KR101450603B1 - Ammonia Gas Reduction Device Using Ozonized Water - Google Patents

Abstract

The present invention relates to an ammonia gas abatement apparatus using ozone water that can reduce the odor of housing,
An ozone water storage tank which stores ozone water therein and has an ammonia gas inlet, a purified air outlet, and an ozone gas outlet; An ammonia gas supply pipe disposed between the ammonia gas inlet port of the ozonated water storage tank and the water surface of the ozonated water stored in the ozonated water storage tank for transferring the ammonia gas and having a blower at its tip; An ozone water injection means for injecting ozone water stored in the ozone water storage tank into the inside of the ammonia gas supply pipe to forcibly bring the ozone water into contact with the ammonia gas; Ozone supply means for supplying ozone to ozone water stored in the ozone water storage tank; And excess ozone removing means connected to the ozone gas discharge port of the ozonated water storage tank to remove excess ozone.
Therefore, according to the apparatus for reducing ammonia gas using ozone water according to the embodiment of the present invention, since ozone generation and ozonated water can be circulated continuously, high concentration ozone water can be maintained. Therefore, the sterilization of viruses, bacteria, It is possible to efficiently oxidize and decompose it, so that it is possible to remove the bad smell as well as to sterilize the bacteria.
In addition, according to the present invention, since the gas circulation purification system of the present invention can maintain the internal temperature of the housing constantly compared with the conventional ventilation system, there is no leakage of contaminated air to the outside, have.

Description

Technical Field [0001] The present invention relates to an ammonia gas reducing apparatus using ozone water,

The present invention relates to an ammonia gas abatement apparatus using ozone water to reduce the odor of a housing, and more particularly, to an apparatus for abatement of ammonia gas with a high concentration (1 ppm or more) of ozonated water, And an ammonia gas reducing apparatus using ozone water capable of oxidizing and decomposing an inorganic compound and purifying it with a clean gas, thereby remarkably reducing the odor generated in the housing.

According to the Anti-Odor Control Law (Ministry of Environment) implemented since February 2005, regulations on the emission of designated odor substances such as ammonia and hydrogen sulfide are being implemented for livestock facilities with a pork breeding facility area of 50㎡ or more from January 1, 2006 . It is a law for solving the problem caused by the odor in the area near the pig house by the statute that the concentration of the specified odor substance measured at the boundary of the site where the pig house is located must satisfy each emission allowance standard.

Inside the livestock, especially inside the pig house, the harmful gas such as ammonia is inevitably generated due to the manure of the livestock. Therefore, the inside of the house causes a lot of diseases and growth of the livestock due to many bacteria in the atmosphere.

However, when the ventilation system is applied as described above, there arises a problem of surrounding complaints and air pollution due to bad odors in the summer season, and there is a problem of heating and ventilation during the winter season There is a great deal of difficulty in satisfying these conditions at the same time.

In order to solve the above problems, there has been known a technique of using ozone water to purify harmful substances such as odors, fine dusts, and bacteria contained in the air inside a house.

Ozone water is known to sterilize / disinfect harmful microorganisms such as pathogenic bacteria, viruses, fungi and lichens, oxidize heavy metals, and decompose and remove polymer organic substances.

Therefore, in the method of removing odor of housing using ozonated water according to the prior art, a method of simply spraying ozone water into the inside of the housing is applied. However, in such a method of spraying ozone water, There is a limit in uniform contact with the gas, and there is a problem in that continuous injection can not be performed due to excessive humidity and moisture increase inside the housing.

Korean Utility Model Registration Application No. 20-2008-0015915 (Name of Design: ozone air blowing device)

A problem to be solved by the present invention is to enable high concentration ozone water to closely contact with ammonia gas at a high density so that organic and inorganic compounds in the noxious gas can be oxidized and decomposed and cleaned with clean gas, And an object of the present invention is to provide an ammonia gas reducing apparatus using ozone water.

According to the present invention, there is provided an ammonia gas reducing apparatus using ozone water for reducing the odor of housing,

An ozone water storage tank which stores ozone water therein and has an ammonia gas inlet, a purified air outlet, and an ozone gas outlet; An ammonia gas supply pipe disposed between the ammonia gas inlet port of the ozonated water storage tank and the water surface of the ozonated water stored in the ozonated water storage tank for transferring the ammonia gas and having a blower at its tip; An ozone water injection means for injecting ozone water stored in the ozone water storage tank into the inside of the ammonia gas supply pipe to forcibly bring the ozone water into contact with the ammonia gas; Ozone supply means for supplying ozone to ozone water stored in the ozone water storage tank; And excess ozone removing means connected to the ozone gas discharge port of the ozonated water storage tank to remove excess ozone.

In the present invention, the ozone supply means for supplying ozone to ozone water stored in the ozone water storage tank may include an ozone generator for generating ozone to supply ozone to the ozone water stored in the ozone water storage tank, An ozone transfer tube installed on the bottom surface of the ozone water storage tank for transferring ozone generated in the ozone generator and connected to the ozone transfer tube to inject ozone generated in the ozone generator into the ozone water to generate a surface wave, And a control unit.

According to the apparatus for reducing ammonia gas using ozone water according to the embodiment of the present invention, ozone generation and ozonated water can be continuously circulated, thereby maintaining high concentration ozone water. Therefore, it is possible to efficiently sterilize viruses, bacteria, It is possible to oxidize and decompose it, and it is possible to eliminate odor, as well as to have a germicidal effect.

In addition, according to the present invention, since the gas circulation purification system of the present invention can maintain the internal temperature of the housing constantly compared with the conventional ventilation system, there is no leakage of contaminated air to the outside, have.

In addition, according to the present invention, ozonated water stored in the ozonized water tank functions as an air purifier by filtering fine dust or the like inside the housing.

1 is a schematic view illustrating an overall configuration of an ammonia gas reducing apparatus using ozone water according to an embodiment of the present invention;
2 is a schematic view illustrating an overall configuration of an ammonia gas reducing apparatus using ozone water according to another embodiment of the present invention;

Preferred embodiments of the ammonia gas reducing apparatus using ozone water according to the present invention will now be described in detail with reference to the accompanying drawings.

1 is a schematic view illustrating an overall configuration of an ammonia gas reducing apparatus using ozone water according to an embodiment of the present invention.

The present invention relates to an ammonia gas abatement apparatus using ozone water to reduce the odor of housing,

An ozone water storage tank 100 which stores ozone water therein and has an ammonia gas inlet 110, a purified air outlet 120 and an ozone gas outlet 130; and an ammonia gas inlet (not shown) of the ozone water storage tank 100 An ozone water supply pipe 200 disposed between the ozone water storage tank 100 and the ozone water storage tank 100 for transferring ammonia gas and having a blower 210 at its tip; An ozone water injection means 300 for injecting ozone water stored in the ozone water storage tank 100 into the inside of the ammonia gas supply pipe 200 to forcibly bring the ozone water into contact with the ozone water, And a surplus ozone removing means 500 connected to the supply means 400 and the ozone gas outlet 130 of the ozonated water storage tank 100 to remove excess ozone. It is.

In this case, the ozonated water storage tank 100 may be made of a metal or a synthetic resin, and the ozonated water storage tank 100 may be installed at a certain position inside or outside the housing by a support 140, The bottom of the storage tank 100 may be provided with an ozonated water discharge valve 150 used to discharge the ozonated water stored therein.

Here, the ammonia gas inlet 110 provided in the ozonated water storage tank 100 sucks contaminated air containing ammonia gas generated from the housing into the ozonated water storage tank 100 through the ammonia gas supply pipe 200 Role.

The purifying air outlet 120 functions to discharge air purified by the ozonated water spraying means 300 in the ozonated water storage tank 100 to the outside of the housing or to recirculate the air inside the housing.

The ozone gas discharge port 130 discharges the excess ozone supplied to the ozone water storage tank 100 by the ozone supply means 400 to the excess ozone removal means 500, The removing means 500 may include a conventional ozone remover or an ozone decomposing device.

An ammonia gas supply pipe 200 is disposed between the ammonia gas inlet 110 of the ozonated water storage tank 100 and the water surface of the ozonated water stored in the ozonated water storage tank 100. In the ammonia gas supply pipe 200, A blower 210 for sucking air contaminated with ammonia gas from the housing is provided at the tip of the housing.

At this time, a predetermined interval is maintained between the lower end of the ammonia gas supply pipe 200 and the surface of the ozonated water so that the contaminated air injected to the end of the ammonia gas supply pipe 200 contacts the surface wavelength of the ozonated water at high density, It is preferable that the organic and inorganic compounds are installed so as to be oxidatively decomposed.

In the present invention, the ozone supply means 400 for supplying ozone to ozone water stored in the ozone water storage tank 100 generates ozone to supply ozone to the ozone water stored in the ozone water storage tank 100 An ozone generator 420 connected to the ozone generator 410 for transferring the ozone generated by the ozone generator 410 to the ozone generator 300; And an ozone diffusion pipe (430) connected to the ozone transfer pipe (420) to mix the ozone generated in the ozone generator (410) into the ozone water to generate a surface wave.

In this case, the ozone generator 410, which is a component of the ozone supply means 400, generates ozone by corona discharge in the air (or oxygen) and mixes the ozone- A method of dissolving in water can be applied.

In addition, the ozone generator 410, which is a component of the ozone supply means 400, is provided with counter electrodes in the water and applies a predetermined pulse voltage to the counter electrodes to generate ozone bubbles directly in water and dissolve them in water Method can be applied.

The ozone diffusion pipe 430 installed on the bottom surface of the ozonated water storage tank 100 is connected to the ozone transfer pipe 420 to mix the ozone generated in the ozonizer 410 into the ozonated water, Thereby generating a wavelength on the surface of the ozonated water, thereby maximizing the contact between the harmful gas and the ozonated water.

The ozonated water injection means 300 for injecting the ozonated water stored in the ozonated water storage tank 100 into the ammonia gas supply pipe 200 for forcibly contacting the ozonated water with the ammonia gas is provided in the ozonated water storage tank 100, An ozone water transfer pipe 320 connected to the underwater pump 310 for transferring the ozonated water to the injector 330 and an ammonia gas supply pipe 200 connected to the underwater pump 310, And an injector 330 disposed at a predetermined position of the ammonia gas supply pipe 200 and injecting the ionized water through the ozone water transfer pipe 320 into the ammonia gas supply pipe 200.

In this case, the submersible pump 310, which is a component of the ozonated water injection means 300, includes a pump and an electric motor for driving the pump. The pump includes an injector 330 installed inside the gas supply pipe 200 It is preferable to apply an appropriate capacity pump according to the amount of ozone water injection.

The operation of the ammonia gas reducing apparatus using ozone water according to the present invention will now be described.

The ozone generator 410 is operated to start the ozone generated by the ozone generator 410 through the ozone transfer pipe 420 and the ozone diffusion pipe 430 to the ozone water To generate a surface wave.

In this state, when the blower 210 and the underwater pump 310 provided at the tip of the ammonia gas supply pipe 200 are driven, the blower 210 removes ammonia (NH 3) gas, hydrogen sulfide (H 2 S) (CH4) and the like, and is sprayed to the surface of the ozonated water stored in the ozonated water storage tank 100 through the ammonia gas supply pipe 200. At this time, the air passing through the inside of the ammonia gas supply pipe 200 The contaminated air is primarily purified by the ozonated water injected into the injector 330 by the driving of the submersible pump 310 and then sprayed onto the surface of the ozonated water.

Therefore, the contaminated air supplied to the ammonia gas supply pipe 200 contacts the ozonated water injected from the injector 330 at a high density, thereby oxidizing and decomposing the organic and inorganic compounds in the noxious gas, thereby primarily purifying the ozonated water, The ozonated water is injected onto the surface of the ozonated water stored in the ozonated water storage tank 100, and then the purified air is secondarily purified by the surface wave, and then the purified air is discharged through the purified air outlet 120 to the outside of the housing.

At this time, the surplus ozone supplied to the ozonated water storage tank 100 is supplied to the ozone removing unit 500 including the ozone removing unit or the ozone decomposing unit through the ozone gas outlet 130 to remove the ozone.

2 is a schematic view illustrating an overall configuration of an ammonia gas reducing apparatus using ozone water according to another embodiment of the present invention.

As can be seen from the figure, in another embodiment of the present invention, the humidity sensor 600 and the controller 610 are additionally applied to the humidity inside the housing, The device is configured to operate automatically.

That is, the humidity sensor 600 is disposed at a predetermined position inside the housing and the output data of the humidity sensor 600 is compared with the set value of the controller 610. When the humidity inside the housing is higher than the set value, The ozone generator 410, the blower 210 and the underwater pump 310 are driven to stop the humidification of the ozone generator 410, the blower 210 and the underwater pump 310, And the air purification function can be performed automatically.

According to the ammonia gas reducing apparatus using the ozonated water according to the embodiments of the present invention, since ozone generation and ozonated water can be circulated continuously, high concentration ozone water can be maintained. Thus, viruses and bacteria in the contaminated air, Can be efficiently oxidized and decomposed, thereby eliminating the malodor as well as the bactericidal effect of bacteria.

In addition, according to the present invention, since the gas circulation purification system of the present invention can maintain the internal temperature of the housing constantly compared with the conventional ventilation system, there is no leakage of contaminated air to the outside, have.

According to the present invention, the ozonated water stored in the ozonated water tank functions to function as an air purifier by filtering fine dust or the like inside the housing.

Up to now, the ammonia gas reducing apparatus using ozone water according to the present invention has been described with reference to the embodiments. Although the present invention has been described with reference to preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is not intended to limit the scope. It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention as set forth in the following claims.

100: ozone water storage tank 110: ammonia gas inlet
120: purified air outlet 130: ozone gas outlet
200: ammonia gas supply pipe 210: blower
300: Ozonated water injection means 310: Submerged pump
320: ozone water transfer pipe 330: injector
400: ozone supply means 410: ozone generator
420: ozone transfer pipe 430: ozone diffusion pipe
500: Surplus ozone removing means 600: Humidity sensor
610:

Claims (4)

An ammonia gas abatement apparatus using ozone water for reducing the odor of housing,
An ozone water storage tank which stores ozone water therein and has an ammonia gas inlet, a purified air outlet, and an ozone gas outlet;
An ammonia gas supply pipe disposed between the ammonia gas inlet port of the ozonated water storage tank and the water surface of the ozonated water stored in the ozonated water storage tank for transferring the ammonia gas and having a blower at its tip;
An ozone water injection means for injecting ozone water stored in the ozone water storage tank into the inside of the ammonia gas supply pipe to forcibly bring the ozone water into contact with the ammonia gas;
Ozone supply means for supplying ozone to ozone water stored in the ozone water storage tank; And an excess ozone removing means connected to the ozone gas discharge port of the ozonated water storage tank to remove excess ozone. The method according to claim 1,
The ozone supply means for supplying ozone to ozone water stored in the ozone water storage tank may include an ozone generator for generating ozone to supply ozone to ozone water stored in the ozone water storage tank, And an ozone diffusion tube installed on a bottom surface of the ozone water storage tank and connected to the ozone transfer tube to inject ozone generated in the ozone generator into ozone water to generate a surface wave, Characterized in that the ammonia gas reduction device uses ozone water. The method according to claim 1,
The ozone water jetting means for injecting the ozone water stored in the ozone water storage tank into the ammonia gas supply pipe to forcibly contact the ozone water with the ammonia gas comprises an underwater circulation pump disposed at a predetermined position in the ozone water stored in the ozone water storage tank, And an injector for injecting the ionized water, which is provided at a predetermined position of the ammonia gas supply pipe, through the ozone water transfer pipe into the ammonia gas supply pipe, the ozone water supply pipe being connected to the underwater circulation pump, Wherein the ammonia gas is supplied from the ozone generator. The method according to claim 1,
And a controller for driving the ozone generator, the blower and the underwater pump according to the output data of the humidity sensor, wherein the ozone generator, the blower, and the underwater pump To thereby automatically perform the humidity control and the air purifying function by driving the ozone generator.

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