KR101923567B1 - Scrubber apparatus - Google Patents

Abstract

The present invention relates to an ozone nano-micro bubble absorbing oxidation hybrid scrubber apparatus for easily neutralizing malodor gas. More particularly, the apparatus of the present invention comprises: a pretreatment means for generating a first mixture in which an incoming malodor gas and an ozone gas are reacted with each other to neutralize the malodor gas; an ozone microbubble scrubber means connected to the pretreatment means through a pipe to convert the washing water into bubbles in micro units and then react the ozone gas with the bubbles to produce a neutralized second mixture; and an oxygen microbubble scrubber means connected to the ozone microbubble scrubber means through a pipe and neutralizing the second mixture by reacting oxygen gas together with bubbles in micro units.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an ozone nano micro bubble absorption oxidative hybrid type scrubber apparatus,

The present invention relates to an ozone nano micro bubble absorbing oxidation hybrid type scrubber apparatus for easily neutralizing odor gas.

Generally, a scrubber refers to a scrubbing tower for scrubbing volatile organic compounds (VOCs), which is a volatile organic compound, and neutralizes the odor gas by a wet method of neutralizing with water.

These scrubbers are easy to neutralize hydrophilic odorous gases that are compatible with water, but hydrophobic ones that have little affinity with water are difficult to neutralize, and neutralization can be achieved by a combination of chemicals (eg, sodium chloride, sodium hydroxide, and sulfuric acid) .

However, since chemical agents are designated as drugs controlled by the state by the chemical process, there are many restrictions on the processing of odor gas, which causes a problem of avoiding the consumers.

Domestic registered patent No. 10-0961721 (Notification date: 2010.06.10.) Korean Patent Publication No. 10-2017-0115421 (published on October 17, 2017).

Disclosure of Invention Technical Problem [7] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a process for treating malodorous gas which satisfies hydrophilic properties, And a malodor removing method using the malodor removing apparatus.

In order to solve the above problems, an ozone nano-micro bubble absorption oxidative hybrid type scrubber apparatus comprises a pre-treatment means for generating a first mixture in which odor gas and ozone gas are reacted with each other to neutralize the odor gas, (20 μm to 100 nm), which is made by dissolving ozone gas in the cleansing water accommodated in the pipe, and then reacting the ozone gas with the first bubble to generate a neutralized second mixture And ozone microbubble scrubber means and ozone microbubbles scrubber means for reacting and reacting oxygen gas with bubbles of a micro size unit to the second mixture, which is connected to the ozone microbubble scrubber means.

The pre-treatment means includes a guide pipe, a blower, a mixing plate, and an ozone injection member. The guide pipe has a predetermined length, one end is connected to the blower and the other end is connected to the ozone fine bubble scrubber means, Wherein the blower injects malodorous gas to be purified into the induction pipe so as to have a predetermined discharge pressure into the induction pipe, and the mixed plate has a plate shape, and the odor gas and ozone gas And the ozone injecting member is connected to the inside of the induction pipe to inject ozone gas.

The ozone microbubble scrubber means or the ozone microbubble scrubber means may include a bubble generator including at least one of a neutralization tank, a microbubble generation pump, a dissolution tank, a bubble nozzle, and a mixer nozzle plate, Wherein the mixer nozzle plate is installed in a plurality of configurations in the longitudinal direction and the upper portion is connected to the connection pipe, and the micro-bubble generating pump has one end connected to the neutralization tank And the other end is connected to the dissolving tank to generate washing water accommodated in the neutralizing tank into bubbles of 20 micron unit and supplies the bubbles to the dissolving tank. In the dissolving tank, the bubbles supplied from the microbubbles generating pump are circulated several times Thereby generating a bubble of 5 microns in size and being supplied to the bubble nozzle, Wherein the mixer nozzle plate is provided so as to be able to be submerged in the washing water contained in the neutralization tank, wherein bubbles generated through the dissolving tank are supplied to the mixer nozzle plate, A blade having a twister shape), and a plurality of through holes formed in each of the blades.

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According to the present invention, ozone gas (ozone gas) is generated by using a plasma discharge tube with oxygen, and the generated ozone gas is trapped in a bubble of nano-micrometer unit to purify odor gas.

1 is a conceptual diagram showing an ozone nano micro bubble absorption oxidation hybrid type scrubber apparatus according to the present invention.
Figure 2 shows the pretreatment means for Figure 1;
Fig. 3 is a view of the mixing plate of Fig. 2; Fig.
Fig. 4 shows an ozone micro-bubble scrubber means according to Fig. 2;
Figure 5 is a view of the mixer nozzle plate and dissolution tank of Figure 4;
6 is a view showing a state in which the mixer nozzle plate shown in FIG. 5 is installed in a neutralization tank step by step.
7 shows the oxygen micro-bubble scrubber means for FIG. 1;
FIG. 8 is a flowchart illustrating a method for removing odors using an ozone nano micro bubble absorption oxidative hybrid type scrubber apparatus according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an ozone nano micro bubble absorption oxidative hybrid type scrubber apparatus (hereinafter simply referred to as a scrubber apparatus) according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 7, a scrubber apparatus 10 according to the present invention mainly includes a pretreatment unit 100, an ozone microbubble scrubber unit 200, and an oxygen microbubble scrubber unit 300 .

More specifically, as shown in FIGS. 1 to 3, the preprocessing means 100 is a means for reacting the odor gas introduced through the blower 130 with ozone gas to neutralize the odor gas And includes an induction tube 120, a blower 130, an ozone injection member 140, and an optical reaction member 150.

The induction pipe 120 is formed so as to have a tubular shape having a predetermined diameter as a whole, one end connected to the blower 130 and the other end connected to the ozone fine bubble scrubber means 200 to be described later, Ozone gas can react with each other.

At this time, a plate-like mixing plate 121 having a perforation 123 formed therein is provided inside the induction pipe 120 so that the reaction of the first mixture in which the odor gas and the ozone gas are mixed with each other can be facilitated And the optical reaction member 150 is disposed adjacent to the rear of the mixing plate 121, that is, in the direction in which the first mixture moves.

As shown in the drawing, the perforations 123 formed in the mixing plate 121 are formed such that a pair of first openings 125 having a wide opening area are formed adjacent to each other, and a pair of the first openings 125 And a second opening 127 having a shape in which the open area is gradually narrowed toward an arbitrary central portion of the mixing plate 121.

An inlet pipe 141 for introducing ozone gas into the induction pipe 120 is connected to the inside of the induction pipe 120 so as to communicate with the inside of the induction pipe 120. The inlet pipe 141 is connected to the front of the mixing plate 121 And the odor gas and the ozone gas are easily connected to the mixing plate 121 to form the first mixture.

The blower 130 is connected to one end of the induction pipe 120 and is installed to discharge the malodorous gas to be purified into the induction pipe 120 by a certain pressure.

The ozone injecting member 140 is connected to the inflow pipe 141 and is connected to the induction pipe 120 through the inflow pipe 141 to react with the odor gas to generate ozone gas So that it can be injected.

The optical reaction member 150 is installed inside the induction pipe 120 between the mixing plate 121 and the ozone microbubble scrubber device 200 described below and is specially waterproofed and includes a UVC lamp 151 for discharging ozone, Lt; / RTI >

At this time, the optical reaction member 150 can be used for highly concentrated odor gas, and if necessary, a spray nozzle for discharging the bubble generated by the ozone fine bubble scrubber means 200, which will be described later, .

The ozone micro bubble scrubber means 200 is formed into a bubble of nano micro bubbles (20 to 100 nm) formed by dissolving ozone gas in washing water accommodated in a pipe connection with the pretreatment means 100, Ozone gas is reacted with the first mixture to produce a neutralized second mixture.

4 to 6, the ozone micro-bubble scrubber 200 is formed by reacting the generated first mixture with a bubble generated in a micro unit size step by step to form a second mixture And a bubble generating unit and a connection pipe 250. The bubble generating unit includes a bubble generating unit and a connection pipe.

The bubble generating unit includes a neutralization tank 210, a fine bubble generation pump 220, a dissolution tank 230, a bubble nozzle 233, and a mixer nozzle plate 240 in a configuration for generating a bubble for neutralizing the first mixture. .

The neutralization tank 210 is formed in a generally hollow hollow shape, and the rinsing water is received in the lower end thereof. The upper part of the neutralization tank 210 is connected to one end of the connection pipe 250, and the second mixture is introduced into the oxygen microbubbles scrubber means 300 ). ≪ / RTI >

In the neutralization tank 210, a plurality of mixer nozzle plates 240 are disposed adjacent to each other in the vertical direction so that the first mixture and the ozone gas react with each other to generate a second mixture.

In addition, the neutralization tank 210 has a structure in which ozone gas is connected to the ozone injection member 140 to generate a second mixture, and the ozone gas can be introduced into the neutralization tank 210.

The micro-bubble generating pump 220 is connected at one end to the cleansing water contained in the neutralization tank 210, while the other end thereof is connected to the dissolution tank 230 to be described later so as to generate bubbles for generating micro- do.

At this time, it is preferable that the micro-bubble generating pump 220 is capable of generating the cleaning water introduced by the impeller rotatably installed therein into bubbles of 20 micron unit.

The dissolving tank 230 is for generating bubbles generated by the above-described fine bubble generating pump 220 into fine bubbles of 5 micron units.

The dissolving tank 230 has a generally hollow hollow shape in which the inflowing bubbles have a structure capable of generating a dense bubble while compressing and colliding with the protruding portion 231 several times in a zigzag manner, The size of the bubble generated by the bubble generator 230 can be maintained to be 5 microns so that the rapid superficial velocity can be maintained.

The dissolution tank 230 is installed so as to be connected to a bubble nozzle 233 provided inside the neutralization tank 210. The fine bubble generated in the dissolution tank 230 flows into the neutralization tank 210 through the bubble nozzle 233, And has a structure that can be discharged.

The bubble nozzle 233 is provided to be immersed in the washing water stored in the neutralization tank 210 so that the bubble generated through the dissolving tank 230 can be discharged toward the mixer nozzle plate 240.

A plurality of mixer nozzle plates 240 are disposed adjacent to each other in the vertical direction inside the neutralization tank 210, and each mixer nozzle plate 240 has a structure in which a plurality of helical blade blades 241 are radially arranged.

At this time, a plurality of through holes 243 may be formed in each of the blades 241, and the through holes 243 may have a structure in which the injected ozone gas and the first mixture can collide with each other at the same time .

Thus, the second mixture in which the odor gas is neutralized is obtained through the repetitive operation in which the ozone gas and the first mixture collide with each other at the same time through the plurality of mixer nozzle plates 240 installed step by step.

On the other hand, each of the blades 241 having a twisted shape in the neutralization tank 210 is formed so as to have a direction that is not identical to each other in the vertical direction, so that the ozone gas for forming the second mixture, 1 to maximize the collision between the mixtures.

The connection pipe 250 is formed in a tubular shape having a predetermined diameter as a whole and has one end connected to the inside of the neutralization tank 210 and the other end connected to the oxygen micro bubble scrubber means 300, Is introduced into the oxygen microbubble scrubber means (300).

7, the oxygen micro-bubble scrubber unit 300 may have the same structure as that of the ozone micro-bubble scrubber unit 200, as shown in FIG. 7, And the second mixture is neutralized by injecting oxygen gas through the oxygen pump. The details of the structure of the ozone fine bubble scrubber unit 200 I will borrow it as a description.

The oxygen micro-bubble scrubber means 300 includes a discharge pipe 350 which is arranged in the neutralization tank 210 which is a component of the oxygen micro-bubble scrubber means 300, The purified material discharged through the discharge pipe 350 can be collected in a collecting tank (not shown) or the like (not shown).

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a malodor removing method using a nano micro bubble absorption oxidative hybrid type scrubber apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

It is noted that, in the following description, the description of the scrubber device 10 will be omitted so as to clarify the gist of the malodor removal method 20 according to the present invention.

As shown in FIG. 8, the odor removing method 20 according to the present invention includes a first step (S100) of neutralizing a first mixture by a dry method, a step of reacting the first mixture with a bubble to neutralize the second mixture (2) a step S200 of neutralizing the second mixture, and (3) a step S300 of neutralizing the second mixture by injecting oxygen gas.

Consequently, the malodor removing method 20 according to the present invention neutralizes the first mixture by a dry method using ozone gas, reacts the neutralized first mixture with a micro-bubble, that is, And finally neutralizing the second mixture by a dry method using oxygen gas so that the odor gas can be easily neutralized by using water, ozone gas, and oxygen gas without reacting with the odor gas with a chemical agent .

In more detail, the step 1) is a step of generating a neutralized first mixture by pretreatment using a dry method of mixing volatile organic compounds (VOCs) with ozone gas.

In step 1), a malodorous gas is injected into the tube using a blower, and an ozone gas, which is an oxidizer, is injected into the injected malodorous gas, and then a first mixture is generated which reacts to neutralize the malodorous gas.

In step 1), it is possible to improve the speed of the odor gas, that is, the moving speed and the reaction speed of the malodorous gas, by mixing the gas odor gas with another gas type ozone gas, The superficial velocity in a column in which the mixture to be neutralized is moved for at least 5 seconds can be rapidly neutralized until the third step S300.

Here, the first mixture, which is primarily neutralized, is further subjected to a photooxidation reaction with a UVC lamp that generates ozone, thereby improving the function of cutting off the connection rings of highly concentrated odorous gases.

Next, the second step S200 is a step of reacting the generated first mixture with bubbles generated in a micrometre size stepwise to generate a wet-neutralized second mixture.

2) In operation S200, micro-sized bubbles are sequentially generated through the bubble generator to enable the first mixture to react within the generated bubble.

At this time, it is preferable that the size of the generated bubble is 5 mu (5 microns).

Lastly, in step S300, the second mixture reacted with the bubbles is reacted with oxygen gas to wet-neutralize the second mixture.

In the step 3) of the present invention, the neutralization of the odor gas is performed by additionally injecting bubbles generated by the bubble generator described above so as to react with the ozone gas remaining in the neutralized odor gas to completely neutralize the odor gas .

The odor removing method 20 according to the present invention, which is performed in the same manner as described above, is characterized in that bubbles, ozone gas, and oxygen generated by the washing water in parallel with the dry and wet chemicals, The malodor gas can be completely purified.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the spirit and scope of the invention are not limited to these specific embodiments, but that various changes and modifications may be made without departing from the spirit of the invention, If you are a person, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

10: ozone nano micro bubble absorption / oxidation hybrid type scrubber device according to the present invention
20: Odor removal method using ozone nano micro bubble absorption oxide hybrid type scrubber apparatus according to the present invention
100: preprocessing means
120: induction tube 121: mixed plate
123: Perforation 125: First opening
127: second opening 130: blower
140: ozone injection member 141: inlet pipe
150: optical reaction member 151: UVC lamp
200: ozone fine bubble scrubber means
210, 310: Neutralization tank 220, 320: Micro bubble generating pump
230: dissolving tank 240, 340: mixer nozzle plate
241, 341: Blades 243, 343:
250: Connector
300: oxygen micro bubble scrubber means
350: discharge pipe

Claims (5)

A pretreatment means (100) for reacting the introduced odor gas and ozone gas to generate a first mixture in which the odor gas is neutralized;
A nano micro bubble unit bubble formed by dissolving ozone gas in the cleansing water accommodated in a pipe connection with the pretreatment unit 100 and then reacting the ozone gas with the first mixture to neutralize the second mixture, An ozone fine bubble scrubber means (200) for generating ozone; And
And oxygen microbubbles scrubber means (300) for neutralizing the second mixture, which is connected to the ozone microbubble scrubber means (200), by reacting oxygen gas together with bubbles in a unit of micro size by mutual reaction,
The ozone microbubble scrubber means 200 may include at least one of a neutralization tank 210, a microbubble generation pump 220, a dissolution tank 230, a bubble nozzle 233, and a mixer nozzle plate 240. And a generating unit,
The neutralization tank 210 is hollow and has a cleansing water therein. The mixer nozzle plate 240 is installed in a plurality of longitudinally arranged structures. The upper portion of the mixer nozzle plate 240 is connected to the connection pipe 250 The micro bubble generating pump 220 is connected at one end with the neutralization tank 210 and at the other end with the dissolution tank 230 to connect the cleaning water accommodated in the neutralization tank 210 with air bubbles And the dissolution tank 230 generates bubbles in units of 5 microns as the bubbles supplied from the micro-bubble generating pump 220 collide with the bubbles several times, And the bubble nozzle 233 can be supplied to the neutralizer tank 233 so that the bubble generated in the neutralizer tank 210 can be submerged in the washing water contained in the neutralization tank 210, Is fed to the plate 240, The mixer nozzle plate 240 includes a plurality of radially arranged helical blades 241 and a plurality of through holes 243 formed in each of the blades 241. The ozone nano micro bubble Absorbing oxidation hybrid type scrubber device.
The method according to claim 1,
The pretreatment unit 100 includes an induction pipe 120, a blower 130, a mixing plate 121, and an ozone injection member 140,
The induction pipe 120 has a predetermined length, one end connected to the blower 130, and the other end connected to the ozone micro bubble scrubber 200,
The blower 130 injects malodorous gas into the induction pipe 120 to be purified so as to have a predetermined discharge pressure in the induction pipe 120,
The mixing plate 121 is formed in a plate shape and a perforation 123 is formed therein so that odor gas and ozone gas injected into the induction pipe 120 can be mixed with each other,
Wherein the ozone injecting member (140) is connected to the inside of the induction pipe (120) to inject ozone gas.
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