KR20110046419A - Electric Dust Collector using carbon fiber woven fabrics - Google Patents

Abstract

PURPOSE: An electric dust collector is provided to suppress the generation of ozone, to reduce power consumption, and to ensure durability to acidic gas through carbon fiber woven fabrics capable of creating ions at lower voltage than corona discharge. CONSTITUTION: An electric dust collector using carbon fiber woven fabrics comprises an ion generator(11), and current collection plates(21) exhibiting the polarity opposite to the polarity of micro particles charged by ions created in the ion generator. The ion generator creates ions by applying high voltage from a voltage application device(13) and is made of carbon fiber woven fabrics which is formed in order to have pores, the hole passing through the air polluted by carbon fiber.

Description

Electric dust collector using carbon fiber woven fabrics

The present invention relates to an electrostatic precipitator using a carbon fiber fabric that can suppress the generation of ozone, reduce power consumption, and can treat contaminated air containing a large amount of acidic gas.

There are various devices that remove harmful substances such as fine particles from polluted air and treat them as clean air. Recently, the most widely used devices charge fine particles in contaminated air by corona discharge with good dust collection efficiency. Electrostatic precipitator for collecting dust is widely used.

A general electrostatic precipitator charges particles (microparticles) in air contaminated by corona discharge generated between the discharge electrode and the ground electrode by applying a high high voltage, and collects the charged fine particles having the polarity by moving them into an electric field. The electrostatic precipitator using the corona discharge generates a corona discharge as shown in FIG. 1 and applies a high voltage to the discharge electrode 1, the ground electrode 2 corresponding to the discharge electrode 1, and the discharge electrode 1 as shown in FIG. 1. A high voltage generator for applying a high voltage to the charged portion (A) consisting of a high voltage generator (3), a plurality of dust collecting plate (4) for collecting the fine particles charged in the charge portion (A) and the dust collecting plate (4) An electrostatic precipitator (B) provided with (5), and a pre-treatment filter for primary treatment of the contaminated air that is installed at the front end of the charged portion, and is installed at the rear end of the dust collector. Processing the filter is further provided for also after that.

The electrostatic precipitator primarily processes relatively large fine particles in the pretreatment filter, and contaminated air including the fine particles passing through the pretreatment filter is disposed between the discharge electrode and the ground electrode by a current applied from the high voltage generator of the charge unit. Corona discharge is generated, and the fine particles contained in the contaminated air introduced by the corona discharge are charged. The charged microparticles are introduced into the dust collecting unit, the introduced microparticles are collected in the dust collecting plate by the electric field, and the rest are discharged to the outside through the post-treatment filter.

The conventional electrostatic precipitator which generates a corona discharge in the discharge electrode part by applying a high voltage of the positive electrode or the negative electrode between the discharge electrode and the counter ground electrode has a good dust collection efficiency, but has various disadvantages as follows.

That is, the conventional electrostatic precipitator ionizes the air (fine particles) by corona discharge generated by high voltage, firstly, generates a large amount of ozone, and secondly, in the process of ionizing harmful gases when treating other harmful gases. Secondary pollutants such as NOx, SOx, acidic substances or aldehydes are generated. Third, the higher the voltage is applied to the discharge electrode for the particle collection efficiency, the current is also increased as the voltage rises and power consumption is increased. There are many disadvantages. Fourth, there is a disadvantage that a metallic discharge electrode and a ground electrode are required for corona generation. That is, since the discharge electrode and the ground electrode are metallic, corrosion is easily caused by the strong acidic harmful gas from the semiconductor or LCD manufacturing process, which causes a lot of problems in durability, and thus causes the use of the electrostatic precipitator.

Like the first disadvantage, there is a disadvantage that the utilization range is not wide because it is not used in the indoor space by a large amount of ozone generated by the corona discharge. In other words, the electrostatic precipitator using the corona discharge has a disadvantage that it cannot be introduced into the room by purifying the indoor air such as indoor space and subway station.

If the conventional electrostatic precipitator is to be installed in a place where a lot of people gather, there is a disadvantage in that a post-treatment device that treats ozone must be installed separately. Since the filter used in the device is not permanent and needs to be replaced periodically, the cost of maintenance increases.

In addition, a conventional electrostatic precipitator using corona discharge requires a discharge electrode of metal and a ground electrode of a corresponding metal to generate a corona discharge. There is this.

The present invention has been invented to solve the above disadvantages, it is conventionally contaminated by generating a large amount of ions even at a voltage lower than the high voltage applied to the discharge electrode and the ground plate corresponding to the discharge electrode is installed to charge the fine particles through a corona discharge It is an object of the present invention to provide an electrostatic precipitator using a carbon fiber fabric made to charge the fine particles in the air to suppress the generation of ozone and reduce the power consumption.

In addition, an object of the present invention is to provide an electrostatic precipitator using a carbon fiber fabric capable of treating a large flow of contaminated air.

In order to achieve the above object, the electrostatic precipitator using the carbon fiber fabric of the present invention is an electrostatic precipitator that collects fine particles by charging contaminated air, wherein the electrostatic precipitator is contaminated with carbon fibers that generate ions by receiving a high voltage from a voltage applying device. An ion generator made of a carbon fiber fabric formed to have pores which are holes through which air passes; It consists of a dust collecting plate having a polarity opposite to the polarity of the fine particles charged by the ions generated in the ion generator, characterized in that the ion generator is installed between the dust collecting plate.

Or, the electrostatic precipitator using the carbon fiber fabric of the present invention, in the electrostatic precipitator to charge the contaminated air to collect the fine particles, the air contaminated with the carbon fiber to generate ions by receiving a high voltage from the voltage application device passes A charged portion formed of an ion generator made of a carbon fiber fabric formed to have pores which are holes; An electric dust collector installed at a rear end portion of the charged portion and provided with a dust collecting plate for collecting charged fine particles with electrostatic force; Characterized in that the air supply means for allowing the clean air to pass through the carbon fiber fabric to prevent the carbon fiber fabric of the ion generator is contaminated by fine particles.

A plurality of ion generators of the charged part may be installed to be horizontally spaced apart from the moving direction of the contaminated air, and a plurality of dust collecting plates of the dust collecting part may be installed to be spaced apart from the moving direction of the contaminated air.

An air supply means is installed to pass through the carbon fiber fabric of the ion generator, and the air used in the air supply means uses exhaust air that is processed and discharged from external air or an electrostatic precipitator.

When the dust collecting plate of the dust collecting unit processes a polluted gas containing a strong acid gas, a metal plate is usually formed on the inside, and a non-metallic layer is formed on the outside of the metal plate, or various materials such as carbon reinforced plastics and electrostatic filters. You can also use

Ordinary metal plates may be used if the polluted air does not contain strong acid gases.

Electrostatic precipitator using the carbon fiber fabric made as described above generates a large amount of ions even at a lower voltage than the conventional electrostatic precipitator by using an ion generator made of carbon fiber in the form of a charge to charge the fine particles in the contaminated air to generate ozone Prevent and reduce power consumption. By removing the generation of ozone as described above there is an advantage that can be installed even without a special additional device for treating ozone even in places where people such as subway stations, indoor spaces.

In addition, the carbon fiber fabric has an advantage that it can be used even in the presence of a strong acidic harmful gas by conventionally do not need a metallic discharge electrode and the corresponding metallic ground electrode during the corona discharge.

In addition, the air supply means for supplying air to the carbon fiber fabric is installed, it is characterized in that the reduction of ion generation due to contamination of the carbon fiber fabric.

1 is a schematic view of a conventional electrostatic precipitator.
Figure 2 is a schematic diagram of an electrostatic precipitator using a carbon fiber fabric showing a preferred embodiment of the present invention.
Figure 3 is a perspective view of the ion generator used in the electrostatic precipitator using a carbon fiber fabric showing a preferred embodiment of the present invention.
4 and 5 are side schematic views of the charged portion of the electrostatic precipitator using the carbon fiber fabric shown in FIG.
Figure 6 is a side schematic view of an electrostatic precipitator using a carbon fiber fabric showing another embodiment.
Figure 7 is a schematic diagram of an electrostatic precipitator using a carbon fiber fabric showing another embodiment of the present invention.
Figure 8 is a side view of the charge of the electrostatic precipitator using the carbon fiber fabric shown in FIG.
Figure 9 is a schematic diagram of an electrostatic precipitator using a carbon fiber fabric showing another embodiment of the present invention.
10 is a cross-sectional view of the dust collecting plate of the present invention.
11 is a schematic view of the dust collecting plate of the present invention.
12 is a schematic view of the dust collecting plate of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

Figure 2 is a schematic diagram of an electrostatic precipitator using a carbon fiber fabric showing an embodiment of the present invention, the electrostatic precipitator using the carbon fiber fabric of the present invention is an ion generator 11 for generating large ions and the ion generator 11 A voltage applying device 13 for applying a high voltage (current) to the dust collector and a dust collecting plate 21 for collecting fine particles charged by ions generated by the ion generator 11.

The ion generator 11 generates ions by receiving a high voltage (current) from the voltage application device 13, and the carbon fiber made to have pores (holes through which contaminated air passes) as carbon fibers as shown in FIG. It consists of a fabric 12 and a frame 12a for fixing the carbon fiber fabric 12.

The voltage applying device 13 generates ions from the ion generator 11 by applying a high voltage (current) to the ion generator 11, and according to the type of current applied to the ion generator 11, positive or negative ions are applied. Is generated.

The dust collecting plate 21 collects fine particles in contaminated air charged by ions generated from the ion generator 11, and is connected to the ground electrode of the voltage applying device 13 to be opposite to the polarity of the charged fine particles. Make it polar.

4 and 5 are side views of the electrostatic precipitator using the carbon fiber fabric shown in FIG. 2, and FIG. 4 shows the body of the electrostatic precipitator, and FIG. 5 shows the body of the electrostatic precipitator. It is. As such, the body cross-section of the electrostatic precipitator is usually formed in a square or a circle, and other forms are possible.

As shown in FIG. 6, a plurality of dust collecting plates 21 may be formed in the body of the electrostatic precipitator, and ion generators 11 may be installed between the dust collecting plates 21. In this way, a plurality of dust collecting plates 21 are installed inside the body, and ion generators 11 are disposed between the respective bodies to increase dust collection efficiency and to treat large amounts of contaminated air.

The dust collecting plate 21 is usually formed of a metal plate. However, in order to prevent corrosion from acid gas, a metal plate 21a is formed inside as shown in FIG. 10, and a non-metallic layer 21b is formed outside the metal plate 21a, or as shown in FIG. 11. It consists of a charged Electret filter plate, or a plate coated with a conductive material 21d on a plastic plate 21c, such as 12, or a corrosion resistant carbon fiber reinforced CFRP. plastic) Use one made of plates.

Electrostatic precipitator using the carbon fiber fabric of the present invention made as described above, the contaminated air is introduced into the inlet, the introduced contaminated air is a carbon fiber fabric 12 by a high voltage (current) applied by the voltage applying device 13 The fine particles in the air contaminated by the ions generated by the ion generator 11 is charged, and the charged fine particles are collected in the dust collecting plate 21 having the opposite polarity to the charged fine particles, the fine particles are treated Clean air is exhausted.

As such, the ion generator 11 is installed inside the dust collecting plate 21 to reduce the volume of the electrostatic precipitator.

Figure 7 shows another embodiment of the present invention, the electrostatic precipitator using the carbon fiber fabric of the present invention is a charge unit for charging the fine particles in the contaminated air introduced by the ion generator 11 for generating large ions 10 and a dust collecting part 20 provided at a rear end of the charged part 10 and provided with a dust collecting plate 21 for collecting charged fine particles.

The charging unit 10 charges the fine particles in the contaminated air flowing through the inlet as shown in FIG. 7, and generates a high voltage (current) to the ion generator 11 and the ion generator 11. It consists of a voltage application device 13 for applying

The ion generator 11 is a carbon fiber fabric 12 and a frame for fixing the carbon fiber fabric 12 made to have pores (holes through which contaminated air passes) with carbon fibers as shown in FIGS. 3 and 8. 12a, a high voltage (current) is applied from the voltage application device 13 to generate a large amount of ions.

The ion generator 11 is installed horizontally in the drawing, which is the direction of movement of the air contaminated in the charged portion 10, as shown in Figure 7, one or two or more are spaced apart. The quantity of the ion generator 11 is defined according to the flow rate, concentration, etc. of the polluted air.

The dust collector 20 is provided with a plurality of dust collecting plates 21 spaced apart as shown in FIG. 7 to allow contaminated air containing charged fine particles to pass therethrough.

The plurality of dust collecting plates 21 generate an electrostatic force between the dust collecting plates 21 by a voltage (current) applied from the outside.

When contaminated air including charged microparticles passes between the dust collector plates 21 having the electrostatic force, the charged microparticles are collected in the dust collector plate 21 by the electrostatic force, and the clean air from which the fine particles are removed. Will be discharged to the outside.

The dust collecting plate 21 is usually formed of a metal plate. However, in order to prevent corrosion from acid gas, a metal plate 21a is formed inside as shown in FIG. 10, and a non-metallic layer 21b is formed outside the metal plate 21a, or as shown in FIG. 11. It consists of a charged Electret filter plate, or a plate coated with a conductive material 21d on a plastic plate 21c, such as 12, or a corrosion resistant carbon fiber reinforced CFRP. plastic) Use one made of plates.

Figure 9 shows yet another embodiment of the present invention, the electrostatic precipitator using the carbon fiber fabric of the present invention is installed to charge the fine particles in the contaminated air introduced by the ion generator 11 for generating large ions It consists of a dust collector 20 provided with a dust collector plate 21 for collecting the whole (10) and the rear end of the charged portion 10 to collect the charged fine particles.

The charging unit 10 charges the fine particles in the contaminated air introduced through the inlet as shown in FIG. 9, and generates a high voltage (current) to the ion generator 11 and the ion generator 11. And a voltage supply device 13 for applying air and an air supply means (not shown) for supplying air to the ion generator 11,

The ion generator 11 is a carbon fiber fabric 12 and a frame for fixing the carbon fiber fabric 12 made to have pores (holes through which contaminated air passes) with carbon fibers as shown in FIGS. 3 and 8. 12a, a high voltage (current) is applied from the voltage application device 13 to generate a large amount of ions.

The ion generator 11 is installed in the body formed with the air supply port 15 of the charging unit 10, as shown in Figure 9, the air supply port 15 receives the air supplied from the air supply means.

The air supply means is composed of a moving tube for moving the air to move the air, and a blower for moving the air to the moving tube.

The air supplied to the air supply means uses clean air and usually uses exhaust air that is processed and discharged from external air or an electrostatic precipitator.

In the case of using the discharged air, the inlet of the air moving tube is formed at the discharge port of the electrostatic precipitator to supply the discharged air to the air supply port 15.

As such, the air supplied by the air supply means is supplied through the carbon fiber fabric 12 of the ion generator 11 to the air supply port 15 to prevent the carbon fiber fabric 12 from being contaminated by fine particles. do.

When the fine particles are attached to the carbon fiber fabric 12, there is a disadvantage that the generation of ions can be reduced to reduce the dust collection efficiency.

In addition, ions generated in the carbon fiber fabric 12 are uniformly distributed by the air supplied to the air supply port 15, thereby increasing dust collection efficiency.

These air supply means are divided into protection and regeneration for the type of air supply. That is, in the case of protection, the air is continuously supplied to prevent contaminated air from coming into contact with the ion generator 11 to prevent the fine particles from adhering to the carbon fiber fabric 12, and in the case of regeneration, the air is intermittently Supply to remove the fine particles attached to the carbon fiber fabric (12).

10: charge part 11: ion generator
12: carbon fiber fabric 12a: frame
13: voltage application device 15: air supply port
20: dust collector 21: dust collector

Claims (6)

In the electrostatic precipitator to collect the fine particles by charging the contaminated air,
An ion generator (11) made of a carbon fiber fabric (12) formed to have pores that are holes through which air contaminated with carbon fibers generating ions by receiving a high voltage from the voltage applying device (13);
It consists of a dust collecting plate 21 having a polarity opposite to the polarity of the fine particles charged by the ions generated in the ion generator 11,
Electrostatic precipitator using a carbon fiber fabric, characterized in that the ion generator 11 is installed between the dust collecting plate (21). In the electrostatic precipitator to collect the fine particles by charging the contaminated air,
Charge part 10 formed of ion generator 11 made of carbon fiber fabric 12 formed to have pores, which are holes through which air contaminated with carbon fiber generating ions by receiving a high voltage from voltage applying device 13 )Wow;
An electric dust collecting part 20 installed at a rear end of the electric charging part 10 and provided with a dust collecting plate 21 for collecting charged fine particles with electrostatic force;
Carbon fiber fabric, characterized in that it comprises an air supply means for passing the air through the carbon fiber fabric 12 to prevent the carbon fiber fabric 12 of the ion generator 11 is contaminated by fine particles Electrostatic precipitator used. The method of claim 2,
The ion generator 11 of the charging unit 10 is installed horizontally with the moving direction of the contaminated air flowing in,
Electrostatic precipitator using a carbon fiber fabric, characterized in that a plurality of dust collecting plate 21 of the dust collecting part 20 is installed to be spaced apart horizontally with the moving direction of the contaminated air. 4. The method according to claim 2 or 3,
The dust collector plate 21 is an electrostatic precipitator using a carbon fiber fabric, characterized in that the metal plate (21a) is formed on the inside, the non-metallic layer (21b) is formed on the outside of the metal plate (21a). 4. The method according to claim 2 or 3,
The dust collecting plate 21 is an electrostatic precipitator using a carbon fiber fabric, characterized in that the electrostatic filter plate or a carbon-reinforced plastic plate with a charge on the surface. 4. The method according to claim 2 or 3,
The dust collecting plate 21 is an electrostatic precipitator using a carbon fiber fabric, characterized in that formed by coating a conductive material on a plastic plate.

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