on fig.Z - section aa on fig.Z (filter drum); Fig 6 - section BB in Fig.Z; 7 - node I in FIG. 6; Fig, 8 is a section bb In Fig.6; figure 9 - node II in figb; in fig. 10 - section G-D in FIG. 3 (view of the filter package); FIG. 11, view D in FIG. 7 (top view on the filter package). The device comprises a housing I in which at least three filtering containers 2 are placed, isolated from each other. Across the body, a bell 3 is positioned for supplying gas to the filter tanks. The pipe has a bevel at its end parallel to the bevel of the base of the filter tanks. In the end wall 4 of the socket, the plugs of the hole 3, uniformly increasing in diameter as they are removed from the axis of the socket. The filter tanks in the upper part have a discharge pipe 6 of cleaned gas with a shut-off and regulating lid 7. The discharge pipes 6 are connected to the collector 8 of purified gas. The frame of the filter tank 2 consists of an axial pipe 9 and radial supporting pipe lines 10 and radial feed pipelines, which are connected with it. The pipe lines 10 are connected by an annular pipe I2 forming the frame of the filter tank, on which the filter packets 13 are fixed. with a gap between the packages in height in the middle part of the filter tank. The pipelines 11 are connected to annular feed headers 14 having openings 15 in the side and 16 in the lower part to supply water to the bags 3. The filter bags 13 are located transverse to the direction of the gas flow inlet and consist of a set of flat 17 and corrugated vinyl grids 18 alternating between forming holes arranged vertically in staggered order 19 with displacement of opposing holes by one diameter and forming zigzag channels along the vertical. The upper and lower filter bags 13 are divided by a looped collector 14, Pipelines I2 are vertically connected by pipes 20. The complex of pipelines 10, 12 and pipes 20 play the role of a force-element of the framework. In the lower part of the frame of the filtering tank there is an annular drainage collector 21 adjacent to the lower part of the filtering bags 13, having an opening 22 in place of the abutment of the bag. The collector 2 is connected to a radial drainage pipework of anode 23 at an angle to the horizontal 13, connected to the lower part of the axial pipeline 9. Under the radial drainage pipelines 23 there is a flat cone pan 24 with edges protruding beyond the edges of the filter bags 13, the pipeline 9 in the upper part it is connected to the water supply pipe 23 for the regeneration of filters, and in the lower part - to the pipe 26 for discharging regeneration products and trapped acid. The pipeline 9 in the lower part above the junction with the pipeline 23 is provided with a partition 27, and in the upper part with a regulating washer 28. The device operates as follows. The cleaned gas is supplied to the bell 3 and through the hole 3 in the walls 4 of the bell uniformly enters the space between the walls of the casing and the filtering tanks, from where it enters the filter bags 13, due to the displacement of the holes 19 by one diameter in flat I7 and corrugated 18 grids and formation The vertical channels of mist and vapor particles entering the filter bags 13 move along zigzag paths placed in 3 different planes and settle on the walls of the grids. The water entering the annular inlet collector 14 through the holes 16 enters the end of the filter package 13 and through the system ;; in the package, the grooves formed by the grids, cleaning them and the walls of the grids from contamination, flow down and fall onto the pallets 24 protruding for the purpose beyond the edge of the filter bags. Then through the holes 22 the water enters the annular drainage collector 21, and from it the pipelines 23 into the axial pipe 9 under the partition 27. The regulating washer 28 provides the necessary flow of water to the upper annular supply manifold in cases of a decrease in the water pressure in the supply pipe 25, and consequently, a decrease in its flow On the bottom of the reservoir, water is necessarily supplied by filling the cavity of the axial pipe 9 with water to the level of the lower supply ring collector. To regenerate the filtering container, the valve 7 is closed on the air duct, water is supplied through pipe 25 to pipe 9, which passes through pipe 11 to collector 14 through side pipe holes in it and through bottom holes to filter grids and then to tray 24 and through pipelines 23 and 26 down the drain. The two filter tanks are operated continuously. Claim I. Gas purification device, comprising a housing with a grill for gas supply and a gas exhaust manifold, a filter tank with a frame, on which a cable is attached454. m filter bags with a gap in height between them and the pallet, made with a slope to the axis of the tank, which is different from the fact that, in order to increase efficiency and reliability in the operation of the device, the frame of the filter tank is made in the form of an axial pipeline with a partition inside it and connected to The radial supporting piping placed by the batons with it, the filtering tank is equipped with annular feed headers placed above the packages and made with openings in the lower part, adjacent to the 1K end of the filtering An akta and side openings, radial feed pipes, connecting annular feed headers through side openings with an axial pipe over the partition, an annular drain header with side holes, radial drainage pipes, connecting the ring drainage collector with the axial pipe under the partition and placed on the base plate, with edges extending beyond the edges of the filter bags. 2. The device according to Claim I., of which is that the filter bags are made in the form of alternating layer-by-layer and corrugated vinyl laminated grids, provided with holes arranged vertically in a checkerboard pattern with an offset in each subsequent pattern. p d in relation to the previous diameter. 3, The device according to PP.1 and 2, that is, that. in order to ensure the continuity of the device operation, it is equipped with additional filtering tanks, 4. Device according to PP.1 - 3, differing in that the axial pipeline is equipped with a control plate located inside it between the annular supply headers. eight ; Lu / I I I -J c -. || eleven . k-r Thebes, 1 AI iij / (Uifcjp Wm u .3 PacmpySa5 axis   7s 0iu. fIf. f3 Fi.7 / J Phi1.8 Suds Phi. ff f