KR101002425B1 - Gyratory complex deodorization system - Google Patents

Abstract

PURPOSE: A gyratory complex deodorization system is provided, which can maximize deodorization rate and deodorization efficiency and reuse washing solution. CONSTITUTION: A gyratory complex deodorization system comprises: a deodorization room(10) which is divided into an inner room and an outer room; a bad smell gas inlet which is opened in the upper direction on the floor of the deodorization room; a storage tank(30) storing washing solution; a washing solution supply path(40) piped on the top of the deodorization room; an injection nozzle(45) spraying washing solution; a washing solution exhaust passage(50) in which the washing solution filter is included in the middle portion; and a deodorization gas discharge passage(60).

Description

Gyratory Complex Deodorization System

The present invention relates to a facility configured to remove odors in the air contaminated by harmful gas generated in a sewage treatment plant or an industrial site with a cleaning liquid and an adsorption means, and the cleaning liquid is circulated and reused.

Due to the high industrial development and the increase of production activities and the increase of waste of double products, a large amount of various environmental pollutants are generated. The pollutants generated as described above decay after a certain period of time, and are harmful such as hydrogen sulfide (H ₂ S), methyl disulfide (CH ₃ S ₂ ), methyl mercaptan (CH ₃ SH), and ammonia (NH ₃ ). Odor gas is generated. Odor gas generated as described above is mixed into the air causing respiratory diseases, as well as the housing environment due to the bad smell has emerged as a social problem. Therefore, devices for purifying (deodorizing) contaminated air have been conceived in various forms according to the use, and as a method of removing odor components contained in the air, physicochemical methods such as combustion method, chemical liquid cleaning method and adsorption method and soil Biological methods such as deodorization method and activated sludge method are well known. The present invention also relates to a deodorization facility for removing odors caused by harmful gases generated in sanitary treatment plants, sewage treatment plants, sewage treatment plants.

The present invention can maximize the deodorization rate and deodorization efficiency by performing a sequential deodorization operation in a multiple and complex method, circulating complex deodorization system configured to circulate and reuse the cleaning liquid used for deodorization filtering The purpose is to provide.

The present invention provides a deodorization chamber in which a space surrounded by a floor, an outer wall, and a roof is divided into an inner chamber and an outer chamber by an inner wall; A malodorous gas inflow path opening through the inner chamber bottom of the deodorization chamber in an upward direction; A storage tank located outside of the deodorizing chamber and storing a cleaning liquid having a deodorizing function for odor gas; A cleaning liquid supply passage connected to the storage tank and connected to an upper portion of the deodorization chamber; A plurality of injection nozzles provided in the cleaning liquid supply path for injecting the cleaning liquid into the inner and outer chambers of the deodorizing chamber; A cleaning liquid discharge passage connected to the storage tank and connected to the storage tank so as to extend from the lower side of the outer chamber of the deodorization chamber, the cleaning liquid discharge passage having a cleaning liquid filter at an intermediate portion thereof; And a deodorizing gas discharge passage communicating with an upper side of an outer chamber of the deodorizing chamber; It is configured to include, a plurality of micro-holes are formed in the middle, the upper end of the inner wall, the drain hole in the lower portion of the inner wall than the pipe position of the cleaning liquid discharge path and lower than the opening of the odor gas inlet passage It provides a cyclic combined deodorization system characterized in that it is formed.

In another aspect, the present invention provides a circulating composite deodorization system, characterized in that the inner wall is composed of a filter wall for odor adsorption, the filter wall is composed of any one or more of the adsorbent material of activated carbon, silica gel and zeolite (Zelite) can do.

In another aspect, the present invention provides a circulating composite deodorization system that is easy to clean and manage, characterized in that the roof of the deodorization chamber is configured to be separated and combined arbitrarily.

In addition, the present invention, the partition wall is provided outside the inner wall in the deodorizing chamber, the outer chamber is divided into a first outer chamber and a second outer chamber, a plurality of secondary micro-holes are formed in the middle and upper end of the partition wall, the partition wall A secondary drainage hole is formed at a lower portion of the lower portion of the lower portion of the cleaning liquid discharge path than the piping position of the inner wall and lower than the drain hole of the inner wall, thereby providing a cyclic complex deodorization system capable of performing multiple deodorization operations. do.

According to the present invention has the following effects.

1. The deodorizing rate can be increased because the odorous gas introduced into the deodorizing room can pass through the inside and the outside chambers (first and second external rooms) and can perform the deodorization step by spraying the cleaning liquid.

2. The inner wall and the partition wall of the deodorizing chamber are composed of a filter wall made of an adsorbent material so that the combined deodorization can be performed together with the deodorizing operation by spraying the cleaning liquid.

3. Existing deodorization method by spraying cleaning solution has been a problem of secondary industrial waste generation due to cleaning solution contamination, but in the present invention, the used cleaning solution can be circulated, filtered and reused to eliminate the concern of secondary industrial waste generation. have.

4. The roof can be separated to facilitate the cleaning, maintenance and maintenance of the inside of the deodorizing room.

1 is a schematic diagram of a first embodiment of a circulating combined deodorization system provided by the present invention.
2 is a schematic diagram of a second embodiment of a circulating combined deodorization system provided by the present invention.
3 is a sectional perspective view of a second embodiment of a circulating combined deodorization system.
FIG. 4 is a plan view showing an example of piping and an example of arrangement of spray nozzles in a cleaning liquid supply path on the upper side of the deodorizing chamber having a square plane.
FIG. 5 is a plan view showing an example of piping and an example of dispensing nozzles with a cleaning liquid supply path on the upper side of the deodorizing chamber having a circular plane.

The present invention relates to a circulating complex deodorization system configured to remove odors by injecting odor gas into a deodorization chamber and to remove odors by injecting a rinsing liquid and recycling the injected rinsing liquid through a filtering process. The cleaning liquid refers to all substances in the liquid phase used for deodorizing purposes, including water. Hereinafter, the present invention will be described in detail with the accompanying drawings.

The circulating composite deodorization system provided by the present invention includes a deodorization chamber 10, an odor gas inlet passage 20, a storage tank 30, a cleaning liquid supply passage 40, a spray nozzle 45, and a cleaning liquid discharge passage 50. And a deodorizing gas discharge path 60.

FIG. 1 is a first embodiment of a circulating composite deodorization system. In the embodiment of FIG. 1, the deodorization chamber 10 includes an inner wall 11 surrounded by a floor, an outer wall 17, and a roof 16. Is divided into an inner chamber 12 and an outer chamber 13, and the odor gas inlet 20 penetrates the bottom of the inner chamber 12 of the deodorizing chamber 10 in an upward direction. (開口) The storage tank 30 is located outside the deodorization chamber 10 and stores the cleaning liquid 1 therein. The cleaning liquid supply passage 40 is connected to the upper portion of the deodorization chamber 10 after being connected to the storage tank 30, and the inner chamber 12 and the outer chamber of the deodorization chamber 10 are connected to the cleaning liquid supply passage 40. A plurality of injection nozzles 45 for injecting the cleaning liquid into each of 13 are provided. The cleaning solution discharge path 50 is connected to the storage tank 30 by piping so as to extend from the lower side of the outer chamber 13 of the deodorization chamber 10. In addition, a plurality of fine through holes 14 are formed at the middle and upper ends of the inner wall 11, and the lower odor of the inner wall 11 is higher than the pipe position of the cleaning liquid discharge path 50 and the odor gas inflow path ( The drainage hole 15 is formed at a portion lower than the opening of the 20).

The malodorous gas introduced into the inner chamber through the malodorous gas inflow path 20 is formed in the middle and upper end portions of the inner wall in the state of being primarily deodorized by the cleaning liquid sprayed through the upper injection nozzle 45. Is discharged to the outside room. The odor gas discharged to the outer chamber 13 is also deodorized secondly by the cleaning liquid injected through the upper injection nozzle 45 and then through the deodorizing gas discharge path 60 connected to the upper side of the outer chamber 13. It is discharged to the outside.

As the deodorizing operation proceeds as described above, the cleaning liquid sprayed through the injection nozzle 45 is filled in the inner chamber 12 and the outer chamber 13 of the deodorizing chamber 10. The cleaning liquid is filled up to a part where the drainage hole 15 at the lower end of the inner chamber is formed, and when the cleaning liquid reaches the drainage hole 15, it is discharged to the outer chamber through the drainage hole 15. The cleaning solution discharged from the interior chamber 12 and the cleaning liquid sprayed from the injection nozzle 45 disposed on the outer chamber 13 through the above process are filled with the outer chamber 13, and the cleaning liquid discharge path 50 is filled. Through the discharge to the outside of the deodorization chamber (10). In this process, a considerable amount of the contaminants introduced into the inner chamber 12 together with the odor gas is settled on the bottom of the inner chamber 12, and the remaining contaminants settle on the bottom of the outer chamber 13. Thereafter, the remaining fine contaminants go along the cleaning solution discharge path 50 together with the cleaning solution and are filtered through the cleaning solution filter 51. The cleaning liquid from which contaminants have been removed in this process is introduced into the storage tank 30 again, and thus the cleaning liquid is stored in the storage tank → the cleaning liquid supply passage → the injection nozzle → the deodorization chamber (inner or outer chamber) → the cleaning liquid discharge passage → the storage tank. It will cycle to the root and can be reused repeatedly. This circulating process of the cleaning liquid may be made by pumping.

On the other hand, the inner wall 11 may be composed of a filter wall for odor adsorption, the filter wall may be composed of any one or more of the adsorbent material of activated carbon, silica gel and zeolite (Zelite). According to this configuration, the present invention can be carried out by deodorizing by spraying the cleaning liquid and deodorizing by adsorption. In addition, by attaching a microorganism exhibiting deodorant to the inner wall 11, it can be made to perform the deodorizing action by contacting the microorganism. Similarly, the odor adsorbing layer may be formed on the inner side surface of the outer wall 17 of the deodorizing chamber 10.

FIG. 2 is a second embodiment of a cyclic combined deodorization system, and FIG. 3 is a cross-sectional perspective view of a second embodiment of a cyclic combined deodorization system. 2 and 3, the partition 18 is provided on the outer side of the inner wall 11 in the deodorizing chamber so that the outer chamber 13 is the first outer chamber 13a and the second outer chamber. Segmented at (13b). The barrier rib 18 has a plurality of secondary micro-holes 14a formed at its middle and upper ends thereof, and is located higher than the piping position of the cleaning liquid discharge path 50 among the lower ends of the barrier rib 18 and the inner wall 11. The secondary drainage hole is formed at the lower part than the drainage hole of. Here, the partition wall 18 may be configured as a filter wall for odor adsorption similar to the inner wall 11, and may be attached to microorganisms exhibiting deodorization. In addition, the odor adsorbing layer may be formed on the inner side surface of the outer wall 17 of the deodorizing chamber.

In the second embodiment, the partition wall 18 is formed between the inner wall 11 and the outer wall 17 of the deodorizing chamber 10 so that the outer chamber 13 is divided into a first outer chamber 13a and a second outer chamber 13b. The biggest feature is that, by this configuration can increase the step of the odor gas deodorization step by one step to further increase the deodorizing effect. That is, the malodorous gas introduced into the inner chamber 12 of the deodorizing chamber 10 through the malodorous gas inflow path 20 is first deodorized by the cleaning liquid sprayed through the upper injection nozzle 45. It is discharged to the first outer chamber 13a through the micro-pores 14 formed in the middle and upper ends of the inner wall 11. The second odor gas 14a formed in the middle and upper ends of the partition wall 18 after the odor gas discharged into the first outer chamber 13a is also secondarily deodorized by the cleaning liquid injected through the upper injection nozzle 45. It is discharged to the second exterior room 13b through. The odor gas discharged to the second outer chamber 13b may be sprayed with another cleaning liquid. However, in order to achieve economic efficiency of the facility in consideration of the efficiency of the deodorization operation, the injection nozzle 45 may be disposed in the upper portion of the deodorization chamber 10. It can be arrange | positioned only on the upper part of the inner chamber 12 and the 1st outer chamber 13a. In this case, the cleaning liquid spraying operation on the gas discharged into the second outer chamber 13b is not performed, but the gas is temporarily trapped in the partition 18 and the outer wall 17 of the deodorizing chamber so that the remaining odor causing substances are separated. After that, the gas may be discharged through the deodorizing gas discharge path. The inner wall 11 and the partition wall 18 may be formed of a filter wall made of malodor adsorbing material, and the deodorizing effect may be maximized when the malodor adsorbing layer is formed on the inner surface of the outer wall 17.

 Hereinafter, a process of circulating the cleaning liquid in the circulating complex deodorization system in which the injection nozzle 45 is disposed only on the upper portion of the inner chamber 12 and the first outer chamber 13a of the upper portion of the deodorizing chamber 10 will be described. The cleaning liquid injected through the injection nozzle 45 is filled in the inner chamber 12 and the first outer chamber 13a of the deodorization chamber. The cleaning liquid is filled up to a portion where the drainage hole 15 at the lower end of the inner chamber 12 is formed, and when it reaches the drainage hole 15, the cleaning liquid is discharged to the first outer chamber 13a through the drainage hole 15. The cleaning solution discharged from the interior chamber 12 and the cleaning solution sprayed from the injection nozzle 45 disposed above the first exterior chamber 13a are added to the first exterior chamber 13a through the above-described process, followed by filling up with a second drainage. It is discharged to the second outer chamber 13b through the hole 15a. The washing liquid discharged to the second outer chamber 13b is also filled in a predetermined amount and discharged to the outside of the deodorizing chamber through the washing liquid discharge path 50. In this process, a considerable amount of contaminants introduced into the inner chamber 12 together with the odor gas are settled at the bottom of the inner chamber 12, and the remaining contaminants are separated from the first outer chamber 13a and the second outer chamber 13b according to the movement path of the cleaning liquid. On the bottom of each). Thereafter, the remaining fine contaminants go along the cleaning solution discharge path 50 together with the cleaning solution and are filtered through the cleaning solution filter 51. The cleaning liquid from which contaminants have been removed in this process is introduced into the storage tank 30 again. Accordingly, the cleaning liquid is stored in the storage tank → the cleaning liquid supply path → the injection nozzle → the deodorization chamber (inner chamber or the first exterior chamber) → the second exterior chamber → the cleaning liquid. Outlet → Cycles to the root of the storage tank and can be reused repeatedly. This circulating process of the cleaning liquid may be made by pumping.

On the other hand, the roof 16 of the deodorization chamber can be configured to be assembled and detachable arbitrarily, by this configuration it can enhance the convenience of cleaning and maintenance maintenance inside the deodorization chamber (10). In addition, the deodorization chamber 10 may be configured as a double-layer structure as shown in Figs. 2 and 3, and thus the inner wall 11 in addition to the roof 16 of the deodorization chamber 10 And a second inner roof 19b supported by the first inner roof 19a and covering the inner chamber 12 and the partition wall 18 and covering the first outer chamber 13b. can do. Of course, the first inner roof (19a) and the second inner roof (19b) can also be configured in a prefabricated that can be arbitrarily separated and combined.

4 and 5 show an embodiment of the shape of the deodorizing chamber 10 and the arrangement of the piping and the spray nozzle 45 in the cleaning liquid supply passage 40, in which both the outer chamber 13 is a partition wall. By 18, it is segmented into the 1st external chamber 13a and the 2nd external chamber 13b. 4 is an example in which the cleaning liquid supply passage 40 is piped in a lattice shape on the deodorization chamber 10 having a square plane, and the injection nozzle 45 is disposed along the cleaning liquid supply passage 40. FIG. 5 is an example in which the cleaning liquid supply passage 40 is radially piped on the deodorizing chamber 10 having a circular plane, and the injection nozzle 45 is disposed along the cleaning liquid supply passage 40.

Although the present invention has been described with reference to the accompanying drawings as mentioned above, various modifications and variations are possible without departing from the spirit of the present invention, and may be used in various fields. Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

10: deodorization room
11: interior wall 12: interior room
13: outside room 13a: first outside room
13b: second exterior room 14: micro-hole
14a: second minute through hole 15: drainage hole
15a: second drain hole 16: roof
17: outer wall 18: partition wall
19a: first inner roof 19b: second inner roof
20: odor gas inlet
30: storage tank
40: cleaning liquid supply passage 45: injection nozzle
50: cleaning liquid discharge path
60: deodorizing gas discharge furnace

Claims (7)

A deodorization chamber in which a space surrounded by a floor, an outer wall, and a roof is divided into an inner chamber and an outer chamber by an inner wall;
A malodorous gas inflow path opening through the inner chamber bottom of the deodorization chamber in an upward direction;
A storage tank located outside of the deodorizing chamber and storing a cleaning liquid having a deodorizing function for odor gas;
A cleaning liquid supply passage connected to the storage tank and connected to an upper portion of the deodorization chamber;
A plurality of injection nozzles provided in the cleaning liquid supply path for injecting the cleaning liquid into the inner and outer chambers of the deodorizing chamber;
A cleaning liquid discharge passage connected to the storage tank and connected to the storage tank so as to extend from the lower side of the outer chamber of the deodorization chamber, the cleaning liquid discharge passage having a cleaning liquid filter at an intermediate portion thereof; And
A deodorizing gas discharge passage communicating with an upper side of an outer chamber of the deodorizing chamber; And,
A plurality of micro holes are formed in the middle and upper ends of the inner wall,
And a drainage hole is formed at a lower end of the inner wall than a pipe position of the cleaning liquid discharge path and lower than an opening of the odor gas inflow path.
In claim 1,
The inner wall is a circulating composite deodorization system, characterized in that composed of filter walls for odor adsorption.
In claim 2,
The filter wall is a circulating composite deodorization system, characterized in that composed of any one or more of the adsorbent material of activated carbon, silica gel and zeolite (Zelite).
The method according to any one of claims 1 to 3,
A partition wall is provided outside the inner wall of the deodorizing chamber so that the outer chamber is divided into a first outer chamber and a second outer chamber.
A plurality of secondary fine holes are formed in the middle and upper ends of the partition wall,
And a secondary drainage hole is formed in a lower portion of the partition wall higher than a pipe position of the cleaning liquid discharge path and lower than a drainage hole of the inner wall.
In claim 4,
The spray nozzle is a circulating composite deodorization system, characterized in that disposed only in the upper portion of the inner chamber and the first outer chamber of the upper portion of the deodorizing chamber.
In the fourth,
The roof of the deodorization chamber is a circulating composite deodorization system, characterized in that composed of prefabricated separable arbitrarily.
In claim 4,
And the deodorization chamber is further comprised of a first inner roof supported by the inner wall and covering the inner chamber and a second inner roof supported by the partition wall and covering the first outer chamber.

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