KR100832136B1 - Regeneration device of waste ascon - Google Patents

Abstract

An apparatus and a method for the regeneration of waste ascon are provided to manufacture recyclable regenerated ascon with high quality shortly by heating a waste ascon layer into a semi-molten state using hot air of a combustion part and passing a workpiece with less than a predetermined pore size through blocking filter meshes, and improve dust collecting performance and remove secondary environmental pollution factors by additionally installing an oil separator in the dust collector. An apparatus for the regeneration of waste ascon comprises: a cylindrical rotary drum including a burner combustion part(32) and a rotary mixing part(33), the rotary mixing part including conical vortex dispersion induction plates(35,35') for dispersing a vortex flow of hot air of the burner combustion part into a waste ascon layer rotated from the inside of the rotary mixing part to the outside thereof to heat the waste ascon layer into a semi-molten state, blocking filter meshes(36,36') having a predetermined pore size to pass only a workpiece with less than a predetermined pore size through the blocking filter meshes, and a plurality rows of rake type inclined round bars(37) installed on an inner wall surface of the rotary mixing part to crush the workpiece into a predetermined size while pushing a waste ascon workpiece toward a discharge port; and a dust collector for removing dust, oil and exhaust gas generated from the apparatus. Further, helical wings are provided outside or inside the conical vortex dispersion induction plates installed inside the rotary mixing part.

Description

Waste Ascon Recycling System and Recycling Method {Regeneration device of waste ascon}

The present invention relates to a waste asphalt concrete recycling apparatus, and more particularly to the road. Various electricity during renovation work. It is a facility for processing waste asphalt concrete (hereinafter referred to as 'waste ascon') peeled off from the surface of pavement during water plumbing work. The present invention relates to a waste asphalt recycling apparatus that can be collectively processed using an asphalt recycling apparatus and stored in a hot cyclone, and then recycled or provided as road repair asphalt.

In general, a road paved with a mixture of asphalt and aggregate heating and mixture is called asphalt concrete pavement, which is commonly seen on highways and local roads, and refers to road pavement covered with asphalt mixture.A general structure of asphalt pavement is asphalt surface layer. It consists of a base layer, an upper layer subbed and a lower layer subbed, and a surface layer and a base layer are heated and mixed with crushed stone, sand, stone powder, and asphalt, and evenly spread and chopped by roller.

When the asphalt concrete pavement is subjected to repeated heavy loads such as vehicle traffic, cracks or unevenness of the pavement may occur, and thus, to repair the asphalt concrete pavement deformed by cracks, freezes, irregularities, etc. Machines or equipment are used to break up and remove asphalt concrete pavements that require repair and then install new asphalt concrete in place to repair or repair the pavement partially or fully.

In addition, when various repairs such as gas pipes, water and sewage pipes, electricity, and telephone lines buried underground are required, the asphalt pavement layer is removed from the pavement surface of the corresponding area and then repaved. Most of the waste asphalt concrete removed is either discarded in landfills such as seas or rivers, or disposed of in underground, resulting in not only waste of resources but also polluting the water quality of the sea or rivers or contaminating the soil environment.

Looking at the technologies currently applied for recycling waste ascon, the representative method is the hot mix method, which is a waste asphalt concrete, new asphalt concrete, and regeneration after directly recovering the waste ascon from the repackaging site. Hot-In-Place Recycling method that mixes the rejuvenator and repacks it on-site and recovers the asphalt concrete to the asphalt concrete regeneration plant, followed by regrinding and separation. Hot-In-Plant Recyclimg and the like are known, which are melted and properly mixed with a new asphalt concrete and a reclaimed additive in a plant mixer to provide asphalt concrete for repaving.

In the case of a conventional heating device in the recycling device of waste asphalt concrete, there is a problem in that a situation arises that the asphalt oil component is burned due to the burning of asphalt concrete of the burner and the asphalt and the powder are not recycled.

In addition, in the heat dryer used in the conventional waste ascon regenerator, the flame heat of the burner passing through the combustion chamber plays a role of plastic deformation (melting) of the waste ascon, but in this process, the high temperature heater required for the plastic deformation of the waste ascon. In the heat dryer, the indirect heat approaching the waste ascon brings about a lot of fuel consumption until the plastic deformation (melting) of the waste ascon has caused a problem in that the efficiency of the product is significantly reduced.

 In addition, the existing waste asphalt concrete regeneration device causes plastic deformation (melting) of the waste ascon due to the heat of combustion of the burner, and the mixing ratio of fuel and air does not match according to the fuel used. It can be discharged by being included in the exhaust gas as an oil (sliding), and also during the plastic deformation (melting) process of the waste ascon, some oil is contained in the exhaust gas inside the hot cylindrical rotating drum and is discharged. The oil or odor discharged from the gas has a fatal effect on the durability of the dust collector. Especially, in case of coalescing to the filter cloth of the bag filter, it is possible to prevent the gap of the follicles and to lose the filtration function. It is a factor that causes difficulties such as washing, and dust collection facilities other than filter cloth Doemeun require the body as well as greatly lowering the dust collecting performance, the cost of frequent replacement of the filter cloth is generated also has the problem that caused the secondary environmental contamination due to air pollution.

The present application is applied in any of the hot-in-place recycling method and hot-in-plant recycling method according to the amount and site conditions of the waste concrete. It prevents direct processing of raw materials and transfers the heat as high as possible to the processing raw materials, thereby semi-melting the processing raw materials in a short time and separating them into the desired aggregate size and discharging them. Disclosed is an invention started with a problem to provide a waste ascon regenerating device comprising an oil separator for removing oil or sesame.

It is an object of the present invention to provide an apparatus and method for regenerating waste ascon provided with a cylindrical rotating drum and a dust collecting facility.

More specifically, the cylindrical rotary drum of the recycling device for waste ascon of the present application includes a burner combustion unit and a rotary mixing unit, and the rotary mixing unit is provided to rotate itself, and discharged to a suitable specification of the inlet and regenerated ascon receiving the waste ascon. A conical vortex dispersion induction plate and a blocking filter network are installed inside the rotary mixing unit, and the vortex dispersion induction plate vortices the hot heat of the burner combustion part on the wall of the heat mixing unit to vortex the rotating ascon layer. It functions to heat it to a semi-melt state in a short time, and the blocking filter network is provided to have a certain size of pores so as to pass only the workpieces below a certain pore. While the bucket function to push the processing melt toward the outlet while A device for regenerating waste ascon provided with a function of crushing the processed melt to a certain size between the rake-type round rods, and also including a dust collecting means for treating dust, oil, and exhaust gas generated from the waste ascon regenerator; The purpose is to provide a method.

Another object of the present invention is to provide an additional oil separator in the conventional dust collector to remove the oil or sewage discharged from the cylindrical rotating drum of the waste ascon regeneration device of the present invention by pre-collecting, treating the oil contained in the dust collection gas It aims to improve dust collection performance and eliminate secondary environmental pollutants.

In general, the waste ascon regeneration device used to recycle waste ascon is provided including a cylindrical rotating drum and a dust collecting facility.

The structure of the cylindrical rotating drum is provided including a burner combustion unit and a rotary mixing unit, the rotary mixing unit is provided to rotate itself, and the rotary mixing unit burns the burner while rotating the waste ascon which is introduced into the tip along the inner wall of the rotary mixing unit. Negative flame heat is used to heat the waste ascon layer to the plastic deformation melting point, thereby crushing waste ascon to a certain size to discharge only recycled ascon that has been processed to the size of recycled ascon.

The present invention is applied to the waste ascon provided by the conventional cylindrical rotary drum and the dust collection equipment as it is, while the conical vortex dispersion induction plate installed inside the rotary mixing portion of the cylindrical rotary drum to rotate the hot heat of the burner Means for concentrating and dispersing high-temperature heat in the waste ascon layer which is being driven on the wall surface of the mixing section to heat the waste ascon to a plastic deformation melting point in a short time to make it semi-melted; In addition, by installing a blocking filter network having a predetermined size of pores on the rear side of the vortex dispersion induction plate to pass only the workpieces crushed below a predetermined pore to include a screen action to discharge to a size suitable for the requirements of the recycled ascon, rotational mixing On the wall of the negative side, a round bar with an angle of inclination is installed in the form of a rake and has a plurality of rows of inclined angles. It has a technical idea to include a means for imparting a function of crushing to a size, and to provide dust collecting treatment means for treating dust, oil, and exhaust gas generated in the waste ascon regenerator.

Conical vortex by the suction force of the blower installed at the rear end of the waste ascon regeneration treatment by attaching spiral blades of 4 to 8 to the outer or inner conical shape of the conical vortex dispersion induction plate installed inside the rotary mixing part of the present application. By forming a vortex through the spiral blade of the dispersion guide plate, the hot hot air is distributed to the wall surface so that the hot hot air is concentrated in the waste ascon layer concentrated on the wall of the rotary mixing unit.

In addition, the filtration screening net installed inside the rotary mixing unit is, for example, the round bar size S45C. Ø25 round bar, using a screening screen provided to have a distance within the range of 50 × 50 ㎜ ~ 80 × 80 ㎜ eyeball size desired size The aggregate is discharged and the coarse aggregate over the eyes is processed into granules that can pass through the blocking filter network while continuously rotating inside the rotary mixing unit.

In addition, in the waste ascon regeneration device of the present application, in a wet or dry dust collecting facility for treating dust and exhaust gas generated in a cylindrical rotating drum, the oil or sewage contained in the exhaust gas is particularly durable in the dust collecting facility, in particular, the filter network of the bag filter. In order to solve the problem of blocking the filter eye to make it unusable, the oil separator is installed in the dust collecting equipment line, and it includes the technical idea to collect and remove the oil and sesame in advance.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.

1 is a simplified system of a waste ascon recycling apparatus provided typically including a cylindrical rotating drum applied for regenerating waste ascon and a dust collecting equipment means for treating dust or exhaust gas generated in the cylindrical rotating drum. Indicates.

Referring to the parts that can be applied to the technical idea of the present invention to the conventional waste ascon regeneration processing system of FIG. 1, when the waste ascon regeneration processing apparatus 100 is largely classified, waste ascons to be processed are shredded to a predetermined size. Dust generated in the cylindrical rotary drum unit 30 and the cylindrical rotary drum 30 for regenerating and processing the waste ascon and the base 20 for supporting and driving the raw material input unit 10 and the cylindrical rotary drum which are provided. In consideration of the characteristics of the dust collection processing unit 40 and the recycled aggregate for treating the exhaust gas can be described by dividing the new agent supply unit 50 is mixed with new asphalt concrete.

Referring to Figure 1 in more detail, the raw material input section 10 is provided with a storage bin 11 for storing the waste ascon crushed to an appropriate size to use the collected waste ascone as a recycled aggregate, the storage At the lower side of the bin 11, the belt feeder 12 and the multi-stage belt conveyor 13 are respectively provided to continuously adjust / supply the stored waste ascone treatment target raw material to the cylindrical rotary drum unit 30, which is a post-process. The raw material input unit 10 may be configured.

Cylindrical rotary drum portion 30 of the present application has a burner combustion unit 32 and the rotary mixing unit 33 burned by the burner 31 so that the rotary mixing unit 33 is fixed on the base 20 and self-rotating 2 can be presented as an embodiment of the configuration for showing that the configuration, in the embodiment of Figure 2 shows a configuration in which the cylindrical rotating drum portion 30 is fixed on the frame base 20, The rotary mixing unit 33 of the cylindrical rotating drum unit 30 is installed to rotate by the motor 21 mounted on the base 20, for this purpose, the ring 24 on the outer circumference of the rotary mixing unit 33 It can be mounted, the support roller 25 in the lower portion by the driving method of the ring 24, the support roller 25 shaft is coupled to the hollow shaft gear box driving to receive the power of the motor 21 to drive The pulley 22 is provided to rotate by the driven pulley 23, if necessary for the smooth transfer of the contents. It may achieve to some of the inclination angle be reduced to facilitate the discharge.

Therefore, the rotary mixing unit 33 is heated by the hot heat from the burner combustion unit 32 and the raw material to be processed is introduced into the inlet 34 of the rotary mixing unit 33 while the hot combustion of the burner combustion unit 32 is performed. When the waste ascon which rotates along the outer wall inside the rotary mixing unit 33 is heated and plastically deformed to form a semi-melt state to have a mushy viscosity, the inclined angle is set toward the wall of the rotary mixing unit 33. A round bar 37 having a rake shape is installed to have an angle of inclination in a plurality of layers, and the waste ascon in a half-melted state is crushed to a certain size between the rake-shaped round bars while pushing the object to be semi-melted to the outlet using the angle of inclination. Waste heat generated in the rotary mixing unit 33 is recovered and used again in the combustion chamber through the waste heat recovery line 39, and is used in the rotary mixing unit 33. The recycled ascon is processed to the outside through the discharge port 38, the exhaust gas containing the mist generated in the regeneration process is discharged in connection with the suction duct 41 of the dust collecting unit 40.

Looking at the dust collecting processing unit 40, the exhaust gas flowing out through the exhaust duct 41 connected to the upper portion of the cylindrical rotary drum 30 is the hopper type discharge box 42 and the dust collection cyclone 43 (wet or Dry) and a bag filter 44, an exhaust fan 45, and other dust collecting facilities with exhaust facilities, can be applied as a system for removing dust in the exhaust gas, and the new material supply unit 50 analyzes the characteristics of the recycled asphalt. The regeneration additive 51 and the asphalt modifier 52 are added and the new asphalt 53 is supplied to the mixing unit 54 where they are mixed, and the supply unit 55 for supplying the regeneration material mixed through the mixing unit to the vehicle. The present invention has been shown an embodiment in which the technical idea of the present invention may be implemented in a configuration that constitutes an asphalt regeneration driving system.

3 is a view for explaining the internal structure of the rotary mixing unit 33 to more clearly describe the features of the present application, Figure 3a shows the flow of hot heat in the rotary mixing unit 33 of the present application In FIG. 3B, the internal structure of the rotary mixing unit 33 for inducing the heat flow of FIG. 3A from the inside of the rotary mixing unit 33 is intended to be illustrated, and the conical vortex is formed inside the rotary mixing unit 33 of the present application. Dissipation guide plates 35 and 35 'are installed so that the hot heat of the burner is concentrated on the inner wall of the rotary mixing unit 33 to disperse high temperature heat in the rotating ascon layer and plastic deformation of the waste ascon in a short time. Means for heating to a melting point to make it semi-melted; In addition, by installing the filtering screen (36, 36 ') having a certain size of pores at the rear of the eddy dispersion guide plate (35, 35') to pass only the workpiece crushed to less than a certain pore size suitable for the requirements of the recycled ascon The inner wall of the rotary mixing unit 33 is connected to a plurality of round rods 37 are connected to form a rake-shaped inclined surface in a plurality of layers by using the inclined surface is not shredded processing object The agglomerated mass has a feature in the technical configuration that provides a function of crushing and discharging the waste ascon in semi-melted state to a certain size between the rake-type round bar while pushing it toward the outlet while serving as a bucket.

Figure 4 shows an embodiment application of the oil separator 46 that can be installed in the dust collection facility of the waste ascon regeneration treatment plant of the present application, in Figure 4 the oil screen separator 46 is made of two stainless steel screen net (47-A, 47-B) is shown in the simple configuration having an oil outlet 48 at the bottom of the oil-water separator, but the disk shape is changed to a cylindrical shape or a stainless steel screen network to a nonwoven network The screen nets 47-A and 47-B may be used for a certain period of time, and the screen nets containing the sediment of asphalt oil may be immersed in diesel oil. By repeating this, it is possible to effectively remove the sesame containing asphalt oil due to the high temperature heat among the exhaust gas discharged from the waste ascon regeneration device.

The oil separator 46 is incapable of using the filter cloth of the bag filter because the oil or sewage contained in the dust and exhaust gas generated in the waste ascon treatment facility of the present application prevents the durability of the dust collecting facility, in particular, the filtering eye of the filter network of the bag filter. It is to solve the problem of making a dust collector.In order to protect the bag filter by additionally collecting and removing oil and grease in advance, the oil separator is installed in the dust collector line before or after the dust collection cyclone (43; wet or dry). Effective and consequently, the present invention was completed by confirming that the installation of the oil separator can greatly improve dust collection performance and eliminate secondary environmental pollution factors.

The recycling apparatus of the waste ascon of the present invention installs a conical vortex dispersion induction plate and a blocking filter network inside the rotating mixing unit, and rapidly dissipates the hot heat of the burner combustion unit on the wall of the heating mixing unit to disperse it in the rotating waste asphalt layer to semi-melt. It functions to heat to a state, and the blocking filter net is provided to have a certain size of pores to pass only the workpieces below a certain pore has the effect of providing a high-quality recyclable recycled ascon quickly.

In addition, the present application improves dust collection performance by pre-collecting and treating the oil contained in the dust collecting gas by providing an additional oil separator in the conventional dust collecting facility to remove the oil or odor discharged from the inside of the cylindrical rotating drum of the waste ascon regeneration device And to have the effect of removing the secondary environmental pollution factor, in particular, it provides an effect that can solve the problem of making the filter cloth of the bag filter unusable by blocking the filtration eye of the bag filter filter network.

3, the feature of the present application is to install a conical vortex dispersion guide plate (35, 35 ') inside the rotary mixing section 33, the hot heat of the burner inside the rotary mixing section 33 Means for concentrating and dispersing high-temperature heat in the waste ascon layer which is being driven and rotated on the wall surface and heating the waste ascon to the plastic deformation melting point in a short time to make it semi-melted; In addition, by installing the filtering screen (36, 36 ') having a certain size of pores at the rear of the eddy dispersion guide plate (35, 35') to pass only the workpiece crushed to less than a certain pore size suitable for the requirements of the recycled ascon The inner wall of the rotary mixing unit 33 is connected to a plurality of round rods 37 are connected to form a rake-shaped inclined surface in a plurality of layers by using the inclined surface is not shredded processing object The agglomerated mass has a feature in the technical configuration that provides a function of crushing and discharging the waste ascon in semi-melted state to a certain size between the rake-type round bar while pushing it toward the outlet while serving as a bucket.

3 shows a structure having a primary vortex dispersion induction plate 35 and a primary blocking filter network 36, and again having a secondary vortex dispersion induction plate 35 and a secondary blocking filter network 36. Bar, the mixing of the rotary mixing unit by hot vortex induction plate while preventing the oxidation of the waste ascon, which is injected into the rotary mixing unit 33, the burner's flame directly contacts the waste ascon and ignites the fire. Formed by the edge portion, it is a technical configuration to embody a technical idea that can prevent heat loss while minimizing oxidation.

The primary vortex dispersing guide plate 35 is provided with a vortex dispersing guide plate in a conical shape, and has four to eight helical blades attached to the outer or inner side of the conical shape so that hot heat forms the vortex while rotating the waste ascon The waste ascon, which is deformed (melted) continuously by hot heat, is crushed by the rake-shaped round bar 37 formed on the inner wall of the rotary mixing section, and the first object is blocked by breaking the object. It consists of a primary cut-off filter net 36 made of round bar (S45C.ø 25) to pass only a certain standard of 80 mm or less. And separate and crush by deformation (melting) and friction to pass through the primary screen.

In addition, the secondary filtration screen (36 ') made of round rods (S45C. Ø25) can pass through the 80 mm mesh and pass the secondary vortex dispersion induction plate (35') and a certain standard of 50 mm or less. ) Can provide recycled ascon with aggregate specifications of 50 mm or less.

The primary and secondary vortex dispersion guide plates 35 and 35 'of the rotary mixing part are provided in a conical shape, and four to eight spiral blades are attached to the outer or inner side of the conical shape so that hot heat forms the vortex. The exhaust fan installed in the dust collecting processing unit 40 is configured to constitute the primary and secondary vortex induction plates to eliminate the phenomenon that the hot heat of the rotary mixing unit is induced to the center without waste ascon by the force of sucking air. Of course, more vortex induction plate may be installed depending on the size of the waste ascon treatment apparatus.

Another feature of the present application is provided to collect a large amount of oil while passing through a mesh of about 120 mesh to the primary screen net 47-A of the oil separator 46 shown in Figure 4, through the 120 mesh The fine oil that is not collected may be provided to be collected while passing through a 160 mesh net to a finer secondary screen net 47-B, and the collected oil is naturally melted by the heat of the exhaust gas and thus the oil separator 46. The oil is discharged out through the outlet 48 located at the bottom of the primary. Second screen mesh net cleaning is provided once a week with the screen net removed and washed with light oil for reuse.

1: Schematic diagram of the application of the operation of the waste ascon recycling apparatus of the present application

2 is a schematic view of a cylindrical rotating drum unit 30 in the regeneration treatment apparatus of FIG.

Figure 3a: perspective view showing the internal structure of the rotary mixing portion in the cylindrical rotating drum.

Figure 3b: perspective view showing the internal structure of the rotary mixing unit

Figure 4 is an exemplary application of the oil separator additionally installed in the dust collecting equipment of the waste ascon regeneration treatment apparatus.

*** Explanation of symbols for main parts of drawing ***

10: input material 11: storage bin

12: belt feeder 13: belt conveyor

20: expectation (frame) 21: motor

22: driven pulley 23: driven pulley

24: ring 25: support roller

30: cylindrical rotating drum 31: burner

32: burner combustion unit 33: rotary mixing unit

34: inlet part 35: primary vortex dispersion induction plate

35 ': secondary vortex dispersion guide plate 36: primary blocking filter network

36 ': secondary blocking filter network 37: round bar

38: outlet 39: waste heat recovery line

40: dust collection unit 41: exhaust duct

42: discharge box 43: dust collection cyclone

44: back filter 45: blower

46: oil separator 47A: first screen

47B: second screen 48: oil outlet

50: new agent supply unit 51: regeneration additive

52: asphalt modifier 53: new agent asphalt

54: mixing section 55: supply section

Claims (6)

Cylindrical rotary drum unit 30 is provided in the waste ascon regeneration facility, which includes a cylindrical rotary drum and a dust collecting facility, includes a burner combustion unit 32 and a rotary mixing unit 33, and the rotary mixing unit 33 In the waste ascon regeneration device for receiving and processing waste ascon while rotating itself, and discharging it to a standard suitable for recycled ascon, The rotary mixing section 33 has a conical vortex dispersion induction plate (35, 35 ') and the blocking filtration network (36, 36'), the vortex dispersion induction plate (35, 35 ') is the hot heat of the burner combustion section (32) Vortex and dissipate the waste ascon layer rotating outward from the inside of the rotary mixing unit 33 to heat in a semi-melt state in a short time, and the blocking filtration nets 36 and 36 'are provided to have a predetermined size of voids to be less than a predetermined gap. Means for passing only the workpiece of; The inner wall surface of the rotary mixing section 33 is provided with a slanted round bar (37) in a plurality of rows in a rake type to push the waste ascon workpieces toward the outlet to crush to a certain size; A waste ascon recycling apparatus comprising a dust collecting treatment facility for treating dust, oil, and exhaust gas generated from the waste ascon recycling apparatus. The method of claim 1, The waste ascon characterized in that the spiral mixing of the 4 to 8 range is provided to the outside or inside of the conical vortex dispersion induction plate (35, 35 ') installed inside the rotary mixing section 33 to form a vortex Playback device. The method of claim 1, The blocking filtration nets 36 and 36 'installed inside the rotary mixing unit 33 are provided to have an interval in the range of 50 × 50 mm to 80 × 80 mm. The method of claim 1 An oil separator (46) is additionally installed in the dust collecting treatment facility of the waste ascon regenerator, and is provided to collect and remove oil or sewage in the exhaust gas in advance. The method of claim 4 The oil separator (46) is a recycling device for waste ascon, characterized in that the mesh screen sieve of 120 mesh ~ 160 mesh is provided to the first and second screen net to remove the oil. In the method for obtaining the waste ascon using a recycling device for waste ascon including a heating rotary drum and a dust collecting equipment, The heating rotary drum 30 is provided including a burner combustion unit 32 and a rotary mixing unit 33, The rotary mixing unit is provided to rotate itself and has an inlet 34 for receiving waste ascon and a discharge unit 38 for discharging recycled ascon, A conical vortex dispersion induction plate (35, 35 ') is installed inside the rotary mixing unit so that hot heat of the burner is concentrated in the waste ascon layer concentrated on the wall of the rotary mixing unit and heated to a semi-melt state in a short time; A filtration barrier net (36,36 ') having a predetermined size of voids is installed in the rotary mixing unit at the rear surface of the vortex dispersion induction plate so as to pass only the workpieces having a predetermined gap; A rake-type inclined round bar 37 is installed in a plurality of rows on the inner wall surface of the rotary mixing part and crushed to a predetermined size while pushing the processing melt toward the discharge port; The waste ascon characterized in that it comprises the step of collecting and removing the oil or odor by installing an oil separator 46 in the dust collector processing line for treating dust or exhaust gas generated in the waste ascon regeneration device. How to play.

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