KR101430524B1 - Wet electrostatic precipitator for removed fine dust - Google Patents

Abstract

Disclosed is a wet electrostatic precipitator for fine dust removal. The wet electrostatic precipitator includes a discharge electrode that has a lightning rod for corona discharge and ionizes dust contained in inflow air when a high voltage is applied; a charged plate module that allows the ionized dust to be collected by the discharge electrode; an insulator that is provided to apply the high voltage to the charged plate module; and a water pressure supply unit that supplies water so as to discharge the dust collected by the charged plate module outward or clean the charged plate module. The charged plate module is provided to be bent so that a flow speed of the inflow air is increased and the contact area with the inflow air is increased. Accordingly, the flow speed of the inflow air is increased and the contact area with air and the air staying time are increased so that the dust contained in the air is sufficiently ionized and dust precipitation efficiency can be increased.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wet electrostatic precipitator for removing fine dust,

The present invention relates to a wet electrostatic precipitator for removing fine dust, and more particularly, to a wet electrostatic precipitator for removing fine dust that can remove fine dust contained in the atmosphere.

In modern society, environmental pollution such as air pollution is accelerating due to the development of industry. Side effects caused by environmental pollution are also emerging as social problems. In order to reduce environmental pollution and reduce the emission of harmful substances, A solution is being discussed.

Particularly, in the case of air pollution, there is a problem that fine dusts such as ultrafine dust generated by using carbon fuel such as coal and petroleum are difficult to collect due to small particle size. To solve the above problems, a dust collector is utilized .

Generally, in the case of dust collectors, air containing dust is caused to flow in a certain direction, and discharged air is collected to collect dust electrically.

However, conventional dust collectors such as the prior art No. 10-1287913 (announcement date 2013.07.18) allow the air to flow through a simple linear motion, so that the contact area with the air and the residence time of the air are short, There is a problem that it can not be removed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to increase the flow rate of introduced air, extend the contact area with air and residence time of air, And a wet electrostatic precipitator for removing fine dust which can increase the dust collecting efficiency by allowing electrolysis.

According to an aspect of the present invention, there is provided a wet electrostatic precipitator including a discharge electrode connected to a lightning rod for discharging corona discharge, the discharge electrode being adapted to receive dust from an air having a high voltage applied thereto; A charging plate module for collecting dust ionized by the discharge electrode; An insulator provided for applying a high voltage to the charging plate module; And a water supply part for discharging the dust collected in the charging plate module to the outside or supplying water for washing the charging plate module, wherein the charging plate module increases the flow rate of the introduced air And is refracted to widen the contact area with the inflow air.

The wet electrostatic precipitator according to the present embodiment may further include a moisture blocking portion for protecting the insulator from the water; And a vortex portion extending from the refracted portion of the charging plate module and being refracted so as to face the direction in which the air is introduced so that a vortex phenomenon may occur in the introduced air.

Here, the discharge electrode includes a plurality of lightning rods and is located in the vortex portion, and the plurality of lightning rods may be provided so as to face the closed portion in the vortex portion.

In addition, the water pressure supply unit may supply the water in a direction in which the inflow air is moved.

As a result, the flow rate of the introduced air is increased, the contact area with the air and the residence time of the air are extended to sufficiently return the dust contained in the air, thereby increasing the dust collection efficiency.

1 is a view illustrating a process of using a wet electrostatic precipitator according to an embodiment of the present invention,
2 is a view for explaining a configuration of a charge plate module according to an embodiment of the present invention,
3 is a view for explaining a process of removing dust from a charging plate module according to an embodiment of the present invention,
FIG. 4 is a view illustrating a charging plate module according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 1 is a view illustrating a process of using a wet electrostatic precipitator according to an embodiment of the present invention. Referring to FIG.

The wet electrostatic precipitator according to the present embodiment is used to collect the dust contained in the contaminated air and to discharge the purified air when the contaminated air is introduced.

The wet electrostatic precipitator according to the present embodiment includes a discharge electrode 100, a charging plate module 200, an insulator 300, a water pressure supply unit 400, and a moisture barrier unit 500.

The discharge electrode (100) receives a high voltage from the insulator (300) to generate a corona discharge so that the dust contained in the air can be ionized.

The dust that has been ionized through the discharge electrode 100 loses its insulating property and is collected in the later-described charging plate.

A plurality of lightning rods are connected to the discharge electrode 100 so that dust can be ionized. In this regard, it will be described in detail later with reference to FIG.

As shown in the drawing, the discharge electrode 100 is formed to pass through a plurality of charging plate modules 200 so that a corona discharge can be generated inside the charging plate module 200.

The charging plate module 200 according to the present embodiment is not shown in FIG. 1 but includes a charging plate 210 and a charging plate 210. The charging plate module 200 is provided for collecting dust in the contaminated air, And a vortex portion 220, as shown in FIG. The charging plate 210 and the vortex portion 22 will be described in detail later with reference to FIG.

The charging plate module 200 is formed to penetrate by the discharge electrode 100 as shown in order to allow dust to be collected.

The term " dust " in the present invention means dust including ultrafine dust having a diameter of 2.5 mu m or less contained in the air.

Inside the charging plate module 200, there is charge opposite to the charge generated in the discharge electrode 100.

The dust ionized by the corona discharge in the discharge electrode 100 has the same charge as that of the discharge electrode 100 and is charged to the charge plate module 200 having a charge opposite to the charge generated in the discharge electrode 100 It sticks.

As a result, the ionized dust can not pass through the charging plate module 200 and is collected in the charging plate module 200.

In the illustrated example, it is assumed that the charging plate module 200 is provided in two rows with a packing layer interposed therebetween.

This is an example for allowing dust that has not been collected from the charging plate module 200 located on the side where contaminated air is introduced to be refilled. The order of the modules may be changed according to the design conditions of the wet electrostatic precipitator Of course.

The insulator 300 is provided for applying a high voltage to the discharge electrode 100.

When a high voltage is supplied to the discharge electrode 100 through the insulator 300, a corona discharge is generated around the discharge electrode 100.

And the insulator 300 is placed in the insulator box.

The insulator box is provided as an insulating space to prevent an electric shock accident that a high voltage applied from the insulator 300 flows to a place other than the discharge electrode 100. [

In the present embodiment, it is assumed that the insulator 300 is located above the charging plate module 200. However, this is only an example for convenience of explanation. In order to apply a high voltage to the discharge electrode 100, May be changed.

The water pressure supply unit 400 is used to clean the charging plate module 200 in which the dust is collected and includes a pump for supplying water for washing and a water supply unit for supplying water to the charging plate module 200 And a spray nozzle for allowing the spray nozzle to be sprayed.

The water pressure supply unit 400 is configured to discharge the dust collected in the charging plate module 200 to the outside when the dust collecting efficiency of the dust contained in the air introduced by the dust collected in the charging plate module 200 is reduced. do.

For this, the lower part of the charging plate module 200 may be formed to be open.

In addition, the injection nozzle included in the water pressure supply part 400 is provided in a direction in which the air is discharged from the charging plate module 200, so that three pieces of water can be supplied to the charging plate module 200.

This is to increase the flow rate of the washing water by the shape of the charging plate 210, which will be described later, provided inside the charging plate module 200 to efficiently remove the collected dust.

On the other hand, the moisture barrier portion 500 is provided to prevent the insulator 300 to which a high voltage is applied from coming into contact with water.

The moisture blocking portion 500 is used to prevent the insulator 300 from being operated by being in contact with the supplied water supplied from the hydraulic pressure supply portion 400, and includes a heater and a blowing fan for this purpose.

The moisture barrier 500 allows the dry wind to be blown from a blowing fan connected to a heater in the insulator box, thereby preventing the insulator 300 from being submerged in water.

The sewage pump shown in FIG. 1, but without a separate identification symbol, has a structure in which the polluted water discharged from the charging plate module 200 by the hydraulic pressure supply unit 400 is discharged to the outside of the wet electrostatic precipitator To be discharged.

In addition, the portion indicated by the dotted line between the two rows of the charging plate modules 200 represents that the packing layer is located, and the charging layer module 200 may be changed to an exemplary embodiment for convenience of explanation.

Through the above process, the clean air from which dust has been removed can be discharged to the other end of the wet electrostatic precipitator.

FIG. 2 is a view for explaining a configuration of a charging plate module 200 according to an embodiment of the present invention.

The discharge electrode 100 is positioned between the plurality of charging plates 210 and receives a high voltage from the insulator 300 to allow the dust contained in the air passing between the charging plates 210 to be ionized.

The discharge electrode 100 allows negative (-) charges to be generated so that dust can be ionized and become negative (-) charges.

The discharge electrode 100 includes a lightning rod 110 for widening the contact area with the dust passing between the charging plates 210 and allowing the dust to have a uniform negative charge.

The lightning rod 110 is connected to the discharge electrode 100 to receive a voltage from the discharge electrode 100 so that a corona discharge can be generated.

A corona discharge may be generated also through the discharge electrode 100. However, since the contact area between the air and the discharge electrode 100 is only the outer peripheral surface of the discharge electrode 100, only a part of the dust contained in the air is ionized, They can not be attached to the charging plate 210 and are discharged to the outside.

In order to solve the above problem, a lightning rod 110 is provided which can enlarge a contact area with air.

And a plurality of lightning arresters 100 are positioned to face the closed part of the vortex part 220 as shown.

The lightning rod 110 is provided so as to face the closed part of the vortex part 220. The reason that the lightning rod 110 is directed to the closed part of the vortex part 220 is that the dust is introduced into the vortex part 220 extending from the charging plate 210, In order to make it possible.

A corona discharge is generated by supplying a high voltage between the lightning rod 110 and the vortex portion 220 extending from the charging plate 210 so that the lightning rod 110 is connected to the vortex portion 220 where the charging plate 210 is not located In the present invention.

In addition, since more lightning rods 110 are not required through the position where the lightning rods 110 are provided, the cost for providing the lightning rods 110 can be reduced.

Of course, this is merely an example for convenience of explanation, and the number or position of the lightning rod 110 may be variously changed in order to increase dust collecting efficiency.

Meanwhile, as described above, the charging plate module 200 allows the dust contained in the contaminated air flowing into the wet electrostatic precipitator to be collected.

To this end, the charging plate module 200 includes a charging plate 210 and a swirling unit 220.

The charging plate 210 is provided so as to have an electric charge opposite to that of the dust charged by the discharge electrode 100 positioned between the plurality of charging plates 210 through the charging plate module 200, Allow dust to collect on the surface.

Specifically, a corona discharge is generated around the discharge electrode 100 by the insulator 300, and negative charges are transferred from the discharge electrode to the charge plate 210. In this process, the dust contained in the air absorbs negative (-) electric charge and becomes negative (-) electric charge.

As described above with reference to FIG. 1, since the charging plate 210 receives charges opposite to the charges generated in the discharge electrode 100, the charging plate 210 becomes positive. Accordingly, dust having a negative charge adheres to the charging plate 210 having a positive charge, dust is collected, and clean air from which dust has been removed passes through the charging plates 210 So that it can be discharged outside the wet electrostatic precipitator.

The charging plate 210 according to the present embodiment is not provided in a general plate or cylindrical shape but is refracted as shown in Fig.

As described above, the charging plate 210 according to the present embodiment is refracted to increase the flow rate of the contaminated air passing between the plurality of charging plates 210, and the contaminated air stays in the charging plate module 200 So that the residence time can be extended and the contact area can be widened.

In the case of the conventional charge plate, the charge plate is formed into a plate or a cylindrical shape. In this case, there is a problem in that it is difficult to efficiently remove the dust because the air passes through the charge plate in a short time. However, In order to solve the above problem, it is provided to be refracted.

Although not shown in the drawing, the plurality of charging plates 210 may be provided so as to individually change the separation distance between the charging plates 210.

On the other hand, the vortex portion 220 is formed to extend from the refracted portion of the charging plate 210 and allow the air including relatively heavy dust to be introduced and collected.

Specifically, since the charging plate 210 is formed by being refracted, the flow rate of air passing between the plurality of charging plates 210 is increased.

In particular, in the case of air flowing outside the grain, a centrifugal force is exerted which tries to outward from the centerline of the grain.

The vortex portion 220 according to the present embodiment allows the dust to be efficiently collected using the flow of air that is outwardly directed by the centrifugal force.

When the air flowing outside the grain flows solids outward by the centrifugal force, the air flows into the vortex portion 220, and a vortex is formed along the inside of the vortex portion 220 bent by a preset curvature.

In addition, the dust swirling in the vortex portion 220 due to the vortex is converted to negative (-) charges by the corona discharge generated from the lightning rod 110.

The dust that has been ionized in the swirling unit 220 is attached to the inner surface of the swirling unit 220 having a positive charge, and is collected.

In the present embodiment, it is assumed that the discharge electrode 100 is located inside the vortex portion 220 extending from the charging plate 210. However, this is merely an example for convenience of explanation, A plurality of discharge electrodes 100 including the lightning rod 110 may be provided between the charging plates 210 as well as inside the swirling unit 220.

Further, the cleaning water supplied from the water pressure supply part 400 through the charging plate 210 and the vortex part 220 can effectively remove the dust collected by the lower limit same as the air.

3 is a view for explaining a process of removing dust from the charging plate module 200 according to an embodiment of the present invention.

3 is a plan view for explaining the flow of air passing between the charging plate 210 and the charging plate 210. As shown in FIG.

2, the air passing between the electrification plates 210 formed by refraction forms a cereal, and the air flowing from the outside of the cereal is concentrated to the outside of the charging plate 210 by the centrifugal force, .

Air having increased flow rate while being pushed outward strikes the charging plate 210 and a vortex portion 220 is formed extending from the charging plate 210 at a point where air hits the charging plate 210.

The air flow rate is increased and the air bombarded the charging plate 210 by the centrifugal force flows into the vortex portion 220 and a vortex is generated inside the vortex portion 220.

The air including the dust that has flowed into the vortex portion 220 is trapped in the vortex portion 220 by the vortex.

The dust trapped in the vortex portion 220 is negatively charged due to the ionization by the corona discharge generated in the lightning rod 110.

The dust ionized by the negative charge sticks to the inside of the vortex portion 220 having a positive charge opposite to the discharge electrode 100, so that the dust is collected.

The reason that the vortex portion 220 is charged positively is because the vortex portion 220 is extended from the charging plate 200 provided so as to have a charge opposite to that of the discharge electrode 100 as described above Because.

The inner air of the grain not collected in the vortex portion 220 located on the side where the dust-containing air is introduced passes through the refracted plates 210, and the inside and the outside of the grain are alternated, 220, respectively.

Through the above process, the dust contained in the air can be efficiently collected.

4 is a view for explaining a view of a charging plate module 200 according to another embodiment of the present invention.

The charging plate module 200 according to another embodiment of the present invention includes a charging plate 210 and a vortex portion 220.

The configurations described above are the same as or similar to those of the charging plate module 200 according to the above-described embodiment, and a detailed description thereof will be omitted.

The charging plate 210 according to another embodiment of the present invention is formed in a shape different from that of the charging plate 210 shown in FIG.

In the case of the charging plate 210 shown in FIG. 2, it is assumed that the charging plate 210 is refracted in a streamline shape. However, the charging plate 210 according to another embodiment is formed by refracting a predetermined angle, Respectively.

The dust collecting efficiency is the same as in the above description, but the shape for facilitating the fabrication of the charging plate module 200 by the supplier is provided to the user.

In addition, the vortex portion 220 is also formed by refracting a predetermined angle, not a streamline shape.

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 limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

100: discharge electrode 110: lightning rod
200: charge plate module 210: charge plate
220: Vortex part 300: Insulator
400: Water pressure supply part 500: Moisture blocking part

Claims (4)

A discharge electrode including a lightning rod for corona discharge and adapted to receive a high voltage and to transfer dust contained in the introduced air;
A charging plate module for collecting dust ionized by the discharge electrode;
An insulator provided for applying a high voltage to the charging plate module;
A water pressure supply unit for discharging the dust collected in the charging plate module to the outside or supplying water for cleaning the charging plate module;
A moisture blocking portion for protecting the insulator from the water; And
And a vortex portion extending from the refracted portion of the charging plate module so as to be refracted so as to face the direction in which the air is introduced so as to generate a vortex in the introduced air,
The charging plate module includes:
And is refracted to increase the flow rate of the introduced air and to widen the contact area with the inflow air. delete The method according to claim 1,
The discharge electrode
And a plurality of lightning rods,
The plurality of light-
And is disposed so as to face the closed portion of the vortex portion. The method according to claim 1,
The pressure-
So that the water is supplied in a direction in which the inflow air is moved.

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