UA76880C2 - Filter for gas cleaning - Google Patents

Abstract

The invention relates to the devices for cleaning industrial gases by filtration with recirculation of dust and can be used in ferrous, nonferrous metallurgy and other branches of industry. A filter for gas cleaning contains a casing with inlet and outlet ducts, a bunker equipped with a relief mechanism, a system of recirculation of dust with a conduit connected with the inlet duct. The system of recirculation of dust is equipped with devices for adjustment of air flow rate and for dosing of dust, the device for dosing of dust connected with the bunker and executed in the form of coaxially located external fixed and internal mobile pipes with cuts, and from the side of device for adjustment of air flow rate the filter is equipped with the source of compressed air, the cut of mobile pipe from inside is equipped with a deflector. The device for dosing of dust from one side is connected to the conduit of the system of dust recirculation, and from other side it is connected to the device for adjustment of air flow rate.

Description

Description of the invention

The claimed invention relates to devices for cleaning process gases by filtering with 2 dust recirculation and can be used in ferrous, non-ferrous metallurgy and other industries.

A well-known installation for gas purification with dust recirculation (Avt. Sv. Mo904748, MPK Z VO1050/00, publ. 15.02.82, Bull. with two inlet and one outlet nozzles. The outlet of the coagulator is connected to the inlet of the dust collector, and one of the inlets is connected to the outlet of the recirculation pipeline.

Increasing the efficiency of gas cleaning in such an installation should be ensured due to the coagulation of dust particles, the intensity of which increases during recirculation.

The stability of coagulated dust particles is possible only under conditions when the external force influence on them does not exceed the surface interaction between the particles (Sontag G., Shtrenge K. Coagulation and stability of dispersed systems. - L.: Khimiya, 1973. - P.50- 51). However, in the given design, this condition is not met due to the fact that the gas containing coagulated dust particles is passed through the fan, where intense turbulence of the gas flow occurs, and most of the coagulated dust particles are destroyed, as a result of which it is impossible to ensure effective gas purification.

In addition, a significant drawback of such an installation is the impossibility of regulating the concentration of circulating dust, 720 because the latter is determined only by the efficiency of the air cleaner attached to the outlet of the dust collector.

It is known that an insufficient number of contacts between particles causes a weak coagulation effect (this occurs at a relatively low concentration of recirculating dust particles). On the other hand, an excessive increase in the concentration of recirculating dust particles negatively affects the wear resistance of the installation elements and the frequency of regeneration periods of the working elements. (at)

The closest to the claimed invention, in terms of its technical essence and the technical result achieved when using it, is a device for cleaning gas from dust (Avt.sv. Mo1b639720, MPK? VO1046/02, publ. 04.07.91, Bull. Mo13 ), which includes a housing with inlet and outlet nozzles, a reflective screen installed in the housing, a gas distribution grid with sleeve filter elements and a hopper for collecting dust. It is obvious that the hopper is equipped with a dust discharge device (although the latter is not shown in the drawings given in the description of the invention), without which the operation of the entire device for cleaning the gas from dust is impossible. Due to the fact that it is all, including the hopper, under vacuum . The device also includes a cyclone to which a gas extraction pipe is connected, and the outlet of the cyclone is connected to the 35 inlet pipe of the device. chn

Increasing the efficiency of such a device should be ensured by recirculation of dust and gas passing through the cyclone. However, the design of the device and the technological scheme of gas movement in it have a number of disadvantages. As stated in the description of the prototype, in the cyclone there is an additional release of dust particles into the hopper, which reduces its concentration in the circulating gas flow and leads to a significant decrease in the "coagulation" effect. On the other hand, the insufficiently effective operation of the cyclone causes a significant increase in the concentration of dust 3s in the circulating gas flow, which, in turn, leads to an increase in the load on the filter elements, their rapid clogging and a decrease in the performance of the device as a whole. So, the significant disadvantages of such a device include the impossibility of ensuring both the regulation of the dust concentration in the circulating gas flow and the maximum efficiency of the coagulation process, in addition, it is characterized by a low efficiency of cleaning gas containing highly dispersed dust at an increased -1 specific gas load, and unreliability in work.

The basis of the claimed invention is the task of creating a new filter for gas purification, in which an increase in the efficiency of gas purification is ensured by adjusting the concentration of circulating dust in accordance with the concentration of dust (which is determined by appropriate analyzes) in the incoming gas stream for cleaning, in addition, an increase in the reliability of the filter as a whole is ensured. because The task is solved by the fact that in the filter for gas purification, which includes a housing with inlet and outlet nozzles, a hopper equipped with an unloading device, a dust recirculation system with a pipeline connected to the inlet nozzle, according to the invention, a recirculation system the dust collector is equipped with devices for regulating air flow and for dosing dust, the device for dosing dust is connected to the hopper and is made in the form of coaxially located external stationary and internal movable pipes with slots, and on the side of the device for regulating air flow, it is equipped with a source of compressed air, a slot ( F. of the moving pipe is equipped with a visor on the inside, and a device for dosing dust on one side

The GI is connected to the pipeline of the dust recirculation system, and on the other hand is connected to the device for regulating air flow. The pipeline that connects the device for dosing dust with the inlet nozzle is installed at an angle of 30--452 to the axis of the nozzle.

Equipping the dust recirculation system with a device for regulating air flow due to the possibility of regulating the flow of transporting air allows with its help to ensure a certain concentration of circulating dust, which contributes to increasing the efficiency of cleaning gas containing highly dispersed dust at an increased specific gas load, allows to achieve the maximum 65 efficiency of the coagulation process according to dust circulation - and all this makes it possible to increase the reliability of the gas purification filter.

Equipping the dust recirculation system with a dust dosing device connected to the hopper and made in the form of coaxially located external stationary and internal movable pipes with slots allows you to adjust the amount of dust coming from the filter hopper to circulation by changing the cross-section of the slot of the internal pipe, which, in turn, it allows to increase the efficiency of gas purification and the reliability of the filter.

Equipping the device for dosing dust from the side of the device for regulating air flow with a source of compressed air allows you to prevent the possibility of dust agglomeration (formation of lumps) in it during the shutdown of the filter for gas purification (for example, for major repairs), which, in turn, increases reliability 7 /0 filter operation.

The presence of a guaranteed dust-free space in the inner pipe for the movement of transporting air is ensured by the equipment of the opening of the moving pipe from the inside with a visor, which allows you to achieve the maximum efficiency of the coagulation process and increase the reliability of the gas purification filter.

The connection of the device for dosing dust on one side with the pipeline of the dust recirculation system, and on the other side with the device for regulating air flow ensures dust circulation, which, in turn, increases the efficiency of cleaning gas that contains highly dispersed dust at increased specific gas load, allows to achieve the maximum efficiency of the coagulation process and increase the reliability of the filter for gas purification.

Installation of the pipeline that connects the device for dosing dust with the inlet nozzle of the filter at a 2° angle of 30-45 to the axis of the nozzle allows to reduce the hydraulic resistance to the entry of circulating dust into the gas flow being cleaned (that is, it allows to reduce non-production costs for overcoming it), and this increases the efficiency of gas purification, allows you to achieve the maximum efficiency of the coagulation process with dust circulation and increase the reliability of the gas purification filter.

In view of the above and taking into account the revealed cause-and-effect relationship between the set of features of the claimed invention and the technical result obtained with their help, it can be stated that the task set as the basis of creating a new filter for gas purification, is completely solved, because the use of the invention allows to increase the efficiency of gas cleaning by adjusting the concentration of circulating dust in accordance with the concentration of dust in the gas stream entering for cleaning, in addition, it allows to increase the reliability of the filter as a whole. Ha")

The essence of the claimed invention is explained by the drawings, which are shown in: - Fig. 1 - a fragment of the general type of filter for gas purification with a dust recirculation system; so - Fig. 2 - view A in Fig. 1; Ge) - Fig. 3 - section B-B in Fig. 2; - Fig. 4 - view B of Fig. 1. X,

The filter for gas purification includes body 1 with inlet 2 and outlet Z nozzles. The lower parts of the housing are connected to the hopper 4 for collecting dust, which is equipped with an unloading device 5 in the form of a screw conveyor.

The filter is equipped with a dust recirculation system, which includes devices for air flow regulation and dust dosing. The device for dosing dust is connected to the hopper and is made in the form of coaxially located external stationary pipe b and internal movable pipe 7. Pipes b 7 have slots 8 connected to each other and through them connect to the lower part of the hopper 4 by means of a channel and 9 The dust dosing device on the side of the air flow control device is equipped with a compressed air source "" (not shown in the drawings). The movable pipe 7 on the inner side of the slot 8 is equipped with a radially directed visor 10. A rotation lever 11 is fixed on the movable pipe 7. The dust recirculation system through the pipeline 12 is connected to the inlet pipe 2 of the filter by means of a flexible element 13. -I Pipeline 12 is installed at an angle of 30459 to the inlet pipe 2 of the filter. On the opposite side of the pipeline 12, the dust recirculation system is equipped with a device 14 for regulating the flow of the transporting

F of air (faucet, valve or valve). On the same side, the dust recirculation system is connected to the pipeline 15, (ee) coming from the source of compressed air (not shown in the drawings).

The gas filter works as follows.

Me After turning on the smoke extractor (not shown in the drawings), the suction pipe of which is connected to the c outlet of the filter, a vacuum is created in the filter housing 1, and through the inlet 2, the suction of gas with dust from the technological unit begins.

In the housing 1 of the filter, the dust is separated from the gas and it settles in the hopper 4 for dust collection.

With the accumulation of a sufficient amount of dust in the hopper 4, it is unloaded from the filter using the unloading device 5. The dust accumulated in the hopper 4 forms a valve in the channel 9 that separates the inner cavity of the moving pipe 7 from the volume of the hopper 4. Then the dust through slots 8 in pipes 6 and 7, it enters the moving pipe 7, where, thanks to the presence of the visor 10, it fills only part of its cross section.

After opening the device 14 for regulating the flow of transporting air, the movement of air begins because through the device for dosing dust, due to the fact that in the inlet pipe 2 of the filter and in the pipeline 12 connected to it, equipped with a flexible element 13, rarefaction is maintained, and outside the device for dosing dust pressure is equal to atmospheric.

The air moving through the pipe 7 captures the dust that came from the hopper 4 through the channel 9 and transports it through the flexible element 13 and the pipeline 12 into the gas flow, which is cleaned and moves from the technological unit 65 through the inlet nozzle 2 of the filter.

Regulation of the amount of dust coming from the hopper 4 for circulation is carried out by the rotation lever 11 and the air flow using the device 14 for adjusting the air flow until the maximum gas cleaning effect is achieved.

The process of dust circulation is continuous throughout the entire cycle of the filter.

To reduce the hydraulic resistance of the air flow with dust entering the filter inlet 2 from the pipeline 12, the latter is installed at an angle of 30-45: to the axis of the filter inlet 2.

The filter for gas purification, as well as technological units, is periodically stopped for major repairs, as a result of which dust may accumulate with the formation of a lump, which will interfere with the normal operation of the dust recirculation system. 70 To eliminate this phenomenon, compressed air is supplied to the recirculation system from the side of the device 14 (when it is closed) from a source of compressed air (not shown in the drawings) through the pipeline 15, which blows out the dust that has accumulated in a lump. After that, the recirculation system is completely ready for operation, and the supply of compressed air through the pipeline 15 is stopped. t

Claims (2)

The formula of the invention 1. A filter for gas purification, which includes a housing with inlet and outlet nozzles, a hopper equipped with an unloading device, a dust recirculation system with a pipeline connected to the inlet nozzle, which is characterized by the fact that the dust recirculation system is equipped with devices for adjustment air consumption and for dust dosing, the device for dosing dust is connected to the hopper and is made in the form of coaxially located external stationary and internal moving pipes with slots, and on the side of the device for regulating air flow, the filter is equipped with a source of compressed air, the opening of the moving pipe on the inside is equipped with visor, and the dust dosing device is connected to the dust recirculation pipeline on one side, and to the air flow control device on the other side. at 2. The filter for gas purification according to claim 1, which is characterized by the fact that the pipeline connecting the device for dosing dust with the inlet nozzle is installed at an angle of 30-452 to the axis of the nozzle. "c) s s (Se) - - with . and? -I (22) (ee) (ee) (42) ime) 60 b5