KR200379320Y1 - Electric charged liquid droplet spray apparatus of scrubber - Google Patents

Abstract

The present invention relates to a charged droplet injection device having a structure capable of maximizing the collection efficiency when collecting foreign matter particles in gaseous phase using a scrubber; A water supply pipe 62 in which water is moved is provided at a central portion thereof, and an electrode terminal 68 receives power from the power supply unit 90 so as to have a relative polarity with respect to the particulate matter on one side of the water supply pipe 62. Is provided, the compressed air supplied by the air compressor 96 toward the end of the water supply path 64 and the water supply movement path 64 to the water supply pipe 62 is injected to the side of the water supply pipe 62 Droplet injection unit 67 is disposed so that the air movement path 65 toward the injection hole (69a) is characterized in that it is provided in the same horizontal direction as the moving direction of the foreign matter fine particles.

According to the present invention, the droplet ejection unit 67 constituting the charged droplet injector 60 is disposed in the horizontal direction so as to face the same direction as the traveling direction of the ionized foreign matter fine particles to inject the charged droplets, using compressed air By spraying, it is sprayed into the charged droplets of uniform and fine size to increase the collection efficiency of foreign matter fine particles.

Description

Electric charged liquid droplet spray apparatus of scrubber

The present invention relates to a charged droplet injector of a scrubber, and more particularly, to a charged droplet injector having a structure capable of maximizing the collection efficiency when collecting foreign matter particles in gaseous phase using a scrubber.

In general, a scrubber is a device that is installed at a generating place where harmful gases are discharged, such as a semiconductor manufacturing plant, a chemical plant, or a plating plant, to collect pollutants such as harmful gases.

Such a scrubber is artificially supplied with a high voltage to the discharge electrode from a high voltage electrostatic source device to charge (ionize) the particles through a corona discharge, and charge the charged particles with an electrical force at a counter electrode having a positive polarity. By collecting dust, the wire electrode is widely used as a discharge electrode because of its high discharge efficiency, and a high voltage is applied to the wire electrode to cause corona discharge to ionize foreign matter particles in the contaminated gas to have a certain polarity. Gas discharged by collecting ionized droplets having a relative polarity discharged through charged droplet injectors by combining the foreign matter particles with the foreign matter and attracting force, and then passing through the droplet collection unit and collecting the droplets. It will act to neutralize.

At this time, the charged droplet injection device has been disclosed in the "static electrostatic spray device for dust collector" of the registered utility model No. 20-0343968, which is the foreign matter particles having a (+) polarity passing through the particle charge portion and the droplet injection nozzle The liquid droplets having a negative polarity injected through the liquid are sprayed in a direction perpendicular to the direction in which the foreign substance fine particles move to direct vertical attraction to attract foreign matter particles to the liquid droplets.

However, the electrostatic spraying device is discharged radially in a straight downward direction and is configured to fall freely, so that foreign matter particles are collected only during free fall, so that the collection efficiency is reduced, and thus, to improve the collection efficiency. There is a problem to install more than the liquid injection nozzle.

In addition, the pressure is applied to the feed water passing through the liquid droplet injection nozzle, the size of the actually discharged liquid droplets is not uniform and the collection efficiency is lowered. -) Even if the polarity is charged, its polarity is weak, and the attraction force with the foreign matter fine particles weakly acts, which also has a problem in that the collection efficiency is lowered.

Therefore, to solve these problems, the object of the present invention is to spray the charged droplets having a uniform size in the horizontal direction in the same direction as the moving direction of the foreign matter particulates to maximize the collection efficiency of the foreign matter particulates To provide a charged droplet injection device.

Another object of the present invention is to provide a charged droplet injection device for maximizing the polarity of charged droplets having a relative polarity to the foreign matter particles having a polarity to improve the collection efficiency of the foreign matter particles.

The present invention relates to a charged droplet injection device of the collector; When the foreign matter particles ionized to have a certain polarity through the ionization unit 40 is introduced, charged droplet injection of the scrubber to spray the droplets having a relative polarity to the ionized foreign particles fine particles and attract and attract the foreign matter particles In an apparatus; The charged droplet injection device is provided with a water supply pipe 62 in which water is moved to a central portion, and one side of the water supply pipe 62 supplies power from the power supply unit 90 so as to have a relative polarity with respect to the foreign particles. Receiving electrode terminal 68 is provided, the side of the water supply pipe 62 is supplied by the air compressor 96 toward the end of the water supply movement path 64 and the water supply movement path 64 to which the water supply moves. The droplet injection unit 67 in which the air moving path 65 through which the compressed air can be injected is directed toward the injection hole 69a is provided in the same horizontal direction as the moving direction of the foreign matter fine particles.

At this time, the droplet injection unit 67 is provided with one or more maintaining a constant interval, the outside of the water supply pipe 62 is a hollow shape that can move the compressed air and the compressed air from the air compressor 96 on one side An air inlet 63 is provided, through which an air inlet 63a is introduced, and the water inlet 62 has electrical conductivity so as to be energized with the electrode terminal 68 in order to increase the cationization efficiency of the water supply moving therein. It is characterized in that it is formed of a metal tube.

In addition, at least one nipple (62a) is formed on the side of the water supply pipe (62) in which a male thread is formed on the outside so as to face in the horizontal direction, so that the water supply pipe (62) is located inside the air pipe (63) After adjusting the nipple 62a to be aligned with the same position as the connection hole 63b, a water supply hole 58a penetrating the center portion and connected to the water supply passage 64 is formed, and the air movement path is formed at a side surface thereof. A plurality of air moving holes (58b) are formed to be connected to the 65, the front portion of the socket 58 is formed with a coupling groove (58c) is inserted into the connecting hole (63b) and fixed to the nipple (62a) In addition, the droplet injection unit 67 is fixed to the socket 58 so as to face the same horizontal direction as the moving direction of the foreign matter fine particles.

Charged droplet injection device of the scrubber according to the present invention will be understood by the embodiments described in detail below with reference to the accompanying drawings.

1 is a system configuration diagram of a scrubber with a charged droplet injection device according to the present invention, Figure 2 is a view illustrating a gas cleaning principle according to the present invention, Figure 3 is charged droplet injection according to the present invention 4 is an enlarged view for explaining the dust collection state around the charged droplet according to the present invention.

First, referring to Figure 1, when explaining the system configuration of the scrubber is provided with a charged droplet injection device according to the present invention.

The scrubber equipped with the charged droplet injection device according to the present invention includes an inlet 10 through which the contaminated gas containing foreign substances such as harmful gases and dusts is introduced, and the contaminated gas introduced through the inlet 10. Packed column 20 for firstly removing the foreign matter having a relatively large particle in the gas, and water droplet for maintaining the humidity of the gas in a state where the foreign matter having a large particle is removed from the packed column 20 at a constant ratio or less The removal unit 30, the ionizer 40 for charging the foreign matter particles in the contaminated gas passed through the water droplet removal unit 30 to have a negative (-) polarity, and is discharged through the ionizer 40 Charged liquid droplet injector 60 for horizontally spraying uniformly charged charged droplets having a positive polarity with respect to the negative electrode foreign matter particles in the same traveling direction as the foreign matter particles is provided. To the foreign matter collecting unit 50 to collect secondary, the droplet collecting unit 70 to neutralize and collect the droplets in the state of collecting foreign matter fine particles in the foreign matter collecting unit 50, and the droplet collecting unit 70 From the neutralization gas is made of a discharge portion 80 for discharging to the outside using the blowing fan (82).

At this time, the packed tower unit 20 sprays water through the injection nozzle 22 in which a plurality of contaminated gases and relatively large foreign substances are disposed at predetermined intervals on the top or front side of the polluted gas flowing through the inlet 10. At the same time, the filler 24 is removed to pass through. At this time, the water flowed down to the lower portion of the filler 24 is discharged to the inside of the charging tower 20 through the transfer pipe 28 and the injection nozzle 22 again using the circulation pump 26.

The contaminated gas that has passed through the packed tower part 20 includes more than necessary water droplets, and thus the water droplets having a size of 5 μm or more are removed through a wire mesh pad (not shown) of the water drop removing unit 30. Maintain droplet concentration below.

On the other hand, the gas discharged through the water stripping unit 30 is passed through the ionizer 40, the foreign matter collecting unit 50 and the droplet collecting unit 70, the operation principle will be described in detail below with reference to FIG. .

First, when the ionizer 40 applies a high negative voltage to the plurality of discharge electrodes 42 disposed at a constant interval, the free electrons e- around the discharge electrodes 42 are electrically repulsed ( It moves away from the discharge electrode 42 by the force. At this time, the bouncing free electron (e−) collides with a gas molecule (not shown) in a neutral state and loses electrons and becomes positive (+). On the other hand, the positively polarized gas molecules are attracted to the discharge electrode 42 by the action of electrical attraction, and eventually the polarized gas molecules collide with the surface of the discharge electrode 42. In this process, the discharge electrode 42 has a large number of electrons. will emit (e-). Therefore, a large number of electrons (e-) are present between the discharge electrode 42 and the male electrode 44 and are adsorbed to the foreign matter fine particles 100 of the gas flowing into the discharge electrode 42 to electrically negatively absorb the foreign matter fine particles 100. Charged to the pole.

At this time, the voltage applied to the discharge electrode 42 emits electrons (e-) by applying a high voltage 92 of about -40 kV from the power supply unit 90 for supplying a constant voltage. This is one example, it is also preferable to modify to supply a variety of high voltage according to the needs of the designer.

In addition, the foreign matter particles 100 ′ negatively categorized through the ionization unit 40 pass through the foreign matter collecting unit 50, which includes at least one charged droplet injector 60 at the central portion of the ionization unit 40. It is installed to be discharged in the same direction as the negative electrode particles (100 ') that is discharged and moved through.

At this time, the charged droplet injector 60 is formed in the water supply pipe 62 to move the water supply 61 is vertically long as shown in Figure 3, the water supply pipe 62 outside the water supply pipe 62 Surrounding the air is provided with an air pipe (63) to move the air (air). On the other hand, one side of the air pipe 63 is formed with an air inlet (63a) that can receive the air in a compressed state from the air compressor 96, a plurality of connecting holes (63b) in the horizontal direction is formed .

In addition, at least one nipple (62a) is formed on the outer side of the water supply pipe (62) in which a male thread is formed to face in the horizontal direction so that the water supply (61) moves. The water supply pipe 62 is adjusted so that the nipple 62a is positioned at the same position as the connection hole 63b when the water supply pipe 62 is positioned inside the air pipe 63, and then the socket 58 is connected to the connection hole 63b. It is returned to the state in which it is inserted into the nipple (62a), it is sealed by welding 59 to the joint portion of the air pipe 63 and the socket 58, the socket 58 is penetrated through the center portion The water supply hole 58a is formed, a plurality of air movement holes 58b are formed at the side surface, and a coupling groove 58c is formed at the front portion thereof.

In addition, the coupling groove (58c) is connected to the air movement hole (58b) and the water supply movement path 64 and the water supply movement path (64) connected to the water supply movement hole (58a) air pipe (63) The body 67a is formed integrally with the air movement path 65 that can be injected compressed air, and the liquid to which the injection cap 69, which is formed in the injection hole 69a is formed on the front surface of the body 67a is combined. When the injecting unit 67 is coupled to spray the charged droplet 200, the compressed droplet 200 serves to inject the charged droplet 200 having a smaller and more uniform size by the compressed air at a predetermined angle (θ °).

At this time, the droplet injection unit 67 is provided at least one in the water supply pipe 62, the charged droplet injection device 60 is preferably provided with a plurality of foreign matter collecting unit 50 to maintain a predetermined interval.

In addition, although the charged droplet injection device 60 has been described only in the form of a vertically erect, it can be seen that the same technology principles are employed even when laid horizontally lying.

On the other hand, the outer portion of the water supply pipe 62 is provided with an electrode terminal 68 to surround the outer portion is to receive a high voltage 94 of about +40 kV from the power supply unit 90. In this case, the water supply pipe 62 is made of a metal material such as stainless steel or nickel steel having high electrical conductivity so as to conduct electricity with the electrode terminal 68. The electron (e-) of the water supply 61 passing through the inside of the water supply pipe 62, which is applied with such a positive voltage and maintains a positive polarization state, is separated and the water supply pipe having a positive polarization state ( 62 and the attraction force is separated from the water supply 61 is absorbed by the water supply pipe (62). Therefore, the water supply 61 moving the water supply pipe 62 maintains a positive charge state, and in this state, the charged droplet 200 in the positive (+) state through the water supply passage 64 and the injection hole 69a. Will be sprayed). At this time, it is preferable that the water supply pipe 62 and the air pipe 63 be configured to maintain an electrically insulated state.

At this time, the entire water supply pipe 62 has a positive charge, so that the contact area with the water supply pipe 62 is widened while the water supply 61 is moved, and thus the water supply 61 has a lot of positive charge, and thus, through the water supply movement path 64. When sprayed into the charged droplet 200, the negative polarized foreign matter particles (100 ') and the greater attraction force to maximize the trapping effect of the foreign matter particles (100').

On the other hand, the droplet 200 in the state of collecting the foreign matter particles (100 ') through the foreign matter collecting unit 50 is electrically polarized when it is sent to the outside through the discharge unit 80 as it is (human body) Since it causes harmful static electricity, it neutralizes the droplet 200 in a state in which foreign matter particles 100 ′ are collected through the droplet collection unit 70.

To this end, the droplet collection unit 70 is a carbon material grounded to collect liquid droplets in which foreign particles are collected and a plurality of chevron layers chevron (72). When passing through), the droplet 200 hits the chevron layer 72 by the inertia force and becomes larger in size due to the subsequent collision of the droplet 200, and when the droplet 200 becomes heavy, it is settled by gravity, and the rear end as a whole. Electrically neutralized gas discharged through the discharge unit 80 provided in the discharge.

On the other hand, a negative voltage is applied to the discharge electrode 42 of the ionization part 40, and the electrode terminal 68 surrounding the outer part of the water supply pipe 62 has only a configuration of applying a positive voltage. However, on the contrary, a positive voltage is applied to the discharge electrode 42 of the ionization unit 40, and the electrode terminal 68 surrounding the one end of the water supply pipe 62 is negative (-). It is also preferable to take the structure which applies a voltage.

Hereinafter, an operation example of a scrubber with a charged droplet injection device according to the present invention will be described in detail with reference to FIGS. 1 to 4.

The polluted gas mixed with harmful substances such as harmful gas and dust is first removed from the packed column 20 through the inlet 10 to remove harmful gas and dust having a large particle size of about 5 to 500 μm. However, the foreign matter fine particles 100 which are fine particles of less than 5 μm are passed as they are not removed and are dried to maintain a predetermined humidity or less through the water drop removing unit 30 and supplied to the ionizer 40.

The ionizer 40 applies a high voltage 92 of about −40 kW supplied through the power supply unit 90 to a plurality of discharge electrodes 42 disposed at constant intervals to generate a large number of free electrons e-. It is generated to charge the fine particles of foreign matter (100 ') of the fine size to the negative electrode.

As described above, the negatively charged foreign matter particles 100 ′ pass through the foreign matter collecting unit 50. In this case, a plurality of droplet spraying units 67 are disposed in the horizontal direction at the inner central portion of the foreign matter collecting unit 50. Charged droplet injector 60 is installed to face the foreign matter particles (100 ') and charged droplets 200 has a relative polarity between each other and the attraction force acts to attract and consequently foreign matter particles (100') The charged droplet 200 is to act to collect.

At this time, the charged droplet injector 60 is supplied with a high voltage 94 of about +40 kV from the power supply unit 90 to the electrode terminal 68 provided on the outer side of the water supply pipe, and is charged in a positive charge state to supply water 61. Draws electrons (e-) in the horizontal direction of the positively charged water supply 61 in a horizontal direction in the inner space of the foreign matter collecting unit 50 through the water supply passage 64 and the injection hole 69a. That is, it is discharged in the same direction as the advancing direction of the foreign matter fine particles (100 '). At this time, by the operation of the air compressor 96 by spraying the charged droplets 200 having a more uniform and fine size of the positive charge in the horizontal direction to increase the contact area with the foreign matter particulates foreign matter particles (100 ') having a negative charge It is possible to increase the collection efficiency and reduce the water consumption.

As described above, the charged droplet 200 having the foreign matter particles 100 ′ collected therein collides and builds up through the chevron layer 72 while passing through the chevron layer 72 of the droplet collection unit 70. The droplet 200 is freely dropped by gravity and neutralized and discharged in a state in which harmful gas and dust are removed through the discharge port.

Although the embodiments of the present invention have been described in detail as described above, the scope of the present invention is not limited thereto, and the scope of the present invention extends to the range substantially equivalent to the embodiments of the present invention.

As can be seen from the above description, according to the present invention, the droplet ejection unit 67 constituting the charged droplet injector 60 is disposed in the horizontal direction so as to face the same direction as the traveling direction of the ionized foreign matter fine particles, thereby forming the droplets. By spraying to increase the collection efficiency of foreign particles, and by using compressed air to spray a uniform and finely charged charge droplets to increase the contact area with the foreign particles, while increasing the collection efficiency of foreign particles and water supply It has the effect of reducing the consumption of.

In addition, the water supply pipe 62 is configured to be energized with the electrode terminal 68, so that the contact area with the water supply pipe 62 is widened while the water supply 61 is moving, so that the water supply 61 has a lot of positive charge, and thus the injection hole 69a. When sprayed into the charged droplet 200 through), foreign matter particles (100 ') and even greater attraction force to maximize the trapping effect of the foreign matter particles (100').

1 is a system configuration of a scrubber with a charged droplet injection device according to the present invention.

2 is a view illustrating a gas cleaning principle according to the present invention.

Figure 3 is a view showing a cross section of the charged droplet injection device according to the present invention.

Figure 4 is an enlarged view for explaining the dust collection state around the charged droplet according to the present invention.

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

10: inlet 20: charging tower

30: water droplet removing unit 40: ionization unit

50: foreign matter collecting unit 60: charged droplet injection device

62: water pipe 63: air pipe

63a: air inlet 64: water supply passage

65: air movement path 67: droplet injection unit

68: electrode terminal 69a: injection hole

70: droplet collection section 80: discharge section

90: power supply 96: air compressor

100,100 ': foreign matter particles 200: charged droplets

Claims (5)

When the foreign matter particles ionized to have a certain polarity through the ionization unit 40 is introduced, charged droplet injection of the scrubber to spray the droplets having a relative polarity to the ionized foreign particles fine particles and attract and attract the foreign matter particles In the apparatus, The charged droplet injector is; A water supply pipe 62 in which water is moved is provided at a central portion thereof, and an electrode terminal 68 receives power from the power supply unit 90 so as to have a relative polarity with respect to the particulate matter on one side of the water supply pipe 62. Is provided, the compressed air supplied by the air compressor 96 toward the end of the water supply path 64 and the water supply movement path 64 to the water supply pipe 62 is injected to the side of the water supply pipe 62 Charged droplet injection of the scrubber, characterized in that the droplet injection unit 67 is disposed so that the air movement path 65 is directed toward the horizontal injection hole 69a in the same horizontal direction as the moving direction of the foreign particles. Device. The method of claim 1, Charged droplet injection device of the scrubber, characterized in that the droplet injection unit 67 is provided with one or more maintaining a constant interval. The method of claim 1, The outside of the water supply pipe 62 is characterized in that the air pipe (63) is provided with a hollow shape that can move the compressed air and the air inlet (63a) through which the compressed air flows from the air compressor 96 on one side is provided. Charged droplet injection device of the scrubber. The method of claim 1, The water supply pipe 62 is a charged droplet injection device of the scrubber, characterized in that formed of a metal tube having an electrical conductivity so as to be energized with the electrode terminal 68 in order to increase the cationization efficiency of the feed water moving inside. The method of claim 1, At least one nipple (62a) is formed on the side of the water supply pipe (62) in which a male thread is formed on the outer side so as to face in the horizontal direction, and when the water supply pipe (62) is positioned inside the air pipe (63), the nipple ( 62a) is adjusted to fit the same position as the connecting hole 63b, a water supply hole 58a penetrating the central portion and connected to the water supply passage 64 is formed, and the air movement passage 65 is formed on a side surface thereof. And a plurality of air moving holes 58b connected to each other, and a socket 58 having a coupling groove 58c formed at the front portion thereof is inserted into the connection hole 63b and fixed to the nipple 62a. Charged droplet injection device of the scrubber, characterized in that the droplet injection unit 67 is fixed to the socket (58) to face the same horizontal direction as the moving direction of the foreign particles.