KR101768007B1 - Treatment apparatus and method for offensive gas - Google Patents

Abstract

The present invention relates to a malodorous gas treatment apparatus and a treatment method using the same, and more particularly, to a gas odorous gas treatment apparatus and a treatment method using the same, which comprises: a gas phase oxidation unit for introducing ozone gas into the air containing odorous gas to cause gaseous ozone to come into direct contact with the malodorous gas, A liquid phase oxidation unit for contacting the ozone water supplied to the upper part of the cleaning tower with the ozone water containing ozone dissolved therein and the primary treated odor gas containing air supplied to the lower part of the cleaning tower to wash or oxidize the malodor gas with water; And a cleansing water ozone dissolving unit for recovering the ozone by dissolving the odorous substance dissolved in the ozone gas.
In addition, in the pretreatment process of washing particulate pollutants such as floating substances in the housing, ammonia, which is easily soluble in water, is dissolved in the washing water and hydrogen sulfide which is an acidic odor substance is removed together with dust. It is possible to increase the efficiency and reduce the amount of ozone consumption to improve the economical efficiency.

Description

TECHNICAL FIELD [0001] The present invention relates to a malodorous gas treatment apparatus,

The present invention relates to a malodorous gas treatment apparatus, and more particularly, to a malodorous gas treatment apparatus which is more economical than a conventional malodor reduction facility, such as a chemical solution cleaning, an activated carbon adsorption, a combustion method, an electric dust collection method, The present invention relates to a malodorous gas treatment device that can be used not only to improve efficiency but also to remove odors in daily living and industrial complexes.

In general, the frequency of complaints is increasing due to the increase in livestock facilities and proximity to population densely populated areas due to codification. In addition, the poor environment of the livestock facility has caused the increase of complaints about the decrease of the comfort of the residents and the decrease of the land price.

Conventionally, as a malodorous gas treatment method, a combustion method, an absorption method, an adsorption method, and a biological deodorization method can be used. As a most widely used method, there is a method of removing odor in a house using a photocatalyst and a method using ozone gas, There was a weak point.

Korean Patent Registration No. 0930987 discloses a method for treating odorous gases in combination with ozone and chemical liquid cleaning and deodorizing. This method of cleaning and adsorbing the ozone gas to the second stage of treating the ozone gas with a malodorous gas by injecting the ozone gas together with the malodorous gas and performing the first treatment using the adsorbent is economical because the expensive chemical liquid cleaning and adsorption method is used There were disadvantages.

Korean Patent No. 10-1235015 discloses a method of treating a VOC using a honeycomb adsorption element and ozone. After the dry oxidation process in which the ozone gas and the odor substance are adsorbed to the adsorbent and oxidized by ozone, the ozone of the dry oxidation process is applied to the cleaning lower water of the wet oxidation process as a micropore and is applied to the cleaning and oxidation process by ozone water There is a disadvantage that the adsorbent needs to be replaced frequently and the catalyst is sensitive to moisture or expensive, resulting in poor economical efficiency.

Korean Patent No. 10-1147702 discloses a method for reusing ozone gas in a washing tower after wet oxidation cleaning treatment with odor gas as ozone water. However, since ozone is dissolved in the washing water as a whole, The wet oxidation efficiency is low.

In addition, the above-described methods for removing odor by using ozone are a method of directly injecting a small amount of ozone into the housing, and the concentration of ozone in the housing is maintained at 0.001 to 0.100 ppm to oxidize the odorous substances. There is a problem in that the amount of ozone can not be increased because it is exposed to ozone.

Korean Patent Registration No. 10-0930987 (2009.12.07). Korean Patent Registration No. 10-1235015 (2013.02.14). Korean Patent Registration No. 10-1147702 (2012.05.14). Korean Patent Registration No. 10-0858355 (2008.09.05).

The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a malodor gas processing apparatus capable of operating at a low cost with high efficiency in consideration of the reality of a livestock farming farm, And a method for processing the same.

1. An object of the present invention is to provide a gas-phase oxidizing unit, in which ozone gas is injected into a malodorous gas containing a malodorous substance so that the gas-phase ozone is in direct contact with the malodorous gas containing the malodorous substance, A liquid phase oxidizing unit for bringing the ozone water supplied to the upper part of the washing tower and the odor gas containing the primary treated odor substances supplied to the lower part of the washing tower into contact with the ozone water dissolved therein to cause the odor gas to be cleaned or oxidized with water; And a rinse water ozone dissolving unit for dissolving the ozone by regenerating the rinse liquid after the rinse is dissolved and the odorous substance dissolved therein is treated with ozone gas.

And the neutralization unit neutralizes the washing water in order to prevent the removal efficiency from being lowered due to the dissolution of odorous substances and the acidity change of the washing water due to oxidation.

And a mist eliminator for passing a droplet removing device for removing droplets scattered in the air discharged to the upper part of the cleaning tower.

The ozone-dissolving unit includes a washing tower having an inlet at an upper portion and an outlet at a lower portion. Ozone and water are introduced into the upper inlet, so that light ozone is collected from the upper portion of the washing tower to the lower outlet, And water is injected from the washing tower inlet and discharged into the lower outlet of the washing tower while being in contact with the gas in the gas layer collected in the upper space of the gas reaction apparatus.

And an ultraviolet lamp is inserted into the vapor-phase oxidizing part.

An internal circulation device for supplying the washing water discharged to the lower part of the washing tower to the top of the washing tower is provided, and an ultraviolet lamp is inserted into the internal circulation device.

And a pretreatment unit provided at a previous stage of the gas-phase oxidizing unit, for removing dust mixed with the malodorous gas by washing with water while passing the malodorous gas.

The pretreatment unit is characterized in that ammonia in the odorous substance is dissolved in water to change the washing water to alkaline, and the malodorous substances such as mercaptan, hydrogen sulfide and the like which are acidic and odorous substances are removed by the alkaline washing water.

Wherein the pretreatment unit has a space formed therein, an outlet formed at an upper portion thereof, and a malodorous gas inlet formed at an upper portion of the pretreatment unit; A washing water supply pipe connected to an upper portion of the reaction tank; And a blowing fan connected to the odor gas inlet.

2. On the other hand, an object of the present invention is to provide a process for gas phase oxidation, in which ozone gas is introduced into a malodorous gas containing a malodorous substance so that the gas ozone comes into direct contact with the malodorous gas and oxidizes and decomposes the malodorous substance. The ozone water is supplied to the upper part of the washing tower and the odorous gas containing the primary treated odor material is supplied to the lower part of the washing tower to bring the ozone water into contact with the dissolved ozone water, fair; And a third step of causing the washing water to dissolve ozone and to dissolve ozone, and then to discharge the washed air to an upper portion, characterized by comprising a third step of treating the cleaning liquid, which has been cleaned and dissolved with the ozone gas, ≪ / RTI >

Wherein the odorous substance is dissolved in water to change the cleansing water to alkaline, and the odorous substance is dissolved in water to remove the odorous substance, Characterized by further comprising a pretreatment step in which acidic hydrogen sulfide or mercaptan is removed by alkaline cleaning water.

Between the second step and the third step, washing water having a long reaction time with dissolved ozone and malodorous gas in the lower part of the washing tower and having a low ozone concentration is supplied to the top of the washing tower, And an unreacted ozone cleaning step of washing and removing unreacted odor gas and ozone gas by passing the unreacted ozone gas through the reactor.

A filtration step of passing a filtration device installed in the washing water pipe between the second step and the third step so as to prevent the solid matter introduced together with the odorous gas from being concentrated in the washing water; .

And a neutralizing step of neutralizing the washing water between the second step and the third step in order to prevent the acid gas removal efficiency from being lowered due to the by-product due to oxidation of the malodorous gas.

And a mist removing step of passing the droplet removing device for removing droplets scattered in the air discharged to the upper part of the cleaning tower after the third step.

And the ozone water flowing into the second step is generated by passing through the gas trapping type gas reaction apparatus.

According to the present invention, since odorous gas containing odorous substances is sucked from an offensive odor discharge facility such as a housing and treated by ozone in an external treatment facility, ozone is not injected into the odor discharge facility, The oxidizing agent cleaning method, in which the risk of exposure is low and the odor gas containing the odorous substance is oxidized directly by the gas phase reaction to the ozone and the ozone is oxidized and decomposed by the dissolved ozone in the washing tower using the ozone water as the washing water, So that the treatment efficiency is high.

In addition, in the pretreatment process for removing particulate pollutants such as suspended solids contained in odor gas containing odorous substances, ammonia, which is an odor substance, is dissolved in washing water, and ammonia dissolved in washing water is hydrogen sulfide, Mercaptans, and the like, so that the odorous substances can be removed by the interaction between the malodor materials, and the maintenance cost is low, which makes it possible to operate the high-efficiency and low-cost operation economically.

FIG. 1 is a perspective view illustrating an odor gas treating apparatus according to an embodiment of the present invention. FIG.
FIG. 2 is a flowchart illustrating a malodorous gas treatment method according to an embodiment of the present invention;
3 is a process diagram showing odor gas treatment according to an embodiment of the present invention,
4 is a process diagram showing odor gas treatment according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It does not mean anything.

In addition, the sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms defined specifically in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user, operator It should be noted that the definitions of these terms should be made on the basis of the contents throughout this specification.

FIG. 1 is a perspective view of a malodorous gas treatment system according to an embodiment of the present invention, FIG. 2 is a flowchart showing a malodorous gas treatment method according to an embodiment of the present invention, and FIG. FIG. 4 is a process diagram showing odor gas treatment according to another embodiment of the present invention. FIG.

As shown in FIG. 1, the malodor gas processing apparatus according to an embodiment of the present invention is configured to remove dust mixed with a malodorous material by flushing the malodorous gas containing the malodorous substance while passing the same, The pretreatment unit 3 removes the dissolved ammonia by dissolving it in the washing liquid to a saturated concentration, and the washing liquid in which the ammonia is dissolved is changed to alkaline and reacted with mercaptans, hydrogen sulfide and the like which are acidic substances. A gas phase oxidizing unit (101) for injecting ozone gas into a malodorous gas containing a malodorous substance to cause the gaseous ozone to come into direct contact with the malodorous gas to oxidize and decompose the odorous substance; The ozone water supplied to the upper part of the washing tower 102 and the odor gas containing the primary treated odor substances supplied to the lower part of the washing tower 102 are contacted with the ozone water dissolved in ozone, A liquid phase oxidation part 200 for cleaning or oxidizing with water; And a cleansing water ozone dissolving unit 300 for cleansing the cleansing solution after the cleansing and dissolving the odorous substance with ozone gas to regenerate and dissolve the ozone.

The pretreatment unit (3) includes a reaction tank (32) having a space formed therein, an outlet formed at an upper portion thereof, and an odor gas inlet formed at an upper portion of the pretreatment unit (3). A washing water supply pipe 34 connected to the upper part of the reaction tank 32; A blowing fan (36) connected to the odor gas inlet; And a circulation pump (not shown) for continuously circulating the water in the lower part of the reaction tank 32 by raising the water upward. And a filtering device for removing particulate matter such as dust removed by washing water.

The function of the preprocessing unit 3 will now be described in detail.

The dust contained in the incoming odor substance and the ammonia which is easily dissolved in water are washed by the washing water sprayed from the top of the pretreating tank and returned to the washing water storage tank to the bottom while the washing water of the storage tank is melted It becomes gradually alkaline.

The alkaline ammonia water washing water thus generated is filtered to remove dust, and the thus-sent ammonia water is sent to the upper portion continuously, and then dropped to the lower portion, and the malodorous gas containing the malodorous substance is passed therethrough.

In the process of passing ammonia water, acidic mercaptan, hydrogen sulfide, etc. are removed by reaction with ammonia water.

Therefore, in the pretreatment section, the odorous substances are removed by the reaction between the odorous substances in the process of removing the dust that affects the efficiency of the downstream gas phase and liquid phase oxidation reaction system. Thus, by using the alkaline cleaning method without ozone or basic substance, Mercaptans, and hydrogen sulfide.

The gas-phase oxidizing unit 101 is supplied with ozone gas into one side of the reaction tank and the ozone gas is introduced into the other side of the reaction tank, whereby the odor gas containing odorous substances is decomposed by contact with ozone gas.

Here, when a high concentration ozone gas is used, an advanced oxidation reactor (not shown) is provided.

The liquid oxidation unit 200 includes a cleaning tower 102, an ozone water supply pipe 202 connected to the upper part of one side of the cleaning tower 102 to supply ozonated water, And an odor gas supply pipe 204 to which odor gas is supplied.

In addition, an ozone water supply nozzle 203 is formed in the washing tower 102 in multiple stages.

Accordingly, odor gas containing ozone water and odorous substances reacts in the washing tower 102 to absorb and remove odorous substances.

That is, odor substances such as ammonia, hydrogen sulfide, and mercaptan react with ozone water to be adsorbed and removed.

A replenishing water tank 105 is connected to one side of the washing tower 102, and replenishing water is supplied to the washing tower 102.

The cleaning water ozone dissolution section 300 includes an ozone dissolution apparatus 103 for dissolving ozone gas in water and supplies ozone and cleaning water to the upper part of the ozone dissolution apparatus 103 to collect ozone in a dissolution apparatus, Lt; / RTI >

The washing water discharged to the lower part of the ozone dissolving unit 103 and supplied to the upper part of the washing tower 102 is circulated to the upper part of the ozone dissolving unit 103 to oxidize the dissolved odor substances.

After the cleaning is finished, the cleaning liquid in which odor substances are dissolved is treated with ozone gas to regenerate and dissolve ozone.

The washing water is neutralized between the liquid oxidizing unit 200 and the washing water ozone dissolving unit 300 in order to prevent the removal efficiency of the acid gas due to the oxidation of odorous gas containing odorous substances due to oxidation The neutralization part 400 is formed.

The neutralizing unit 400 adjusts the pH to prevent acidification of the washing water.

And a mist removing unit 205 for passing a droplet removing device for removing droplets scattered in air discharged to the upper part of the washing tower 102.

On the other hand, the liquid oxidation unit 200 includes a washing tower 102 having an inlet at an upper portion and an outlet at a lower portion. The ozone and water are introduced into the upper inlet by a pressure pump at a pressure of 1 to 15 atmospheric pressure, The water is collected in the upper part of the washing tower 102 and is discharged to the outlet, and water is sprayed from the inlet of the washing tower 102, and the gas is collected in the space above the washing tower 102 And is discharged into the lower outlet of the washing tower (102) while being in contact with the gas.

Meanwhile, the liquid oxidation unit includes a washing tower 102 having an inlet at an upper portion and an outlet at a lower portion. The ozone and the washing liquid are introduced into the upper inlet at a pressure of 1 to 15 atmospheric pressure by a pressure pump, The washing liquid is injected from the inlet of the washing tower 102 and is brought into contact with the gas in the gas layer collected in the upper space of the gas reaction apparatus 102, Is discharged to a lower outlet of the gas-liquid separator (102).

An ultraviolet lamp (not shown) is inserted into the vapor-phase oxidizing unit 101.

An internal circulation device is provided before the internal circulation gas discharged to the lower part of the cleaning tower 102 of the liquid oxidation unit 200 is supplied to the upper part of the cleaning tower 102 and the ultraviolet lamp is inserted into the internal circulation device.

As shown in FIGS. 2 to 4, in the method for treating odor gas according to an embodiment of the present invention, ozone gas is injected into the odor gas containing odor substances as a first step so that the gas ozone is in direct contact with the odor substance (Step S101) for oxidizing and decomposing odorous substances, and secondly, the ozone water supplied to the upper part of the gas scrubber and the odorous gas containing the primary treated odor substances supplied to the lower part of the scrubber are contacted with ozone water dissolved in ozone, (S103), and a cleaning water ozone dissolution step (S105) in which ozone is dissolved by recycling the cleaning liquid, which has been cleaned and dissolved with odor substances, by ozone gas to dissolve ozone. Among the three steps, the following steps may be additionally provided between the two-stage liquid phase oxidation step (S103) and the three-step washing water ozone dissolution step (S105).

Further, the unreacted ozone cleaning step (S104-1), the filtration step (S104-2), and the neutralization step (S104-3) may be additionally provided between the two-step process and the three-step process.

In the unreacted ozone cleaning step (S104-1), a part of the ozone water discharged to the lower part of the ozone dissolution apparatus is passed through a photoreactor equipped with an ultraviolet lamp, so that the oxidation reaction proceeds to remove the odor substances and dissolved ozone in the washing water. Cleaning water supplied to the upper part of the washing tower 102 and the washing water collected in the lower part of the washing tower due to the exhaustion of ozone during the washing process is passed through the photoreactor having the ultraviolet lamp inserted therein, And is supplied to the top of the washing tower 102 to wash and remove unreacted odorous substances and ozone gas.

The filtration step (S104-2) is to pass the filtration device provided in the washing water pipe to prevent the solid matter introduced together with the odorous substance from being concentrated in the washing water.

The neutralization step (S104-3) neutralizes the washing water in order to prevent the removal efficiency of the odorous substances from falling according to the change of the pH of the washing water.

Here, an ultraviolet lamp may be inserted into the vapor-phase reaction apparatus for the one-step gas-phase oxidation step (S101).

After the first to third steps, a mist removing step (S107) may be added to pass the droplet removing device capable of minimizing droplets scattered in the air discharged to the upper part of the washing tower 102.

According to the present invention, in the three-stage cleaning water ozone dissolution step (S105) in which gaseous ozone is introduced to regenerate the cleaning liquid while producing ozone water, the unreacted ozone discarded after use is used in the one-step gas phase oxidation step (S101) The use efficiency of ozone having a high production cost can be increased.

Further, in the three-stage cleaning water ozone dissolution step (S105) in which ozone water is produced while regenerating the cleaning solution, ozone gas introduced into the ozone dissolution step is introduced into the upper part of the ozone dissolution apparatus together with water, Since the ozone gas injected into the dissolving apparatus is light and can be repeatedly contacted with the washing liquid sprayed from the top of the dissolving apparatus until it is discharged from the top of the dissolving apparatus and discharged to the bottom outlet, relatively high concentration ozone water is produced, The efficiency of the two-stage liquid phase oxidation process (S103) and the three-stage cleaning water ozone dissolution process (S105) can be maximized.

Since the ozone gas is trapped in the dissolution apparatus and dissolved in contact with water, the ozone gas can be produced at a saturated concentration at a temperature and a concentration, and ozone can be supplied at a higher concentration. Therefore, there is a remarkable effect that the ozonated water can be produced at a high concentration. In addition, since ozone is dissolved only by the washing water introduced into the washing tower 102, there is no loss due to natural decomposition and the ozone gas dissolving process and the washing water washing process can be performed simultaneously, which simplifies the process. Also, since the washing water can be refluxed to adjust the washing water purification degree, it is easy to apply the high oxidation reaction.

An ultraviolet lamp may be inserted into the vapor-phase reaction apparatus for the one-step gas-phase oxidation step (S101). Thus, odorous gas containing odorous substances can be decomposed by a high-level oxidation reaction in which ozone in the gas-phase reaction apparatus reacts with ultraviolet lamps to generate OH radicals.

Further, the ultraviolet lamp may be inserted into the internal circulation device before the washing water discharged to the lower part of the washing tower 102 through the two steps is supplied to the upper part of the washing tower 102. Through this, odor gas can be decomposed by the high oxidation reaction in which OH radicals are generated by ultraviolet ray reaction with ozone in the inner circulation path.

In the present invention, the ozonated water is introduced into the liquid phase oxidation process by preparing a high concentration of ozonated water using a gas trapping type gas reaction device, thereby increasing the efficiency of the oxidation process and reusing unreacted ozone as described above The use efficiency of the ozone can be maximized and the volume of the ozone dissolving apparatus can be drastically reduced, so that the maintenance can be easily performed and the installation cost can be reduced.

Here, the gas trapping type gas reaction apparatus is a tower type gas reaction apparatus having an inlet at an upper portion and an outlet at a lower portion. When ozone and water are introduced into an upper inlet by a pressurizing pump, And then discharged to the outflow port. Water is injected from the inlet of the gas reaction apparatus and is discharged to the lower outlet of the apparatus while being in contact with the ozone gas in the gas layer collected in the upper space of the gas reaction apparatus Device.

In addition, since hydrogen sulfide, which is an acidic odor substance, has high acidity of washing water to neutral or alkaline, and absorption efficiency is high and ammonia and the like have a low water absorption rate in alkaline, odorous substances such as hydrogen sulfide are used in acidic washing water, Can be prevented. However, the present invention includes a neutralization process for neutralizing the washing water, thereby preventing the deterioration of the removal efficiency of the acidic and alkaline odor substances.

As an example of the filtration process step, an automatic backwash filter, for example, a filter made of sand, may be installed in the cleaning water of the laminating process or the piping supplied to the ozonated water production process in order to prevent the concentration of particulate pollutants.

Further, a washing step for suppressing the discharge of ozone gas to the upper part of the washing tower 102 can be added.

Since the entire system as described above can be automatically operated, the operation and management can be facilitated. Simultaneous treatment in the gas phase and the liquid phase can improve the treatment efficiency of the odorous substance, reduce the ozone consumption amount and water use amount, .

Accordingly, the method for treating malodorous substances in the malodorous gas containing the malodorous substance of the present invention is a hybrid cleaning method using ozone water in which gaseous ozone and ozone are dissolved as an oxidizing agent, and is a method of directly oxidizing odorous substances by ozone gas And the ozone water is supplied to the washing tower 102 to dissolve or remove the odorous substance from the inside of the washing tower 102 or to remove the odorous substance by the oxidant washing method in which the dissolved ozone is oxidized or decomposed. Basically, a total of three steps are performed to treat the odorous substances, and by this method, the treatment efficiency can be increased and the process can be simplified.

In addition, the present invention basically consists of three stages. In step 1, the unreacted waste gas ozone generated in the ozonated water producing apparatus is brought into contact with a malodorous gas containing a malodorous substance to directly oxidize the malodorous substance, In step 2, the malodorous gas containing the malodorous substance, which has been subjected to the primary treatment, is injected into the lower part of the gas-liquid cleaning apparatus, and the ozonated water is sprayed on the upper part to come into contact with the ozonated water to dissolve the odorous substance in water or decompose it by ozone And the third step is a step of producing ozone water while purifying contaminated cleaning liquid by contact with the odor-containing air in the gas scrubber using ozone gas supplied from the ozone generator. The ozone, which is an oxidizing agent, It is not a method of directly injecting into the place where the odor is generated, Because the mouth because there is no way to handle the external risk of livestock or worker exposure to ozone processing to double the ozone gas and ozonated liquid is high treatment efficiency.

In addition, the present invention can further reduce the amount of water used by increasing the regeneration efficiency of the cleaning liquid by introducing an additional step with an acidity control system and a filtration system. In addition, the present invention can simplify the configuration so that it can be directly used by an operator.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

101; A gas phase reaction tank 102; Washing tower
103; Ozonated water production facility 104; ozone
105; Replenishing water tank S101; Gas phase oxidation process
S103; Liquid phase oxidation step S104; Oxidative decomposition process
S104-1; Unreacted ozone cleaning step S104-2; Filtration process
S104-3; Neutralization step S105; Cleaning water ozone dissolution process
S107; Mist removal process step

Claims (9)

A gas phase oxidizing unit for introducing ozone gas into a malodorous gas containing a malodorous substance to cause the gaseous ozone to come into direct contact with the malodorous gas to oxidize and decompose the odorous substance;
A liquid phase oxidation unit for contacting the ozone water supplied to the upper part of the washing tower with the ozone water containing ozone dissolved therein and the odor gas containing the primary treated odor substances supplied to the lower part of the washing tower to wash or oxidize the odor substances with water;
And a cleaning water ozone dissolving unit for recovering the ozone by dissolving the cleaning liquid dissolved in the odorous substance after the cleaning,
And a pretreatment section which is provided at a previous stage of the gas-phase oxidizing section and which is washed with water while passing odorous substances therethrough,
The pre-
A reaction chamber in which a space is formed inside and an outlet is formed at an upper portion and a malodor material inlet is formed at one side;
A washing water supply pipe connected to an upper portion of the reaction tank;
A blowing fan connected to the odor gas inlet; And
A circulation pump for continuously circulating the water in the lower part of the reaction tank upwards;
And a filtering device for removing dust contained in the washing water,
The ammonia contained in the air containing odorous substances is dissolved in the washing water to become ammonia water, and the washing water becomes alkaline,
And the acidic odor substance in the odor substance is removed by the alkaline cleansing water. delete The method according to claim 1,
And a neutralizing unit for neutralizing the washing water to prevent the removal efficiency of the odorous substance from being lowered by the change of the washing water acidity circulating through the liquid oxidizing unit. The method according to claim 1,
The ozone dissolution part
The ozone is collected from the upper part of the washing tower to be filled up to the lower outlet, and then discharged to the outlet, and the water is discharged from the upper outlet through the outlet, And a gas collecting type gas reaction device which is injected from a washing tower inlet and discharged into a lower outlet of the washing tower while being in contact with ozone gas collected in the upper space of the washing tower. The method according to claim 1,
Characterized in that an ultraviolet lamp is inserted into the gas-phase oxidizing unit The method according to claim 1,
Wherein the cleaning water supplied to the uppermost part of the cleaning tower is one of ozone water discharged to the lower part of the ozone dissolution apparatus or cleaning water discharged to the lower part of the cleaning tower and is supplied through a photoreactor equipped with an ultraviolet lamp Device.
A first step of introducing ozone gas into a malodorous gas containing a malodorous substance to cause gas-phase ozone to be in direct contact with the malodorous gas to oxidize and decompose the malodorous substance;
The ozone water is supplied to the upper part of the washing tower and the odor gas containing the primary treated odorous substance is supplied to the lower part of the washing tower to bring the ozone water into contact with the dissolved ozone water so that the odor gas is washed or oxidized with water, A second step of discharging to the upper part;
And a third step of treating ozone gas to dissolve ozone in the rinsing water after the rinsing has been completed,
In the previous step, the air containing odor substances and dust is washed with water to absorb and remove ammonia, which is well dissolved in dust and water, and the cleansing water in which ammonia is dissolved becomes alkaline, thereby reacting with acidic odor substances in the odor substances And removing the dust from the washing water by the filtration device. delete 8. The method of claim 7,
Before supplying either the ozone water or the washing water discharged from the lower part of the washing tower to the upper part of the washing tower, the ozone and ultraviolet rays are passed through a photoreactor equipped with an ultraviolet lamp to remove dissolved ozone and odorous substances And an unreacted ozone cleaning step of cleaning and removing unreacted odor substances and ozone gas.

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