KR101485776B1 - Dust and offensive odor removal apparatus of ascon plan using a corona discharge - Google Patents

Abstract

The present invention relates to an apparatus for removing dusts and offensive odors generated during manufacture of ascon and, more specifically, to an apparatus for removing dusts and offensive odors generated from ascon using corona discharge, which is one integrated apparatus for removing air pollutants or other harmful dusts and offensive odors through corona discharge for preventing the environmental pollution. The apparatus for removing dusts and offensive odors generated from ascon using corona discharge in the specific means of the present invention comprises a centrifugal dust collecting unit, a filtering and dust collecting unit, a corona discharge and catalyst purifying unit, and a discharge unit like a conventional apparatus for removing dusts and offensive odors generated from ascon using corona discharge, wherein the corona reaction unit has structural characteristics of comprising an upper housing; a dust collecting unit formed on the lower part of the upper housing; a lower housing formed on the lower part of the dust collecting unit; and a high voltage applying device applying voltage to an electrode plate inside the upper housing, and an upper insulating unit and a lower insulating unit supporting the upper parts and the lower parts of multiple discharge electrodes which perform corona discharge by using a power supplied from the high voltage applying device for the discharge electrodes to be electrically insulated from the upper housing, the lower housing, and the dust collecting unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an asbestos-

The present invention relates to a device for removing dust and odors generated during the manufacture of an ascon product, specifically, a single device for removing atmospheric pollutants and other harmful dusts and odors discharged through the corona discharge during the production of the ascon, The present invention relates to an apparatus for removing dust and odors generated in an ascon by using a corona discharge to prevent contamination in advance.

Generally, asphalt-concrete is produced by heating and mixing asphalt which is remnant at the time of sorting by classifying aggregates such as gravel or crushed stone, additives, and crude oil under certain conditions. Widely used.

A brief description will be given of a process for manufacturing such an ascon,

The ascon manufacturing process is a process that removes the moisture contained in the aggregate while passing aggregate through the dryer and is suitable for mixing the asphalt oil and the aggregate with the aggregate conveyed from the cold bin to the conveyor belt After heating the aggregate to a temperature, the heated aggregate passes through a hot elevator, a hot screen, and a hot bin, and is subjected to an adjustment process of adjusting the particle size to a suitable size. Thereafter, The resulting aggregate is put into a mixer, and the AP oil heated in the AP oil reservoir is introduced into an appropriate amount of mixer through a weighing tank and mixed with the aggregate to produce Ascon.

The produced ascon is immediately loaded onto a truck and shipped to the installation site. The manufacturing process of the above-mentioned ascon is largely divided into a 'drying facility' such as a 'storage facility' and a dryer of aggregate and stoneware, , 'Dust collection facility' to prevent air pollution, 'ascon', and 'ascon'. Among the above five processes, all four processes except 'storage facility' are closely related to the emission of odor pollutants.

As described above, the air pollutants mainly emitted in the ascon production process are divided into two processes, i.e., ducted emission and fugitive emission,

Drainage is a process in which pollutants are purged through a certain pollutant treatment plant and then discharged mainly from dryers, hot elevators, hot screens, hot vans, and mixing facilities.

Free emissions, on the other hand, include fugitive dust generated by the truck's ascon process and the storage and transport of aggregates, such as cold beans.

That is, the main pollutants are organic fumes generated by the volatilization of dust and AP oil, and the process of discharging the organic vapor, which is a malodorous substance, is performed in a recycled aggregate drying facility, an AP oil storage tank, Mixer), mixing the aggregate and AP oil, and loading the produced ascon on a truck.

Examples of the main pollutants include ammonia, aldehydes and aromatics produced by evaporating the organic vapor at a high temperature, and organic vapor gas (fine droplets including VOCs when high temperature aggregate and AP oil are mixed) ,

Table 1

Lt;

In addition, the deodorization method for odor pollutants is shown in Table 2,

Table 2

Lt;

In addition, when the minimum detection concentration of the odor substances is shown in Table 3,

Table 3

.

As described above, odor and contaminants generated in the ascon production process are a serious cause of environmental pollution.

First, it is difficult to identify the naked eye,

Second, odor pollutants are emitted not only from a single source but also sporadically rather than continuously in operation such as equipment installation and outdoor field operation in the atmosphere. There is a problem that the expectation of the improvement effect on the investment cost is considerably low,

Third, odor pollutants are complicated in many aspects due to environmental pollution caused by the release of a large amount of substances into the air. The result of odor pollution is a problem due to the complex nature of many kinds of compounds rather than a single substance However,

Fourth, it is very difficult to objectively measure many odor pollutants detected by ppb in human by using analytical instruments. Even if they are the same person, odor detection can be performed according to time, place, concentration and composition There is a problem that it can be changed.

However, the deodorization methods shown in Table 2 are incomplete due to their advantages and disadvantages, and they can not be completely perfected, and the odor-causing substances and concentrations, process variations, installation area, work line, temperature, humidity, air flow rate, Fuel, etc. However, it is a reality that there are many difficulties such as excessive facility cost, management operation cost, and maintenance.

Patent Application No. 10-2007-37310 entitled " Apparatus for removing dust and odor using dryer of Ascon Plant " was filed and registered on Apr. 17, 2007,

Claim 1

A dryer for heating aggregate discharged from the cold bin, a hot elevator for conveying the aggregate heated in the dryer, additives and dust supplied from the additive supply device and the dust supply device, And a mixer for discharging the aggregate mixed with metered and charged aggregate through an outlet, the ascon plant comprising:

A suction fan for a bag filter for forcibly sucking the odor generated in the mixer and discharging the odor generated in the mixer to be incinerated in the dryer, and a dust collector disposed between the mixer and the suction fan for the bag filter to collect dust in the mixer and input the dust into the hot elevator And a hood for forcibly sucking the odor generated when the ascon is discharged through the outlet of the mixer and for discharging the odor to the dryer, wherein the dust and odor removing device using the dryer of the ascon plant.

Claim 2

The method according to claim 1,

Wherein the dryer is provided with a suction fan for sucking air for burning fuel, and the suction fan forcibly sucks the air mixed with the malodor through the hood. .

Although the above-mentioned line registration technique can remove a part of noxious gas generated from the ascon, air pollutants such as formaldehyde, ammonia, hydrogen sulfide, mercaptane, amines, sulfur dioxide nitrogen oxide dioxin and the like are not effectively removed No problem is exposed.

Currently, the most widely used technology for the desulfurization process is the wet lime / gypsum method using limestone slurry, and some dry processes using dry absorbent and activated carbon have been partially commercialized.

On the other hand, as a nitrogen oxide removal method, there is a denitrification method in which a combustion method of fossil fuel is improved, or an exhaust gas after combustion is treated in order to suppress the generation of nitrogen oxides originally. Among them, the exhaust gas denitration method can be divided into a wet method and a dry method depending on whether or not nitrogen oxides are absorbed in an aqueous solution. Among them, the wet method is inferior to the dry method because it is economically inferior to the dry method and requires treatment of secondary pollutants such as water pollution. The typical commercialization process of dry process is selective catalytic reduction (SCR). The selective catalyst reduction method is a method of selectively reducing nitrogen oxides in the exhaust gas to nitrogen and water while simultaneously passing the exhaust gas and the reducing agent through the catalyst layer.

However, in the conventional method of treating air pollutants, a large amount of exhaust gas is sequentially treated through desulfurization and denitrification processes that are completely different from each other, and pollutants are treated. As a result, the initial investment cost and operation ratio are increased, Not only is the bonding required, but also the discharge of wastewater from the wet process is pointed out as a problem.

In recent years, methods for removing air pollutants using a corona discharge have been disclosed in order to solve problems in a conventional method of treating air pollutants

However, in the conventional noxious gas purifying apparatus using the corona discharge, the flow of the mixed gas containing the noxious gas is transversely formed as in Korean Patent Laid-open No. 10-2001-0068436, And the corona discharge has a circular corona generation region around the corona discharging unit. In the plate type reaction, the corona unreacted zone is generated. , The mixed gas passing through the corona unreacted zone has a problem that the harmful gas is not properly purified.

In order to solve this problem, a cylindrical cylinder is provided for each corona discharger so as to cover the corona generation region of the corona discharge machine. By injecting a mixed gas into the cylindrical cylinder, all the mixed gas without corona unreacted zone is corona- However, in such a cylindrical reactor, there is a limit in the flow rate passing through the inside of the cylinder. Therefore, there is a problem that it is difficult to apply to a field requiring a large amount of treatment. To solve this problem, in order to increase the number of cylinders There is a problem that a wider installation area is required compared with the plate type reaction furnace.

Therefore, it has become necessary to develop a harmful gas purifying apparatus capable of minimizing the corona unreacted zone, which can be applied to a large-capacity system by easily securing the flow rate with a small installation area.

Korean Patent Application No. 10-2007-37310 Korean Patent Publication No. 10-2001-68436 Korea Patent No. 10-1005516 Korea Patent No. 10-1312414

In order to solve the above-mentioned problems, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a coarse aggregate and a coarse aggregate that contain a large amount of water, The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to prevent or minimize environmental pollution by removing or minimizing a large amount of dust and odor generated in a process of heating and drying treatment.

It is another object of the present invention to provide a method for removing air pollutants by using a principle of decomposing and removing substances such as sulfur dioxide, nitrogen oxides, and dioxins contained in air pollutants such as ions, radicals, and ozone generated in the corona discharge process So that it can be quickly removed in large quantities.

The object of the present invention is to enable stable removal of air pollutants by the catalytic reaction in addition to the corona discharge.

In order to achieve the above object,

"A dry heating part for drying and uniformly mixing and heating a coarse aggregate and a coarse aggregate containing a large amount of moisture in the material of the ascon, and a drying heating part for forcing the odor- A centrifugal force dust collecting part for discharging the dust having a relatively large particle in the dust through the rotary valve through the hopper provided at the lower end by sucking and sending the fine dust relatively to the air through the piping provided on the upper side to the filtering dust collecting part, The dust and dirt-causing material, the harmful gas and the dust which have passed through the dust collecting part are filtered by the filter, and the remaining relatively large particles are discharged to the outside by the screw provided at the lower end of the hopper. Odor-inducing substances and harmful gases, odor-inducing substances remaining after corona discharge of dust and harmful substances A corona reaction unit for firstly removing air pollutants such as dust and dust, and an odor-inducing substance, a harmful gas, and an air pollutant that are not completely filtered from the corona reaction unit, A corona discharge and a catalyst purifying part composed of a catalyst purifying part for removing the corona from the exhaust gas and a catalyst purifying part for removing the corona from the corona discharge and the catalyst purifying part, and a discharge part for forcedly sucking fresh air through the corona discharge and catalyst purifying part, And a malodor removing device,

The corona reaction unit includes an upper housing; A dust collecting part provided at a lower portion of the upper housing; A lower housing provided at a lower portion of the dust collecting portion; And a high voltage application unit for applying a voltage to the electrode plate in the upper housing and a plurality of discharge electrodes for performing corona discharge using the power supplied from the high voltage application unit to the dust collection unit, And an upper insulating portion and a lower insulating portion that are electrically insulated from the upper housing, the lower housing, and the dust collecting portion,

The dust collecting part is vertically penetrated to allow air pollutants or other harmful dusts and odors discharged during the production of the ascon to pass therethrough so that the inside of the dust collecting part intersects the lateral direction and the longitudinal direction to form a plurality of partitions, Wherein a plurality of cells are provided on the upper surface of the discharge cell, a discharge electrode is provided in the center of the cell,

Wherein a plurality of discharge electrodes provided in the cell are coupled in a longitudinal direction by a pair of electrode plates,

The electrode plate has a shape of a long plate in the longitudinal direction, and a plurality of elongated plates are formed integrally with the elongated plate being spaced from each other. The elongated plate is formed into a plurality of crosses, and a coupling hole is perforated near both ends of the elongated plate. And the above object can be achieved by using the constitutional characteristic.

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The present invention having the above-described structure can remove odor and dust by minimizing air pollutants or other harmful dusts generated in the ascon manufacturing process, As a matter of course, the coarse aggregate and the residual aggregate in the material of the ascon include a large amount of moisture, so that the aggregate is uniformly mixed through the dryer for drying the aggregate before being conveyed to the sorting process of the post-treatment process, It is possible to prevent environmental pollution by eliminating or minimizing a large amount of dust and odor generated in the course of the operation with a single batch device and to remove odors by using chemically active species generated by corona discharge, A malodor removing catalyst which is activated by electrons and photons generated by corona discharge By making the can remove the odor, it is possible to maximize the odor treatment performance and treatment efficiency.

In addition, not only chemically active species generated by the corona discharge but also electrons and photons can be used to remove odors, thereby minimizing the power consumption required for the malodor treatment, reducing operating costs and shortening the processing time can do.

In addition, there is an effect that the noxious gas is primarily purified from the corona reaction part, and the noxious gas is secondly purified by the catalytic purifying part to purify the noxious gas stably.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the embodiments set forth herein. Various changes and modifications may be made by those skilled in the art.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall view of an apparatus for removing dust and odor generated in an ascon using corona discharge according to the present invention;
2 is a detailed view of the centrifugal force dust collecting part in the dust and odor removing device generated in the ascon by using the corona discharge of the present invention,
3 is a detailed view of the dust collecting portion in the dust and odor removing device generated in the ascon by using the corona discharge of the present invention,
4 is a cross-sectional view of a corona discharge and a catalyst purifying part in an apparatus for removing dust and odor generated in an ascon using a corona discharge according to the present invention,
5 is a perspective view of a dust collecting part in an apparatus for removing dust and odor generated in an ascon using a corona discharge according to the present invention,
FIG. 6 is a view showing a combined state of a discharge electrode and an electrode plate of a dust collecting unit in an apparatus for removing dust and odor generated in an ascon using a corona discharge of the present invention;
7 is a perspective view of an electrode plate in an apparatus for removing dust and odor generated in an ascon using a corona discharge according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for removing dust and odor generated in an ascon using a corona discharge according to the present invention will be described in detail with reference to the drawings.

2 is a detailed view of a centrifugal force dust collecting part in an apparatus for removing dust and odors generated in an ascon using a corona discharge according to the present invention, FIG. 3 is a detailed view of a filter dust collecting part in an apparatus for removing dust and odor generated in an ascon using the corona discharge according to the present invention, and FIG. 4 is a view showing a corona discharge and an odor removing device in an apparatus for removing dust and odor generated in an ascon using the corona discharge of the present invention. FIG. 5 is a perspective view of a dust collecting part in an apparatus for removing dust and odor generated in an ascon using the corona discharge of the present invention, and FIG. 6 is a perspective view of a particulate and odor removing device generated in an ascon using the corona discharge according to the present invention. So that the discharge electrode of the dust collecting part and the electrode plate are shown in a combined state , Figure 7 is a perspective view of the electrode plate according to the dust and odor control device generated by the asphalt with the inventors corona discharge.

The aggregate conveyed from the cold bin to the conveyor belt is passed through the dryer to remove the moisture contained in the aggregate, and at a temperature suitable for mixing the AP oil and the aggregate, The heated aggregate is passed through a hot elevator, a hot screen, and a hot bean to adjust the particle size of the granulated material from the weight adjusting device in order to adjust the particle size specified in the specification, and then, And the AP oil heated in the AP oil storage is put into an appropriate amount of the mixer through the metering tank and mixed with the aggregate to produce the ascon,

The dust and odor generated from the ascon produced as described above are mainly used when the AP oil and the heated aggregate are mixed with each other and when the ascon is loaded on the truck when the asphalt is produced by using the new aggregate. The apparatus for removing dust and odor generated when the air is introduced into the apparatus,

As shown in FIG. 1, the drying and heating unit S1 includes a coarse aggregate containing a large amount of water and a fine aggregate, which are mixed and heated with AP oil, A temperature of about 150 DEG C in part (S1), and a malodorous substance, a noxious gas and other dusts are generated at such a high temperature, and such a harmful substance is generated.

Next, a reference numeral S2 designates a centrifugal force dust collecting unit. As shown in FIGS. 1 and 2, the drying and heating unit S1 forcibly sucks the odor-causing material and the harmful gas flowing through the pipe, Dust having relatively large particles in the dust is discharged to the outside through the rotary valve B through the hopper H and fine dust is transported to the filter dust collecting part S3 described later through the piping provided on the upper side To the process.

That is, in the filtration and dust collecting unit S3, when the suction is forced by the turbo fan T described below through the piping in the drying and heating unit S1, the relatively large dust in the dust through the hopper H is discharged to the bottom And is discharged to the outside through the rotary valve (B), and air or relatively fine dust is transported to the filtration and dust collecting part (S3), which is the next process, through the piping provided on the upper side.

Next, an indicator S3 designates a filtering dust collecting part. As shown in FIG. 3, the odor-causing material, the harmful gas and the dust which have passed through the centrifugal force dust collecting part S2 but are not filtered are filtered again by the filtering filter P And the remaining relatively large dust is discharged to the outside by the screw 100 provided at the lower end of the hopper H1. The power for forcibly flowing from the centrifugal force dust collector S2 is supplied to the turbofan T .

The filtering dust collecting unit S3 filters fine dust that is not filtered by the centrifugal force dust collecting unit S2 to remove dust and the like.

4, the corona discharge and catalytic purifier S4 are connected to the corona discharging and catalyst purifying unit S4 through the filter dust collecting unit S3, A corona reaction unit 200 for primarily removing harmful gases, pollutants, harmful gases, odor-inducing substances remaining after corona discharge of dusts, harmful gases, and air pollutants that are dusts, and a corona- And a catalyst purifying unit 300 for receiving and removing odor-inducing substances, harmful gases, and dust, which are not completely filtered from the reaction unit 200,

The corona reacting unit 200 includes:

An upper housing 210;

A dust collecting part 220 provided below the upper housing 210;

A lower housing 230 provided at a lower portion of the dust collecting unit 220; And

A high voltage application unit 212 for applying a voltage to the electrode plate 211 in the upper housing 210 and a corona discharge to the dust collection unit 220 using a power source supplied from the high voltage application unit 212 (Not shown) that supports the upper and lower portions of the plurality of discharge electrodes 221 to be electrically connected to the upper housing 210, the lower housing 230, and the dust collecting unit 220 222 and a lower insulating portion 223,

As shown in FIG. 5, the dust collecting unit 220 is vertically and horizontally passed through the dust collecting unit 220 so that atmospheric pollutants or other harmful dusts and odors discharged during the production of the ascon can pass therethrough. A plurality of rectangular cells 225 are formed by the barrier ribs 224 and a discharge electrode 221 is provided at the center of the cells 225. The discharge cells 221 are arranged above and below the discharge electrodes 221, And the electrode plate 211 is coupled.

A plurality of discharge electrodes 221 provided in the cell 225 are coupled to each other by a pair of electrode plates 211 in a longitudinal direction,

The electrode plate 211 is formed in the shape of a long plate in the longitudinal direction and has a plurality of elongated plates 227 formed integrally with the elongated plates 227 while maintaining a gap therebetween, And a coupling hole 228 is drilled in each hole.

The catalytic purifier 300 includes titanium dioxide (TiO ₂ ), which is a malodor removing catalyst, and the titanium dioxide is activated by electrons and photons generated during corona discharge to remove hydroxyl radicals (hydroxyl radical).

Next, an instruction S5 designates a discharge unit. The discharge unit S5 forcibly sucks fresh air passing through the corona discharge and catalyst purifying unit S4 through the turbo fan T and discharges it to the discharge port 400 And a discharge unit S5.

The discharging unit S5 is connected to the lower end of the catalyst purifying unit 300 and receives the second purified purified mixed gas from the catalyst purifying unit 300 and discharges the mixed gas to the outside.

4, the corona responding unit 200 receives the mixed gas from the inlet 201 and primarily removes harmful gas from the mixed gas and supplies the same to the catalyst purifying unit 300 A lower housing 230 and an upper housing 210 disposed at a lower portion of the dust collecting unit 220 and a dust collecting unit 220 disposed at a lower portion of the upper housing 210. [ And a lower housing 230,

A high voltage application device 212 and an upper insulation part 222 for applying a voltage to the electrode plate 211 are provided in the upper housing 210. The mixture gas descended from the dust collecting unit 220 is supplied to the high voltage applying unit 212 and the upper insulating unit 222 provided in the upper housing 210, And is uniformly supplied to the lower catalytic purifying unit 300. [0064]

5, the dust collecting unit 220 is connected to the lower end of the upper housing 210 and is connected to the upper end of the lower housing 230. The dust collecting unit 220 includes a plurality of discharge electrodes 221 So that the mixed gas supplied from the upper housing 210 is primarily purified by the plurality of discharge electrodes 221 to be moved to the lower housing 230.

As shown in FIG. 6, the dust collecting unit 220 is vertically and horizontally passed through the dust collecting unit 220 so that air pollutants or other harmful dusts and odors discharged during the production of the ascon can pass therethrough. A plurality of rectangular cells 225 are formed by the barrier ribs 224 and a discharge electrode 221 is provided at the center of the cells 225. The discharge cells 221 are arranged above and below the discharge electrodes 221, As the electrode plate 211 is coupled,

As shown in FIG. 6, a plurality of discharge electrodes 221 provided in the cell 225 are coupled by a pair of electrode plates 211 in a longitudinal direction,

As shown in FIG. 7, the electrode plate 211 is formed in a long plate shape in the longitudinal direction, and a plurality of extension plates 227 are formed integrally with the spacing being maintained, thereby forming a plurality of cross- And coupling holes 228 are respectively formed in the vicinity of both ends of the plate 227.

4, the lower housing 230 is connected to the lower end of the dust collecting unit 220 so that the mixed gas supplied through the inlet 201 is supplied to the dust collecting unit 520 to be purified first And a lower insulating portion 223 is provided in the inner hollow portion.

The high voltage applying device 212 is provided in the inner hollow portion of the upper housing 210 so that a high voltage can be applied to the discharge electrode 221 and includes a high voltage generating device and a high voltage distribution device.

The high-voltage generator generates a voltage according to an output value set based on an output value of a sensor (not shown) of the flow rate and concentration of the inlet 201,

The high voltage distribution device allows a voltage generated from the high voltage generating device to be evenly distributed to each of the discharge electrodes 221.

The upper insulating portion 222 is provided in the inner hollow portion of the upper housing 210 and the lower insulating portion 223 is provided in the lower housing 230. The upper insulating portion 222 is provided with a high- (212) may be further coupled.

The combination of the upper insulation part 222 and the high voltage application device 212 generates a vortex in the gas when the mixed gas descending from the dust collection part 220 is supplied to the lower catalyst purification part 300, 220 can be distributed evenly to the relatively wide catalyst purifying unit 300. [0064]

The catalytic purifier 300 is connected to the lower end of the lower housing 230 of the corona reactor 200 and receives the mixed gas from which the harmful gas is firstly removed from the corona reactor 200, And supplies it to the discharge unit S5.

The catalytic purifier 300 includes titanium dioxide (TiO ₂ ), which is a malodor removing catalyst. The titanium dioxide is activated by electrons and photons generated during corona discharge to remove hydroxyl radicals radical.

Hereinafter, the operation of the present invention will be briefly described with reference to the drawings.

First, as shown in FIG. 1, the coarse aggregate containing a large amount of moisture and the fine aggregate and the fine aggregate are mixed and heated with the AP oil. Dust having a relatively large particle size in the dust is discharged to the outside through the rotary valve (B) through the hopper (H) while dust having a relatively small particle size with air is forced through the piping provided on the upper side Dust having a relatively large particle among the dust that has been filtered again by the filtration filter P in the filtration dust collecting section S3 but has been introduced into the filtration and dust collecting section S3 is collected by the screw 100 provided at the lower end of the hopper H1 The dust collecting unit 220 which is the corona reacting unit 200 through the inlet 201 may be provided with the odor-inducing substance and the harmful gas which are filtered by the filtering filter P of the filtering dust collecting unit S3, Multiple discharges Purified via 221 and then to the dust collecting ever 220 a that is, the purified fresh air through a catalytic purification unit 300 provided on the bottom is discharged through the outlet 400 of the discharge section (S5).

4, when the high voltage application unit 212 is applied, the corona reacting unit 200 may generate odor, noxious gas, dust, etc. between the cells 225 of the dust collecting unit 220 The air is purified by the corona reaction by the discharge electrode 221 located at the center of the cell 225 and the air is again sent to the catalyst purifying unit 300 provided at the lower end of the dust collecting unit 220, Titanium dioxide (TiO ₂ ) is activated by electrons and photons generated at the time of corona discharge to generate a hydroxyl radical for removing the odor-causing substances, and then the odor and harmful gas are removed again, To let fresh air through.

The present invention having the above-described structure can remove odor and dust by minimizing air pollutants or other harmful dusts generated in the ascon manufacturing process, As a matter of course, the coarse aggregate and the residual aggregate in the material of the ascon include a large amount of moisture, so that the aggregate is uniformly mixed through the dryer for drying the aggregate before being conveyed to the sorting process of the post-treatment process, It is possible to prevent environmental pollution by eliminating or minimizing a large amount of dust and odor generated in the course of the operation with a single batch device and to remove odors by using chemically active species generated by corona discharge, A malodor removing catalyst which is activated by electrons and photons generated by corona discharge By making the can remove the odor, it is possible to maximize the odor treatment performance and treatment efficiency.

In addition, not only chemically active species generated by the corona discharge but also electrons and photons can be used to remove odors, thereby minimizing the power consumption required for the malodor treatment, reducing operating costs and shortening the processing time can do.

In addition, there is an effect that the noxious gas is primarily purified from the corona reaction part, and the noxious gas is secondly purified by the catalytic purifying part to purify the noxious gas stably.

100: screw 200: corona reaction part
201: inlet port 210: upper housing
211: electrode plate 212: high voltage application device
220: dust collecting part 221:
222: upper insulating portion 223: lower insulating portion
224: barrier rib 225: cell
227: extension plate 228: engaging hole
230: Lower housing 300: Catalytic purifier
H, H1: Hopper
P: filter T: turbo fan S1: drying heating part S2: centrifugal force dust collection part
S3: Filtration /
S4: Corona discharge and catalyst purifying part S5:

Claims (6)

A drying heating unit S1 for drying and mixing the coarse aggregate containing a large amount of moisture in the material of the ascon and evenly mixing and heating the coarse aggregate and a drying heating unit S1 for heating the drying odor- The dust having relatively large particles in the dust is discharged to the outside through the rotary valve B through the hopper H provided at the lower end and dust having a relatively small particle size with air is discharged through the pipe And the dust and harmful gas passing through the centrifugal force dust collecting unit S2 are filtered by the filtration filter P so that the dust having a relatively large particle size is discharged from the dust collecting unit S2 through the centrifugal force dust collecting unit S2, A filtering and dust collecting part S3 which is discharged to the outside by a screw 100 provided at the lower end of the hopper H1 and an odor causing material and harmful gas which are introduced into the inlet 201 from the filtering dust collecting part S3, Discharge A corona reaction part 200 for removing the remaining odor-inducing substances, noxious gases, and air pollutants, which are dusts, from the corona reaction part 200, A corona discharging and catalytic purifying part S4 composed of a catalytic purifying part 300 for receiving and removing odor-inducing substances and noxious gas which are not contained in the exhaust gas, And a discharge unit S5 for forcedly sucking the fresh air through the turbo fan T and discharging the fresh air to the discharge port 400. In the apparatus for removing dust and odor generated in an ascon using conventional corona discharge,
The corona reacting unit 200 includes:
An upper housing 210;
A dust collecting part 220 provided below the upper housing 210;
A lower housing 230 provided at a lower portion of the dust collecting unit 220; And
A high voltage application unit 212 for applying a voltage to the electrode plate 211 in the upper housing 210 and a corona discharge to the dust collection unit 220 using a power source supplied from the high voltage application unit 212 (Not shown) that supports the upper and lower portions of the plurality of discharge electrodes 221 to be electrically connected to the upper housing 210, the lower housing 230, and the dust collecting unit 220 222) and a lower insulating portion (223). The apparatus for removing dust and odor generated in an ascon using corona discharge.
delete The method according to claim 1,
The dust collecting part 220 is vertically penetrated to form a plurality of partition walls 224 in the transverse direction and the longitudinal direction so as to pass air pollutants or other harmful dusts and odors discharged during the production of the ascon. And a plurality of rectangular cells 225 are formed by the barrier ribs 224. A discharge electrode 221 is provided at the center of the cell 225 and an electrode plate 211 is coupled to the upper and lower sides of the discharge electrode 221. [ Wherein the dust and odor are generated by the corona discharge generated in the ascon.
The method of claim 3,
The discharge electrodes 221 provided in the cells 225 are connected to each other by a pair of electrode plates 211 in a pair in the longitudinal direction so that dust and deodorant generated in the ascon, .
The method of claim 3,
The electrode plate 211 is formed in the shape of a long plate in the longitudinal direction and has a plurality of elongated plates 227 formed integrally with the elongated plates 227 while maintaining a gap therebetween, And a coupling hole (228) are formed in the corona discharge hole (228), respectively.



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