KR102155942B1 - A scrubber provided with a demister for preventing the discharge of the cleaning liquid - Google Patents

Abstract

The present invention relates to a scrubber having a demister for preventing the discharge of the cleaning liquid, and the scrubber having a demister for preventing the discharge of the cleaning liquid according to an embodiment of the present invention, the exhaust gas of the ship engine is introduced into the interior. A scrubber including an inlet pipe and a discharge pipe for discharging the cleaning gas to be cleaned by flowing into the inside through the inlet pipe and the inlet pipe; A cleaning unit comprising a filter installed inside the scrubber adjacent to the inlet pipe and a nozzle for injecting a cleaning liquid, and cleaning particulate matter contained in exhaust gas introduced through the filter and cleaning liquid; And a demister filter module comprising a plurality of bent demister units installed in the scrubber closer to the discharge pipe than the cleaning unit, and removing the cleaning liquid adsorbed on the cleaning gas cleaned from the cleaning unit through the demister unit. It is composed by

Description

A scrubber provided with a demister for preventing the discharge of the cleaning liquid

The present invention relates to a scrubber provided with a demister for preventing discharge of cleaning liquid.

Particulate matter is also referred to as particulate pollutant in the form of fine particles.It is a solid or liquid fine substance that occurs during mechanical treatment such as crushing or sorting of the substance, combustion, or synthesis, and is scattered in the atmosphere for a certain period of time after being generated. The size of the particles has a great influence on the nature of the substance.When it is in the air, it may cause visibility impairment, and some fine inhalation dust may enter the lungs or respiratory tract of the human body and cause fatal damage. It is defined as a substance that causes direct or indirect damage, such as blocking carbon assimilation, adversely affecting growth, and damaging animals that feed on plants when harmful chemical components are deposited on plants.

On the other hand, as industrialization progresses rapidly, pollutants are generated from fossil fuels such as petroleum and coal and substances such as gas, fuel oil, and diesel oil. The pollutants of exhaust gas generated in the process of oxidizing these substances include the above. It contains a large amount of particulate matter.

Among these particulate matter, compounds that are the main culprit of air pollution are sulfur oxides (SOx) and nitrogen oxides (NOx) as representative examples, and research and development to develop various devices to remove these substances is ongoing.

In addition, marine diesel engines generally have the advantage of low fuel cost by using unrefined low-grade fuel, but there is a problem in that a considerable amount of particulate matter including nitrogen oxides (NOx) is discharged.

A typical example of an environmental facility for purifying the exhaust gas of such a marine diesel engine is a scrubber. The scrubber is the most common environmental equipment that has been used for decades to purify contaminated gases such as exhaust gas, for example, a wet scrubber with the highest treatment efficiency. Such a conventional wet scrubber has a structure that cleans and cools exhaust gas using water (cleaning liquid), and has a relatively simple configuration, and thus has an advantage of being easy to manufacture with a small indoor size.

However, in the case of a conventional wet scrubber, an internal filler that serves to increase the contact area between the exhaust gas and water (cleaning liquid) and a demister that prevents the mist generated when the cleaning gas is discharged are constructed. There is a problem in that the discharge efficiency of the cleaned exhaust gas and the reduction efficiency of the exhaust gas may be lowered because it is not possible to prevent the mist from flowing out due to the discharged air volume.

The present invention was conceived to solve the above problems, and the present invention provides a scrubber capable of increasing the efficiency of discharging cleaning gas and reducing exhaust gas by providing a demister that is bent differently from the conventional demister. It has its purpose to provide.

Meanwhile, the technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned are clearly understood by those of ordinary skill in the technical field to which the present invention belongs from the following description. Can be.

As a technical means for achieving the above object, the scrubber provided with a demister for preventing the discharge of the cleaning liquid according to an embodiment of the present invention is internal through an inlet pipe and an inlet pipe for introducing the exhaust gas of the ship engine into the interior. A scrubber including a discharge pipe for discharging the cleaning gas introduced into and cleaned to the outside; A cleaning unit comprising a filter installed inside the scrubber adjacent to the inlet pipe and a nozzle for injecting a cleaning liquid, and cleaning particulate matter contained in exhaust gas introduced through the filter and cleaning liquid; And a demister filter module comprising a plurality of bent demister units installed in the scrubber closer to the discharge pipe than the cleaning unit, and removing the cleaning liquid adsorbed on the cleaning gas cleaned from the cleaning unit through the demister unit. It is composed by

In one embodiment, the demister filter module includes a first filter unit installed on one side of the demister unit to collect the cleaning liquid from the cleaning gas before the demister unit removes the cleaning liquid adsorbed on the cleaning gas.

In one embodiment, the demister filter module includes a second filter unit installed on the other side of the demister unit to collect the cleaning liquid remaining in the cleaning gas passing through the demister unit.

In one embodiment, the demister unit is formed such that a plurality of plates are coupled to each other, and the plurality of plates are bent to remove the cleaning liquid adsorbed on the cleaning gas while providing a moving path for discharging the cleaning gas.

In one embodiment, the plurality of plates includes: a first plate extending parallel to the inflow direction of the exhaust gas; A first connection plate coupled to an end of the first plate and extending in a first direction different from the inflow direction from the end; A first bent plate coupled to an end of the first connection plate and bent to remove the cleaning liquid adsorbed on the cleaning gas; A second connection plate coupled to one end adjacent to the end of the first bent plate coupled to the first connection plate and extending from the one end in a second direction different from the first direction; A second bent plate coupled to an end of the second connection plate and bent to remove the cleaning liquid adsorbed by the cleaning gas; And a third bent plate coupled to an end of the second bent plate coupled to the second connection plate and one end adjacent to the end of the second bent plate and bent to remove the cleaning liquid adsorbed by the cleaning gas.

In one embodiment, the first bending plate is bent in order to remove the cleaning liquid adsorbed by the cleaning gas that is bent in the first direction through the first connection plate of the demister unit adjacent to the first connection plate in the first direction. do.

To this end, the first bent plate is formed to be bent from the end of the first connection plate in a'┌' or'└' shape.

In one embodiment, the second bent plate is moved while being bent in the second direction through the second connecting plate and the second connecting plate adjacent in the second direction, but a part of the cleaning liquid is removed through the first bent plate of the adjacent demister unit. It is bent to remove the remaining cleaning liquid in the cleaning gas.

To this end, the second bent plate is bent in a'┐' shape or a'┘' shape from the end of the second connection plate.

In one embodiment, the third bent plate is moved while being bent in the second direction through the second connection plate of the demister unit adjacent to the second connection plate in the first direction, and the second demister unit adjacent to the first bent plate It is bent to remove the cleaning liquid remaining in the cleaning gas from which the cleaning liquid is partially removed through the bending plate.

To this end, the third bent plate is partially extended in a direction in which the first plate is extended from one end adjacent to the end of the second bent plate coupled to the second connection plate, and is bent in a'∩' shape.

In one embodiment, the plurality of plates are formed with a plurality of protrusions on the surface so as to prevent attachment of the cleaning liquid from the cleaning gas and remaining in the form of droplets on the surface.

In one embodiment, the demister filter module is made of a corrosion-resistant material that is resistant to corrosion.

According to an embodiment of the present invention, the cleaning liquid adsorbed to the cleaning gas is removed through a demister unit formed by combining a plurality of bent plates to prevent the cleaning liquid from being discharged to the outside, thereby discharging the cleaning gas and exhausting Gas reduction efficiency can be improved.

And according to an embodiment of the present invention, by forming a plurality of protrusions on the surface of the demister portion of the demister filter module, the cleaning liquid removed from the cleaning gas and remaining in the form of droplets on the surface of the demister portion is attached to the surface of the demister portion. Can be prevented.

On the other hand, the effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those of ordinary skill in the art from the following description. I will be able to.

1 is a cross-sectional view showing a scrubber having a demister for preventing discharging of a cleaning liquid according to an embodiment of the present invention.
FIG. 2 is a control block diagram illustrating a control unit configured in a scrubber having a demister for preventing discharge of a cleaning liquid according to an embodiment of the present invention, and a configuration in which the control unit controls operation.
3 is a cross-sectional view illustrating a demister filter module according to an embodiment of the present invention shown in FIG. 1.
4 is a cross-sectional view showing the configuration of a demister unit according to an embodiment of the present invention shown in FIG. 3.
5 is a cross-sectional view showing a configuration of a demister unit 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. The detailed description to be disclosed hereinafter together with the accompanying drawings is intended to describe exemplary embodiments of the present invention, and is not intended to represent the only embodiments in which the present invention may be practiced. The following detailed description includes specific details to provide a thorough understanding of the present invention. However, those of ordinary skill in the art to which the present invention pertains knows that the present invention may be practiced without these specific details. In addition, throughout the specification, when a part is said to "comprising or including" a certain component, this does not exclude other components, but may further include other components unless otherwise stated. Means that. In addition, when it is determined that detailed descriptions of known functions or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in an embodiment of the present invention, which may vary according to the intention or custom of users or operators. Therefore, the definition should be made based on the contents throughout this specification.

Configuration of scrubber with demister to prevent discharge of cleaning liquid

1 is a cross-sectional view showing a scrubber having a demister for preventing discharging of cleaning liquid according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view showing a demister for preventing discharging of cleaning liquid according to an embodiment of the present invention. A control block diagram showing a controller configured in the scrubber and a configuration in which the controller controls the operation, FIG. 3 is a cross-sectional view showing a demister filter module according to an embodiment of the present invention shown in FIG. 1, and FIG. 4 is FIG. It is a cross-sectional view showing the configuration of the demister unit according to an embodiment of the present invention shown in.

The scrubber provided with a demister for preventing the discharge of the cleaning liquid according to the present invention (hereinafter referred to as a'scrubber having a demister') has a demister that is bent differently from the conventional demister, so that the cleaning gas can be removed It is an object of the present invention to provide a scrubber that can increase emission efficiency and exhaust gas reduction efficiency.

Referring to Figures 1 and 3, the scrubber having a demister according to an embodiment of the present invention is internally through an inlet pipe 1 and an inlet pipe 1 for introducing exhaust gas of a ship engine into the interior. The scrubber 10 including the discharge pipe 2 for discharging the cleaning gas that is washed by flowing into the system to the outside, the filter 21 installed inside the scrubber 10 adjacent to the inlet pipe 1, and the cleaning liquid. A nozzle 22 for spraying is configured, and the filter 21 and the cleaning unit 20 and the cleaning unit 20 for cleaning particulate matter contained in the exhaust gas introduced through the cleaning liquid are closer to the discharge pipe 2 than the cleaning unit 20 A demister filter module comprising a plurality of bent demister units 32 installed inside the scrubber 10, and removing cleaning liquid adsorbed on the cleaning gas cleaned from the cleaning unit 20 through the demister unit 32 It is composed of (30).

And looking with reference to FIG. 2, the scrubber having a demister according to an embodiment of the present invention controls the operation of the scrubber 10, the filter 21, the nozzle 22, and the demister filter module 30. The control unit 40 may be further included and configured. For a specific example, the control unit 40 reflects information such as opening/closing of the inlet pipe 1 and the discharge pipe 2 of the scrubber, the use time of the filter 21, and filtering efficiency to set the replacement time, and the nozzle 22 It is possible to control the injection and injection angle adjustment, opening and closing of the demister filter module 30, and the angle adjustment of the demister unit 32.

Looking again with reference to FIG. 1, in one embodiment, the scrubber 10 has a filter 21, a nozzle 22, and a demister filter module 30 formed therein, and is formed in a tubular shape to form an inlet pipe configured on one side. A movement path is provided to allow the exhaust gas of the ship engine flowing into the inside through (1) to move toward the discharge pipe 2 configured on the other side.

Unlike this one embodiment, in another embodiment, the scrubber 10 includes at least one inlet (not shown) for replacement of the filter 21, the nozzle 22, and the demister filter module 30. I can. This inlet (not shown) is not necessarily configured, and the filter 21, the nozzle 22, and the demister filter module 30 are separated or the filter 21, the nozzle 22, and the demister filter module 30 If the filter 21, the nozzle 22, and the demister filter module 30 can be replaced by being detachable, the configuration may be omitted.

In one embodiment, the cleaning unit 20 is configured inside the scrubber 10 in which the filter 21 is closer to the inlet pipe 1 than the nozzle 22, and the nozzle 22 is spaced apart from the filter 21 It is configured inside the scrubber 10 closer to the discharge pipe 2 than the filter 21.

The filter 21 is formed of a porous material and collects particulate matter of exhaust gas flowing into the scrubber 10.

In one embodiment, the filter 21 is formed extending in the direction in which the exhaust gas is moved, and may be composed of a plurality of porous plates having a curved structure. Through this, the exhaust gas may pass through the filter 21 having a curved structure several times while moving along the movement path of the scrubber 10, and particulate matter may be collected by the filter 21.

Unlike this one embodiment, in another embodiment, the filter 21 may be composed of a plurality of filters having the same size as the inner diameter of the scrubber 10. It is obvious that the filter 21 of this other embodiment has an increased efficiency of collecting particulate matter compared to the filter 21 having a single configuration.

In one embodiment, the nozzle 22 cleans the exhaust gas by injecting a cleaning liquid onto the exhaust gas that has passed through the filter 21 in a space spaced from the filter 21, that is, the exhaust gas in which particulate matter is collected. Here, it is preferable that the cleaning liquid is stored in advance before the exhaust gas flows into the scrubber 10, and the type of the solution is not limited if it is a solution for cleaning the exhaust gas.

Unlike this one embodiment, in another embodiment, the nozzle 22 is a first nozzle (not shown) for oxidizing the exhaust gas to clean the exhaust gas in which particulate matter passing through the filter 21 is collected based on a wet process. ) And a second nozzle (not shown) to neutralize the oxidized exhaust gas. For a specific example, a first nozzle (not shown) is configured inside the scrubber 10 adjacent to the filter 21 compared to the second nozzle (not shown), and the first nozzle (not shown) contains particulate matter. A cleaning liquid (eg, sodium chlorite solution) for oxidizing the collected exhaust gas may be sprayed, and the second nozzle (not shown) may spray a cleaning liquid (eg, ammonia solution) for neutralizing the oxidized exhaust gas.

In addition, in another embodiment, the nozzle 22 may have a rotation shaft (not shown) capable of changing the spray angle of the cleaning liquid on the nozzle 22. Through this, the nozzle 22 can efficiently clean the exhaust gas by injecting the cleaning liquid at an optimum angle for cleaning the exhaust gas in which the particulate matter is collected. And it would be desirable for the control unit 40 to control the operation of this rotating shaft (not shown).

Referring to FIG. 3, in one embodiment, the demister filter module 30 is configured inside the scrubber 10 closest to the nozzle 22, so that the demister unit 32 collects the cleaning liquid from the cleaning gas. It is configured inside the scrubber 10 closest to the first filter unit 31 and the discharge pipe 2, which collects the cleaning liquid from the cleaning gas before removal, and can remain in the cleaning gas passing through the demister unit 32. The cleaning liquid adsorbed to the cleaning gas while providing a moving path for discharging the cleaning gas by being configured between the second filter part 33 and the first filter part 31 and the second filter part 33 to collect the cleaning liquid that is present. It is configured to include a demister portion 32 that is bent to remove.

In addition, the demister filter module 30 will be preferably made of a corrosion-resistant material (eg, stainless steel) resistant to corrosion.

In addition, it is preferable to understand that the cleaning liquid collected by the first filter part 31 and the third filter part 33 and the cleaning liquid removed by the demister part 32 is a cleaning liquid in the form of a mist adsorbed by the cleaning gas. will be.

Unlike this embodiment, in another embodiment, the demister filter module 30 may omit the configuration of one of the first filter unit 31 and the second filter unit 33. In this way, omitting the configuration of one filter unit is in order to sufficiently remove the cleaning liquid through the demister unit 32 and one filter unit, and to reduce the size of the demister filter module 30 and reduce manufacturing cost.

In one embodiment, the first filter unit 31 and the second filter unit 33 are formed of a porous material to remove (collect) the cleaning liquid adsorbed to the cleaning gas, respectively.

Referring to FIG. 4, in one embodiment, the demister unit 32 has a structure in which a plurality of plates 32a, 32b, 32c, 32d, 32e, 32f are combined with each other to form a bend, and such a bent structure The cleaning liquid adsorbed to the cleaning gas is removed while providing a moving path for discharging the cleaning gas.

In one embodiment, the plurality of plates 32a, 32b, 32c, 32d, 32e, 32f is a first plate 32a, a first connection plate 32b, a first bending plate 32c, a second connection plate ( 32d), comprising a second bent plate (32e) and a third bent plate (33f), to prevent the cleaning liquid (A) remaining on the surface from adhering to the surface by removing the cleaning liquid adsorbed by the cleaning gas. A plurality of protrusions (not shown) are formed on the surface.

In one embodiment, the first plate 32a extends parallel to the inflow direction of the exhaust gas, and the first filter unit 31 and the first connection plate 32b are respectively coupled to both ends. In addition, as the first plate 32a is extended, it is possible to induce the cleaning gas that has passed through the first filter unit 31 to move in parallel with the inflow direction of the exhaust gas.

In one embodiment, the first connection plate 32b is coupled to an end of the first plate 32a, extends in a first direction from an end of the first plate 32a, and is formed at the other end of the first bent plate ( 32c) is combined. And the first connection plate (32b) is formed to extend from the end of the first plate (31a) in a first direction that is different from the direction in which the first plate (32a) is extended, so that the cleaning gas is moved along the first direction. You can induce.

In one embodiment, the first bending plate 32c is coupled to the end of the first connection plate 32b, and is bent in a'┌' shape or a'└' shape from the end of the first connection plate 32b. , A second connection plate 32d is coupled to one end adjacent to the other end. The first bending plate 32c is bent in the first direction by the first connection plate 32b and removes the cleaning liquid adsorbed by the cleaning gas that is moved. For a specific example, the first bent plate 32c contains the cleaning liquid adsorbed by the cleaning gas that is bent and moved in the first direction by the first connection plate 32b and the first connection plate of the demister unit adjacent in the first direction. Remove. The cleaning liquid removed by the first bent plate 32c remains as a cleaning liquid A, and the cleaning liquid A descends along the surface of the plate.

In one embodiment, the second connection plate 32d is coupled to one end adjacent to the end of the first bent plate 32c coupled with the first connection plate 32b, and is formed from one end of the first bent plate 32c. It is formed extending in two directions, and a second bent plate 32e is coupled to the other end. In addition, the second connection plate 32d extends from one end of the first bent plate 32c in a second direction different from the first direction, thereby inducing the cleaning gas to move along the second direction.

In one embodiment, the second bent plate 32e is coupled to the end of the second connection plate 32d, and is bent in a'┐' or'┘' shape from the end of the second connection plate 32d. , A third bending plate 32f is coupled to one end adjacent to the other end. The second bent plate 32e is bent in the second direction by the second connection plate 32d and removes the cleaning liquid adsorbed on the moving cleaning gas. For a specific example, the second bent plate 32e absorbs the cleaning liquid adsorbed by the cleaning gas that is bent and moved in the second direction by the second connection plate 32d and the second connection plate of the demister unit adjacent in the second direction. Remove. Here, the cleaning liquid removed through the second bent plate 32e should be understood as a cleaning liquid adsorbed from the cleaning gas in which the cleaning liquid has been partially removed by the first bent plate of the adjacent demister unit. The cleaning liquid removed by this remains as a cleaning liquid (A), and the cleaning liquid (A) descends along the surface of the plate.

In one embodiment, the third bent plate (32f) is coupled to one end of the second bent plate (32e), a part from one end of the second bent plate (32e) is the same as the extension direction of the first plate (32a) It is formed to be extended, but the rest is bent in a'∩' shape. The third bent plate 32f is bent in the second direction by the second connection plate 32d and removes the cleaning liquid adsorbed on the moving cleaning gas. For a specific example, the third bent plate 32f absorbs the cleaning liquid adsorbed by the cleaning gas that is bent and moved in the second direction by the second connection plate 32d and the second connection plate of the demister unit adjacent in the first direction. Remove. Here, the cleaning liquid removed through the third bent plate 32f should be understood as a cleaning liquid adsorbed from the cleaning gas in which the cleaning liquid is partially removed by the second bent plate of the demister unit adjacent to the first bent plate 32c, The cleaning liquid removed by the third bent plate 32f remains as a cleaning liquid A, and the cleaning liquid A descends along the surface of the plate.

As described above, in one embodiment, the demister unit 32 comprising a plurality of plates 32a, 32b, 32c, 32d, 32e, 32f is a first plate 32a, a first connection plate 32b, and a second connection The movement direction of the cleaning gas is guided through the plate 32d, and through the first bending plate 32c, the second bending plate 32e, and the third bending plate 32f that are bent at different positions in different shapes. It is possible to remove the cleaning liquid adsorbed on the cleaning gas.

Referring to Figure 5, in another embodiment, the demister unit 32 is composed of a plurality of plates (32a, 32b, 32c, 32d, 32e, 32f) of one embodiment, additionally the first bending plate (32c), A first rotation shaft 50, a second rotation shaft 60, and a third rotation shaft 70 for changing angles of the 2 bending plate 32e and the third bending plate 32f may be configured. By changing the angles of the first, second, and third bent plates 32c, 32e, 32f through the first, second, and third rotational shafts 50, 60, 70, it is possible to efficiently remove the cleaning liquid adsorbed on the cleaning gas. have. And it would be desirable for the control unit 40 to control the operation of the first, second, and third rotation shafts 50, 60, and 70.

The above description of the present invention is for illustrative purposes only, and those of ordinary skill in the art to which the present invention pertains can understand that it is possible to easily transform it into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not limiting. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as being distributed may also be implemented in a combined form.

The scope of the present invention is indicated by the claims to be described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention. do.

1: inlet pipe,
2: outflow piping,
10: scrubber,
20: cleaning unit,
21: filter,
22: nozzle,
30: demister module,
31: first filter unit,
32: demister unit,
32a: first plate,
32b: first connecting plate,
32c: first bending plate,
32d: second connecting plate,
32e: second bending plate,
32f: third bending plate,
33: second filter unit,
40: control unit,
50: first rotation shaft,
60: second rotation shaft,
70: third rotation axis,
A: Washing droplet.

Claims (13)

A scrubber including an inlet pipe for introducing the exhaust gas of the ship engine into the inside and an exhaust pipe for discharging the cleaning gas that is washed by flowing into the inside through the inlet pipe;
A cleaning unit including a filter installed in the scrubber adjacent to the inlet pipe and a nozzle for spraying a cleaning liquid, and cleaning particulate matter contained in the introduced exhaust gas through the filter and the cleaning liquid; And
A demister configured with a plurality of bent demister units installed in the scrubber adjacent to the discharge pipe than the washing unit, and removing the cleaning liquid adsorbed on the cleaning gas cleaned from the cleaning unit through the demister unit Includes; a filter module,
The cleaning unit,
A first nozzle configured in the scrubber adjacent to the filter and spraying a cleaning liquid for oxidizing the exhaust gas in which the particulate matter is collected; And
A second nozzle configured inside the scrubber to be spaced apart from the filter than the first nozzle, and injecting a cleaning liquid for neutralizing exhaust gas oxidized by the cleaning liquid of the first nozzle, and
The demister unit,
A plurality of plates are coupled to each other, and the plurality of plates are bent to remove the cleaning liquid of the first and second nozzles adsorbed on the cleaning gas while providing a moving path for discharging the cleaning gas,
The plurality of plates,
A first plate extending parallel to the inflow direction of the exhaust gas;
A first connection plate coupled to an end of the first plate and extending from the end in a first direction different from the inflow direction;
A first bent plate coupled to an end of the first connection plate and bent to remove the cleaning liquid of the first and second nozzles adsorbed by the cleaning gas;
A second connection plate coupled to one end adjacent to an end of the first bent plate coupled to the first connection plate and extending from the one end in a second direction different from the first direction;
A second bent plate coupled to an end of the second connection plate and bent to remove the cleaning liquid of the first and second nozzles adsorbed by the cleaning gas; And
And a third bent plate coupled to one end of the second bent plate coupled to the second connection plate and bent to one end adjacent to the end of the second bent plate and bent to remove the cleaning liquid of the first and second nozzles adsorbed by the cleaning gas. ,
The first bending plate,
The first connection plate and the first connection plate of the demister unit adjacent in the first direction are bent to remove the cleaning liquid of the first and second nozzles adsorbed by the cleaning gas that is bent and moved in the first direction,
The first bending plate,
It is bent from the end of the first connection plate in the form of a'┌'or'└',
The demister unit,
A first rotation shaft operated by a control unit to change an angle of the first bending plate;
A second rotation shaft operated by the control unit to change the angle of the second bending plate; And
Includes; a third rotation shaft operated by the control unit to change the angle of the third bending plate,
The plurality of plates,
A demister for preventing discharging of the cleaning liquid, characterized in that a plurality of projections are formed on the surface to prevent the cleaning liquid droplets of the first and second nozzles removed from the cleaning gas and remaining in the form of droplets from adhering to the surface A scrubber having a. The method of claim 1,
The demister filter module,
And a first filter unit installed on one side of the demister unit to collect the cleaning liquid from the cleaning gas before the demister unit removes the cleaning liquid adsorbed on the cleaning gas. Scrubber with Mr. The method of claim 1,
The demister filter module,
And a second filter unit installed on the other side of the demister unit to collect the cleaning liquid remaining in the cleaning gas passing through the demister unit. 2. A scrubber comprising a demister for preventing discharge of the cleaning liquid. delete delete delete delete The method of claim 1,
The second bending plate,
The cleaning liquid remaining in the cleaning gas from which the cleaning liquid has been partially removed through the second connection plate and the second connection plate adjacent in the second direction while being bent in the second direction, but through the first bent plate of the adjacent demister unit A scrubber having a demister for preventing discharge of the cleaning liquid, characterized in that it is bent to remove. The method of claim 8,
The second bending plate,
A scrubber provided with a demister for preventing discharging of the cleaning liquid, characterized in that the second connection plate is bent in a'┐'or'┘' shape from the end of the second connection plate. The method of claim 1,
The third bending plate,
It is moved while being bent in the second direction through the second connection plate of the second connection plate and the second connection plate of the demister unit adjacent in the first direction, and the cleaning liquid is transferred through the first bending plate and the second bending plate of the adjacent demister unit. A scrubber provided with a demister for preventing discharge of the cleaning liquid, characterized in that it is bent to remove the cleaning liquid remaining in the partially removed cleaning gas. The method of claim 10,
The third bending plate,
Discharge of a cleaning solution, characterized in that a portion of the first plate is extended in a direction in which the first plate is extended from one end adjacent to the end of the second bent plate coupled to the second connection plate, and is bent in a'∩' shape. Scrubber with a demister to prevent. delete The method of claim 1,
The demister filter module,
A scrubber provided with a demister for preventing the discharge of cleaning liquid, characterized in that made of a corrosion-resistant material resistant to corrosion.

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