KR101823139B1 - Tunnel type ozone water odor remving facilities - Google Patents

Abstract

The present invention relates to a tunnel ozone cleaning odor remover, and more particularly, to a tunnel ozone clean odor remover which is capable of removing contaminated air (contaminated air generated in the process of food waste disposal, livestock manure composting process, sewage sludge disposal process, And it is intended to maximize the odor removal rate by increasing the contact time and contact area between ozone water and pollution source and to be able to apply underground as well as the ground without intervention of the ground structure.
The apparatus for removing ozone deodorizing odor according to the present invention comprises a chamber main body having a polluted air inlet and a purified air outlet, the polluted air flowing through the polluted air inlet swings the chamber body one or more times, One side of the chamber body is connected to the inner wall of the chamber body and the other side of the chamber body is separated from the inner wall on the opposite side of the chamber body by a predetermined space so as to be discharged through the chamber body, A deodorization chamber (10) for providing a deodorization chamber (10); An ozone water deodorization unit 20 composed of an ozone water supply unit and an ozone water injection unit for injecting ozone water supplied from the ozone water supply unit into the deodorization chamber to deodorize contaminants by ozonated water; And a plurality of odor contact agents 30 disposed at predetermined intervals along the air transfer path in the deodorization chamber to increase the contact time between the contaminated air and the ozonated water to improve the deodorization rate.

Description

TECHNICAL FIELD [0001] The present invention relates to a tunnel type ozone cleaning odor removing apparatus,

More particularly, the present invention relates to a tunnel type ozone cleaning odor eliminating apparatus for maximizing the odor removal rate by supplying contaminated air in a transverse flow mode and increasing contact time and contact area between ozone water and contamination source .

Generally, gas is generated in food waste disposal process, composting process of livestock manure composting facility, product production in manufacturing plant, incineration process of incineration facility, and sewage sludge disposal process. The gas is exhausted to the atmosphere. Since the exhaust gas contains various pollutants (odor) and acts as a cause of air pollution, the exhaust gas is purified to a legal allowance and then exhausted to the atmosphere.

Deodorizing towers have been used to solve air pollution caused by odor discharge.

The deodorization tower according to the prior art sprays ozone water and the like to remove odorous pollutants by removing polluted air in the process of rising after the polluted air flows in through the bottom. The deodorization tower is vertical, Therefore, since the contact time between the pollutant and the ozonated water is very short, the odor removal rate is low.

In addition, since the vertical deodorizing tower has a high height, it is unrealistic to be buried underground, that is, it can be constructed only on the ground, and it interferes with the surrounding ground structure, so it is applied to places without ground structure like mountains.

In addition, the conventional vertical deodorization tower has a problem that it is difficult to add a new deodorization tower when expansion is required.

The patent document (Korean Patent No. 10-1303335) discloses a deodorization tower comprising a deodorization tower body, a deodorization tower body, and a deodorization tower body, A deodorization tower including an air inlet pipe and an exhaust pipe formed at a ceiling portion of the deodorization tower main body; And an ozone and ozone water supply unit for supplying ozone water and ozone purified by ozone to the deodorization tower together to remove and sterilize odor of the contaminated air flowing into the deodorization tower, A circulation means for circulating water or ozonated water stored in the ozonated water storage portion, ozone water injection means for injecting the ozonated water stored in the ozonated water storage portion into the deodorization tower, An ozone supply unit for supplying ozone to the deodorization tower by supplying ozone to the ozonated water storage unit through an injector provided in the ozone water storage unit to generate water stored in the ozonated water storage unit as ozonated water and separately supplying ozone to the deodorization tower, An ozone injection means for injecting ozone into the deodorization tower, And a controller for controlling the ozone supply unit and the ozone spraying unit to spray ozone water and ozone to the deodorization tower. Since the deodorization tower is also vertical, ozone water and contaminants can only contact for a short time of several seconds, The efficiency is low.

Korean Patent No. 10-1303335

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a tunnel ozone cleaning odor eliminating device for maximizing the odor removal rate by supplying polluted air transversely and increasing contact time and contact area between ozone water and contamination source .

Another object of the present invention is to make it possible to expand the system through a simple operation.

The apparatus for removing ozone deodorizing odor according to the present invention comprises a chamber main body having a polluted air inlet and a purified air outlet, the polluted air flowing through the polluted air inlet swings the chamber body one or more times, One side of the chamber body is connected to the inner wall of the chamber body and the other side of the chamber body is separated from the inner wall on the opposite side of the chamber body by a predetermined space so as to be discharged through the chamber body, A deodorization chamber for providing the deodorization chamber; An ozone water deodorization unit comprising an ozone water supply unit and an ozone water injection unit for injecting ozone water supplied from the ozone water supply unit into the deodorization chamber to deodorize contaminants by ozonated water; And a plurality of odor contact agents installed in the deodorization chamber at predetermined intervals along the transfer path of the air to increase the contact time between the contaminated air and the ozonated water to improve the deodorization rate.

The present invention is characterized in that the deodorization chamber is divided into a first purifying zone on the contaminated air inlet side and a second purifying zone on the purifying air outlet side, wherein the first purifying zone uses fresh ozone water and the second purifying zone uses And one regenerated ozone water is used.

The ozone water spraying unit injects ozone water from the inside of the odor contact agent into the outside, and the odor contact agent may have a structure in which a plurality of plate members are radially formed around the ozone water spraying unit, a structure in which a plurality of sheets are stacked, Do.

According to the tunnel ozone cleaning odor removing apparatus of the present invention, the deodorization chamber is configured to be capable of transverse flow of the contaminated air, and the contact time and contact area between the ozone water and the odor contamination source are increased through the odor contact agent, Prevent air pollution caused by pollutants (food waste disposal process, livestock manure composting process, sewage sludge disposal process, product manufacturing factory, incineration process of incineration facility, etc.).

In addition, it can be installed and operated in the ground as well as underground, and can be installed and operated without interfering with the ground structure as compared with the conventional vertical deodorization tower. There is also an effect.

In addition, when two or more deodorization chambers are applied (both new installation and expansion), two or more deodorization chambers can be arranged in the transverse direction, and can be applied only through connecting piping on the ground without a high-altitude operation. There is also an effect that can be used without incurring a large cost even if it occurs.

In addition, the waste ozone water can be reused without being discarded, thereby reducing the cost of disposing the waste ozonated water and preventing environmental pollution caused by the waste ozonated water.

1 is a side view of a tunnel type ozone cleaning odor removing device according to the present invention.
2 is a plan view of a tunnel type ozone cleaning odor removing device according to the present invention.
FIG. 3 is an enlarged view of nozzles and odor contact agents in the ozonated water spraying part applied to the tunnel ozone cleaning odor removing device according to the present invention. FIG.
4 is an illustration of an odor contact agent applied to a tunnel ozone cleaning odor removing device according to the present invention.
FIG. 5 is another example of a tunnel type ozone cleaning odor removing device according to the present invention. FIG.

As shown in FIGS. 1 and 2, the tunnel type ozone cleaning odor removing apparatus according to the present invention includes a tunnel type deodorization chamber 10 for providing a deodorization space for contaminated air, An ozone water deodorizing unit 20 for forming an ozone water deodorizing atmosphere in the deodorizing chamber 10 by the ozonated water, a malodor contact forming unit 30 installed in the deodorizing chamber 10 for inducing the contact between the ozone water and the contamination source, And the deodorization rate is increased by deodorizing the contamination source in the course of the polluted air flowing in the lateral direction and increasing the contact time between the ozone water and the pollution source by absorbing the ozonated water by the odor contact agent 30, A ventilation fan is used together.

The deodorization chamber 10 includes a chamber body 11 having a box shape in which a deodorizing space is formed and having various shapes such as a cylindrical shape and a hexahedron shape, a swirling guide wall for forming, for example, a meandering channel inside the chamber body 11 .

The chamber body 11 is provided with a contaminated air inlet 12 (hereinafter referred to as "inlet") and a purified air outlet (hereinafter referred to as "outlet") 13.

For example, when the chamber body 11 is of a hexahedral shape, the inlet port 12 and the outlet port 13 are formed in the same direction in the opposite edge portions of the chamber body 11, respectively, in plan view. Of course, the inlet port 12 and the outlet port 13 are not limited thereto.

The swirling guide wall divides the inside of the chamber main body 11 so as to maximize the deodorization rate by lengthening the contact time between the ozonated water and the contamination source in the chamber main body 11. The contaminated air flowing through the inlet port 12 flows into the chamber main body 11 is connected to the inner wall of the chamber main body 11 so as to be discharged through the discharge port 13 after being turned one or more times and the other side of the opposite side is connected to the inner wall on the opposite side of the chamber main body 11 and a certain space For example, first to third turn guide walls 14, 15, 16 are formed.

The first to third pivot guide walls 14, 15 and 16 are arranged between the inlet 12 and the outlet 13 at equal intervals from the inlet 12 to the outlet 13, As shown in Fig.

The first turning guide wall 14 is arranged in line with the wall of the chamber body 11 so that the contaminated air introduced through the inlet 12 flows toward the front side of the inlet 12, The wall 15 is formed so that the contaminated air flowing along the first pivot guide wall 14 flows in the opposite direction again and the third pivot guide wall 16 is formed in the second pivot guide wall 15 and the chamber body 11, So that the contaminated air flowing between the first swirling guide wall 15 and the second swirling guide wall 15 is changed again to flow toward the discharge port 13.

The first to third pivot guide walls 14, 15 and 16 form the air transfer path and the ozone water supply path.

The ozone water deodorization unit 20 supplies ozone water from the ozone water supply unit 21 (the oxygen generator 22, the ozone generator 23, the ozone water tank 24, the pump 25) And an ozone water spraying part 28 for spraying the ozone water into the deodorization chamber 10 to deodorize contaminants by the ozone water.

The ozone water supply unit 21 generates oxygen and ozone through the oxygen generator 22 and the ozone generator 23 and mixes the oxygen and the ozone in the ozone water tank 24 to generate and store the ozone water, And supplies the ozonated water to the pump 25 and supplies the ozonated water.

The ozone water spraying section 28 is installed inside the chamber body 11 and is connected to the pump 25 to supply ozone water to the ozone water supply pipe 26 and the ozone water supply pipe 26 at equal intervals, And an injection nozzle 27 for spraying ozone water from the inside of the odor contact agent 30 toward the outside.

The ozone water supply pipe 26 is installed on the ceiling portion of the chamber body 11 through a hanger and an anchor.

The injection nozzle 27 injects ozone water from the inside of the odor contact agent 30 to the outside so that the ozone water adheres to the surface of the odor contact agent 30 and is sprayed into the deodorization chamber 10, 10) and the odor contact agent (30) are formed in a deodorizing atmosphere.

The spray nozzle 27 is preferably used together with the spray tube 31 described later.

The odor contact agent 30 is disposed so as to interfere with the flow of air in the air transfer path of the chamber body 11 so that direct contact between the air and the ozonated water is achieved, thereby maximizing the deodorizing effect. For example, (Such as a plate, a rod, a tubular shape, or a threaded shape) for guiding the hanger frame to the hanger frame provided on the ceiling portion of the chamber body 11.

The odor contact agent 30 has a structure in which a space is formed therein or an injection tube 31 is inserted therein so as to inject ozone water therein. For example, a plurality of plate-like contact wings are radially arranged around the injection tube 31 (A hub in which a plurality of plate-shaped contact blades are inserted into the center of the spray tube 31, see the upper drawing of FIG. 4), a brush type A shape in which the threads are arranged in a row, a shape in which threads are tangled) (see the lower drawing in Fig. 4), a coil shape in which a brush is inserted, and the like.

The spray tube 31 is integrally formed with the nozzle in such a manner that the spray tube 31 is integrally formed with the odor contact agent 30 as a tubular (preferably flexible tube) having a plurality of spray holes at its periphery and the upper part is connected to the nozzle Both of which are inserted and fixed in the inside of the malodor contact agent 30 are possible.

The odor contact agent 30 may be an absorbent material such as a fabric, a synthetic resin, etc., which has ozone water for a long time.

Structurally, the odor contact agent 30 may have a surface irregular shape so that the ozonated water flows slowly, or may be a porous structure filled with ozone water and circulating air.

The malodor removing function by the tunnel ozone washing odor removing device according to the present invention is as follows.

The ozonated water deodorization unit 20 generates and supplies ozonated water through the ozonated water supply unit 21 and injects the ozonated water through the ozonated water injection unit 28.

The ozone water is injected into the deodorization chamber 10 to form a deodorizing atmosphere in the deodorization chamber 10 and the odor elimination agent 30 is sprayed on the deodorization agent 30 to have the ozonated water.

Thus, the deodorization chamber 10 is formed into a deodorizing atmosphere, thereby preparing a deodorizing function.

The contaminated air is introduced into the deodorization chamber (10) through the inlet (12) of the deodorization chamber (10) by the blower.

The contaminated air flows through the inlet 12 and then flows into the first path between the one side wall of the chamber body 11 and the first turning guide wall 14 and the first turning guide wall 14 and the second turning guide wall A third path between the second turning guide wall 15 and the third turning guide wall 16 and a third path between the third turning guide wall 16 and the other side wall of the chamber body 11, 4 path and then discharged through the discharge port 13.

In this process, the contaminated air comes into contact with the ozone water in the deodorization chamber 10, and the contamination source is removed. In addition, the polluted air is restrained by the odor eliminating agent 30 and flows while coming into contact with the odor eliminating agent 30. At this time, the odor eliminating agent 30 comes into contact with the ozone water to remove the contamination source.

The ozone water generated by the ozone water supply unit 21 has been described so far. However, in the process of removing the odor by the ozone water, the waste ozone water from which odor is removed is collected and collected in the deodorization chamber 10, In view of this, it is also a technical feature of the present invention to use regenerated ozone water.

5, the deodorization chamber 10 has a structure in which the second swivel guide wall 15, which is the center swiveling guide wall in the swiveling guide wall, (The flow from the inlet 12 to the second orifice guide wall 15) and the second purification zone (the flow from the second orifice guide wall 15 to the outlet 13) . Of course, the first purifying zone and the second purifying zone are structured to communicate with each other so that air passing through the first purifying zone flows through the second purifying zone (a structure communicated by the second turning guide wall 15) (40).

The first purifying zone purifies contaminant air having a high contamination concentration flowing through the inlet 12 and is configured to inject clean ozone water supplied from the ozonated water supply unit 21, Since the pollution source is firstly purified through the purge zone, it is configured to inject the regenerated ozone water that has been washed with the waste ozonated water.

The waste ozonated water regeneration unit 40 includes a waste ozonated water recovery pipe 41 that is piped to the bottom of the deodorization chamber 10 to recover waste ozonated water and a cleaned ozonated water recovery unit that cleans the waste ozonated water recovered through the waste ozonated water recovery pipe 41, A regenerated ozone water pump 43 for pumping regenerated ozone water pumped through the cleaning section 42, a regenerated ozone water supply pipe 44 for supplying regenerated ozone water pumped through the regenerated ozone water pump 43, And a regenerated ozone water injection nozzle 45 installed in the regenerating unit 44 for supplying and discharging regenerated ozone water.

The waste ozone water recovery pipe 41 is buried in the bottom of the first purification zone (which can also include a second purification zone because the waste ozone water generated in the second purification zone can also be regenerated) and is generated in the first purification zone And collects the waste ozone water and supplies it to the cleaning section 42.

The cleaning section 42 is for cleaning, for example, by lowering the contamination concentration of the waste ozonated water through the mixing of water (such as water), for example, storing the waste ozonated water in the cleaning tank from the waste ozonated water recovery pipe 41, Water is supplied to induce mixing of the waste ozone water and water to clean the waste ozonated water. At this time, the mixing ratio of the waste ozonated water and water may vary depending on the contamination concentration, and may be, for example, 60 to 75% by volume of waste ozonated water and 25 to 40% by volume of water, based on 100% by volume of recycled ozonated water. Here, it is also possible to supply water separately to the waste ozonated water recovered from the waste ozonated water recovery pipe 41, or to dispose a part (about 30% by volume) of the waste ozonated water recovered from the waste ozonated water recovery pipe 41 It is also possible to wash the corresponding amount of water and wash it.

The regenerated ozone water pump 43 pumps the waste ozone water, which has been cleaned through the cleaning section 42, to the regenerated ozone water supply pipe 44.

The regenerated ozone water supply pipe 44 is piped to the ceiling portion of the second purification zone.

The regenerated ozone water injection nozzle 45 receives and supplies the regenerated ozone water from the regenerated ozone water supply pipe 44.

The above-described odor contact agent is applied to the regenerated ozone water injection nozzle 45 as well.

In the first purification zone, the ozone water supply unit 21 and the ozone water injection unit 28 are constructed in the same manner.

Of course, the ozone water supply unit 21 and the ozone water injection unit 28 of the first purification zone and the waste ozone water regeneration unit 40 of the second purification zone are configured to share a configuration that can be shared.

According to the present embodiment, the first purification zone supplies ozone water through the ozone water supply section 21 and the ozone water deodorization section 20 of the ozone water injection section 28 to create a deodorization atmosphere.

On the other hand, the second purifying zone is supplied with regenerated ozone water regenerating the waste ozonated water generated in the first purifying zone (including the second purifying zone because the waste ozonated water generated in the second purifying zone can also be regenerated) do.

The odor is removed while passing through the first purifying zone, and the primary purifying air that has been purified through the first purifying zone passes through the second purifying zone, .

As described above, the present invention can be applied to two or more (new construction, expansion) as transverse flow (horizontal type) purification of polluted air. For example, the deodorization chambers 10 are arranged side by side, It is possible to use two or more by connecting the outlet 13 and the inlet 12 of the rear deodorization chamber 10 by connecting piping. Of course, it is also possible to stack two or more deodorization chambers 10 up and down. Even when the deodorization chambers 10 are stacked vertically, the deodorization chamber 10 is of a transverse flow type, so that the height of the deodorization chamber 10 is much lower than that of the vertical deodorization tower of the conventional vertical deodorization tower.

10: deodorization chamber, 11: chamber body
12: contaminated air inlet, 13: purified air outlet
14, 15, 16: a turning guide wall, 20: an ozonated water deodorizing section
21: ozone water supply part, 28: ozone water jetting part
30: odor contact agent, 40: waste ozone water regeneration section

Claims (5)

A chamber main body provided with a contaminated air inlet and a purified air outlet, the contaminated air flowing through the contaminated air inlet port being rotated at least once through the chamber body, and then being discharged through the purified air outlet, A deodorization chamber (10) formed of at least one orbiting guide wall spaced apart from the inner wall on the opposite side of the chamber body and connected to the opposite side of the chamber body to provide a space for removing odors while flowing in a lateral direction;
An ozone water deodorization unit 20 composed of an ozone water supply unit and an ozone water injection unit for injecting ozone water supplied from the ozone water supply unit into the deodorization chamber to deodorize contaminants by ozonated water;
The ozone water sprayed through the ozone water spraying portion of the ozone water deodorization portion is sprayed from the inside to the outside so as to induce the contact between the ozone water and the contaminated air on the surface, (30) that lengthens the contact time of the contaminated air to improve the deodorization rate,
The ozone water deodorization unit 20 includes an ozone water supply unit 21 for generating and supplying ozonated water, an ozone water supply unit 21 for injecting ozone water supplied from the ozone water supply unit 21 into the deodorization chamber 10, (28)
The ozone water supply unit 21 generates oxygen and ozone through the oxygen generator 22 and the ozone generator 23 and mixes the oxygen and the ozone in the ozone water tank 24 to generate and store the ozonated water, Pumped and supplied to the pump 25,
The ozone water spraying unit 28 is disposed inside the chamber body and is connected to the pump 25 to supply ozone water. The ozone water spraying unit 28 is installed at equal intervals in the ozone water supply pipe 26, And an injection nozzle (27) for spraying ozone water from the inside of the odor contact agent (30) toward the outside,
The odor contact agent is a structure having a plurality of contact wings having a plate shape, a rod shape, a tubular shape, or an elongated shape. The injection hole is integrally formed with a spray tube (31) for spraying ozone water sprayed from the spray nozzle of the ozonated water deodorization part. The ozonated water deodorization apparatus according to claim 1, wherein the plurality of contact blades are formed in a radial shape, wherein the plurality of contact blades are formed in a radial shape,
The deodorization chamber may include a first purifying zone for deodorizing the contaminated air flowing through the contaminated air inlet through the ozone water in the ozone deodorization unit and the odor contact unit and a waste ozonated water generated in the first purification zone through the waste ozonated water recovery unit. And a second purifying zone for purifying the first purified air having passed through the first purifying zone together with the odor contact agent and discharging the purified air to the outlet. delete The ozonated water recovery unit according to claim 1, wherein the waste ozonated water regeneration unit comprises: a waste ozonated water recovery pipe (41) for recovering waste ozonated water collected in the deodorization chamber and piped to the bottom of the deodorization chamber; A regenerating ozone water pump 43 for purging the regenerated ozone water cleaned through the cleaning section, a regenerating ozone water pumped to the second purification zone and pumped through the regenerating ozone water pump 43, A regenerated ozone water supply pipe (44) for supplying the regenerated ozone water, and a regenerated ozone water injection nozzle (45) provided in the regenerated ozone water supply pipe for supplying the regenerated ozone water to the regenerated ozone water injection nozzle (45). delete [5] The ozone deodorizing apparatus according to claim 3, wherein at least two deodorization chambers are connected and used, and a neighboring deodorization chamber is used by connecting a contaminated air inlet port of one deodorization chamber and a purified air outlet port of the other chamber, Removal device.

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