KR102275428B1 - Scrubber with air bubble cleaning device - Google Patents

Abstract

The present invention discloses a scrubber having an air bubble cleaning device capable of cleaning an aqueous gas introduced into the scrubber by using a microbubble cleaning liquid generated through a reaction between a cleaning liquid and ozone gas. In the scrubber having an air bubble cleaning device according to an embodiment of the present invention, the water-soluble gas (1) generated from the engine (100) flows into the inside, and the flow of the water-soluble gas (1) and the discharge path of the clean gas (4) A scrubber 200 that provides; When the water-soluble gas 1 is introduced into the scrubber 200, the microbubble cleaning unit 300-1 and the microbubble cleaning unit 300- that spray the microbubble cleaning liquid 2 toward the lower side of the scrubber 200. 1) is installed spaced apart from the upper side, the first and second cleaning liquid spraying parts (300-2, 300-3) for spraying the first and second cleaning liquids (3a, 3b) toward the lower side of the scrubber 200; government 300; a microbubble supply unit 400 for supplying the microbubble cleaning solution 2 to the microbubble cleaning unit 300-1; The first cleaning liquid 3a to the first cleaning liquid spraying part 300-2 and the second cleaning liquid 3b to the second cleaning liquid spraying part 300-3 are respectively supplied, but the supply amount is different from the microbubble cleaning liquid 2 a cleaning solution supply unit 500; A pump 600 for supplying the microbubble cleaning liquid 2 discharged to the lower side of the scrubber 200 and the mixed cleaning liquid of the first and second cleaning liquids 3a and 3b to the microbubble supply unit 400 and the cleaning liquid supply unit 500, respectively. ; and the amount of the microbubble cleaning liquid 2 supplied to the microbubble cleaning unit 300-1, and the first and second cleaning liquids 3a and 3b to the first and second cleaning liquid spraying units 300-2 and 300-3. By including; the control unit 700 for controlling the supply amount, the mixed cleaning liquid supply amount to the microbubble cleaning unit 300-1 and the first and second cleaning liquid spraying units 300-2 and 300-3; By washing the aqueous gas through the 1, 2 cleaning solution more than once, it is possible to efficiently clean the aqueous gas flowing into the scrubber.

Description

Scrubber with air bubble cleaning device

The present invention relates to a scrubber having an air bubble cleaning device, and more particularly, an air bubble capable of cleaning the water-soluble gas introduced into the scrubber by using a microbubble cleaning liquid generated through the reaction of the cleaning liquid and ozone gas. It relates to a scrubber provided with a cleaning device.

Most modern ships are equipped with engines and boilers for their own power and heating. In order to drive the engine and boiler, fuel must be burned, and the exhaust gas generated during combustion contains harmful substances such as sulfur oxides (SOx), nitrogen oxides (NOx), and PM (particular matter). have.

Sulfur oxides and nitrogen oxides can act on the mucous membranes of the human body and cause respiratory diseases, and are also hazardous substances designated as Class 1 carcinogens by the World Health Organization (WHO) International Agency for Research on Cancer. In addition, when the SOx or NOx is released into the air as it is, it reacts with moisture (H20) in the atmosphere to become sulfuric acid (H2SO4) and nitric acid (HNO3), respectively, which is the main cause of acid rain.

PM is in the form of small particles compared to gaseous harmful substances. If PM in exhaust gas is released into the atmosphere as it is, it can cause visibility problems that reduce the visible distance, or fine particles can enter the human body through the lungs or respiratory tract and cause various diseases. . Fine dust, which has recently become a problem in Korea, is also caused by the PM and can be seen as the main cause of air pollution.

Therefore, it is necessary to take measures to prevent harmful substances in the exhaust gas. In particular, in the case of ships, the engine output is huge and it is known that it emits 130 times the exhaust gas of a passenger car. For this purpose, specific and practical measures are required for exhaust gas from ships.

Accordingly, the International Maritime Organization (IMO) has established an Emission Control Area (ECA) to limit the emission of hazardous substances in the relevant sea area. In particular, the SOx Emission Control Area (hereinafter referred to as SECA) is more extensively regulated than the above ECA, which also regulates other hazardous substances such as NOx, and imposes strong sanctions.

In addition, from January 1, 2015, regulations were further strengthened to limit the content of sulfur in fuel causing environmental pollution to 1% for all ships passing the SECA (IMO 184(59)). In August 2011, through the revision of the Convention on the Prevention of Marine Pollution, it was expanded from the Baltic Sea and North Sea regions to North America, and from April 1, 2016, offshore areas in China were designated. is expected to become more important.

In addition, a bill was passed at the IMO General Assembly held on October 28, 2016 to lower the SOx content in the exhaust gas from 35% or less to 5% in seas around the world other than the ECA, which is scheduled to be implemented from 2020. Regardless of the situation, the need for sulfur oxide management is increasing.

In order to comply with such international regulations, LNG propulsion ships that use low sulfur oil or natural gas with low sulfur oxide emissions are used as fuel, and scrubbers that reduce sulfur oxides in exhaust gas are used. is also used

If the exhaust gas treatment process is performed using such a scrubber, it is economically advantageous because it is possible to prevent environmental pollution while satisfying the above regulations even with a low-cost fuel having a relatively high sulfur content. The scrubber ionizes SOx with a cleaning solution. At this time, there is an advantage in that ionized sulfur oxides can be neutralized by using seawater with a pH of around 83 or fresh water with an alkaline additive as the cleaning solution. In addition, the particulate matter may be aggregated and discharged together in the cleaning solution to prevent release into the atmosphere.

In addition to the main engine, a ship has a number of combustion devices such as an auxiliary engine and a boiler. Therefore, the scrubber has to treat the exhaust gas generated from a plurality of combustion devices. To this end, a multi inlet is configured at the exhaust gas inlet of the scrubber, and exhaust gas generated from a plurality of combustion devices such as a main engine and an auxiliary engine is introduced into the scrubber through the multi inlet.

On the other hand, the scrubber uses the properties of the process gas, i.e., explosive reaction properties when in contact with general air, combustion properties, properties that react with gas treatment agents, and properties that dissolve in water. separated in the way

Among them, the wet scrubber is a structure that cleans and cools the water-soluble gas and dust generated after the exhaust gas, which is easily soluble in water, is treated alone by a contact reaction on the surface of the pauling with a large surface area, or after burning the combustible gas, It has the advantage of being easy to manufacture and having a large capacity due to its relatively simple configuration.

However, the wet scrubber has a disadvantage in that the processing efficiency of the water-soluble gas is low and a large amount of water is consumed for the treatment of the exhaust gas, so technology development is required to improve the disadvantages of the wet scrubber.

As part of the improvement of such a wet scrubber, microbubbles are used in the scrubber system to improve the treatment efficiency of water-soluble gas, and only dust in the water treatment space can be selectively treated to reuse water. This is a necessary situation.

Republic of Korea Patent Publication No. 10-2012-0118296 Republic of Korea Patent Publication No. 10-1207384

The present invention has been devised to solve the above problems, and air bubble cleaning capable of cleaning the exhaust gas flowing into the scrubber through the microbubble cleaning liquid of the microbubble cleaning unit and the cleaning liquid of the first and second cleaning liquid spraying units It is an object to provide a scrubber equipped with a device.

And the present invention provides a scrubber having an air bubble cleaning device capable of controlling the supply amount of the microbubble cleaning liquid, the supply amount of the first and second cleaning liquid, and the supply amount of the microbubble cleaning liquid and the first and second cleaning liquid used for cleaning the exhaust gas. It is intended to provide

On the other hand, 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 art to which the present invention belongs from the description below. it could be

As a technical means for achieving the above object, in the scrubber having an air bubble cleaning device according to an embodiment of the present invention, the water-soluble gas (1) generated from the engine 100 is introduced therein, and the water-soluble gas (1) ) a scrubber 200 to provide a flow and discharge path of the clean gas (4); When the water-soluble gas 1 is introduced into the scrubber 200, the microbubble cleaning unit 300-1 and the microbubble cleaning unit 300- that spray the microbubble cleaning liquid 2 toward the lower side of the scrubber 200. 1) is installed spaced apart from the upper side, the first and second cleaning liquid spraying parts (300-2, 300-3) for spraying the first and second cleaning liquids (3a, 3b) toward the lower side of the scrubber 200; government 300; a microbubble supply unit 400 for supplying the microbubble cleaning solution 2 to the microbubble cleaning unit 300-1; The first cleaning liquid 3a to the first cleaning liquid spraying part 300-2 and the second cleaning liquid 3b to the second cleaning liquid spraying part 300-3 are respectively supplied, but the supply amount is different from the microbubble cleaning liquid 2 a cleaning solution supply unit 500; A pump 600 for supplying the microbubble cleaning liquid 2 discharged to the lower side of the scrubber 200 and the mixed cleaning liquid of the first and second cleaning liquids 3a and 3b to the microbubble supply unit 400 and the cleaning liquid supply unit 500, respectively. ; and the amount of the microbubble cleaning liquid 2 supplied to the microbubble cleaning unit 300-1, and the first and second cleaning liquids 3a and 3b to the first and second cleaning liquid spraying units 300-2 and 300-3. and a control unit 700 for controlling the supply amount and the amount of the mixed cleaning liquid supplied to the microbubble cleaning unit 300-1 and the first and second cleaning liquid spraying units 300-2 and 300-3.

And in the microbubble cleaning unit 300-1 and the first and second spraying units 300-2 and 300-3, one of the microbubble cleaning liquid 2 and the first and second cleaning liquids 3a and 3b is micro The cleaning unit body 330 with both sides open to be supplied to both sides through the bubble supply unit 400 or the detailed semen supply unit 500; The nozzle is formed extending in the first direction from the cleaning unit main body 330 and for spraying one of the microbubble cleaning liquid 2 and the first and second cleaning liquids 3a and 3b flowing into the cleaning unit main body 330 . A plurality of first injection members 310 is formed; Microbubble cleaning liquid (2) extending from the cleaning unit body 330 in a second direction opposite to the first direction, alternately disposed with the first spraying members 310, and flowing into the cleaning unit body 330 , a plurality of second jetting members 320 having jetting holes for jetting one of the first and second cleaning liquids 3a and 3b; and microbubble cleaning liquids 2, first and second cleaning liquids 3a installed inside the cleaning unit body 330, bisecting the inside of the cleaning unit body 330, and supplied to both sides of the cleaning unit main body 330 , 3b) one of the inner wall 340 to prevent oversupply to either side; may include.

In addition, the control unit 700 is configured such that the supply amount of the microbubble cleaning liquid 2 is relatively larger than the supply amount of the first cleaning liquid 3a and the supply amount of the second cleaning liquid 3b. The microbubble supply unit 400 and the cleaning liquid supply unit ( 500) can be controlled.

Then, the control unit 700 sets half of the total cleaning solution supply amount as the supply amount of the microbubble cleaning solution 2 based on the total cleaning solution supply amount that is the sum of the supply amounts of the microbubble cleaning liquid 2 and the first and second cleaning liquids 3a and 3b and the remaining half of the total cleaning liquid supply amount may be set as the supply amount of the first and second cleaning liquids 3a and 3b.

Also, the controller 700 may control the cleaning liquid supply unit 500 such that the supply amount of the first cleaning liquid 3a is relatively larger than the supply amount of the second cleaning liquid 3b.

And the control unit 700 is configured such that the ratio of the supply amount of the first cleaning liquid 3a to the supply amount of the second cleaning liquid 3b becomes one of 6:4, 7:3, 8:2, and 9:1, the cleaning liquid supply unit ( 500) can be controlled.

In addition, the controller 700 may control the pump 600 such that the amount of the mixed cleaning solution supplied to the microphone bubble supply unit 400 is relatively larger than the amount of the mixed cleaning solution supplied to the cleaning liquid supply unit 500 .

And the control unit 700, the ratio of the mixed cleaning liquid supply amount to the microphone bubble supply unit 400 and the mixed cleaning liquid supply amount to the cleaning liquid supply unit 500 is one of 6:4, 7:3, 8:2, 9:1 As much as possible, the pump 600 may be controlled.

In addition, the scrubber having an air bubble cleaning device according to an embodiment of the present invention is installed spaced apart from the upper side of the second cleaning liquid spraying unit 300-3, and the aqueous gas (1) and the microbubble cleaning liquid (2), the first , 2 washing liquids (3a, 3b) meet to separate the generated micro-droplet separation unit 800; may further include.

And the scrubber having an air bubble cleaning device according to an embodiment of the present invention is a closed or open water-soluble gas to guide the water-soluble gas (1) to move toward the scrubber (200) or to provide a bypass of the water-soluble gas (1). The water-soluble gas bypass unit 900 provided with the bypass means 910; may further include.

In addition, the scrubber having the air bubble cleaning device according to the embodiment of the present invention is opened to prevent the soluble gas 1 from moving toward the scrubber 200 or the mixed cleaning solution from flowing back toward the engine 100 . Or the washing liquid backflow prevention unit 120 to be closed; may further include.

According to an embodiment of the present invention, the aqueous gas introduced into the scrubber can be efficiently cleaned by washing the aqueous gas through the microbubble cleaning liquid and the first and second cleaning liquids one or more times.

And according to an embodiment of the present invention, an inner wall that divides the main body of the cleaning unit to which one of the microbubble cleaning liquid and the first and second cleaning liquids are supplied is installed to prevent oversupply of one of the microbubble cleaning liquid and the first and second cleaning liquids By doing so, the water-soluble gas cleaning process can proceed smoothly.

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 to which the present invention belongs from the following description. will be able

1 is a schematic diagram of a scrubber having an air bubble cleaning device according to an embodiment of the present invention for performing a water-soluble gas cleaning process.
2 is a perspective view of a microbubble cleaning unit.
3 is a block diagram illustrating a detailed configuration of a microbubble supply unit.
4 is a block diagram illustrating a detailed configuration of a cleaning solution supply unit.
5 is a schematic view showing a microbubble cleaning liquid supply method of the microbubble cleaning unit.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the present invention. However, since the description of the present invention is only an embodiment for structural or functional description, the right (the scope of the present invention) should not be construed as being limited by the embodiment described in the text. That is, the embodiment is subject to various changes Since this is possible and can have various forms, it should be understood that the scope of the present invention includes equivalents that can realize the technical idea.In addition, the object or effect presented in the present invention must be included in all of the specific embodiments or It is not meant to include only such effects, so the scope of the present invention should not be construed as being limited thereby.

The meaning of the terms described in the present invention should be understood as follows.

Terms such as “first” and “second” are for distinguishing one component from another, and the scope of rights should not be limited by these terms. For example, a first component may be termed a second component, and similarly, a second component may also be termed a first component. When a component is referred to as being “connected” to another component, it may be directly connected to the other component, but it should be understood that other components may exist in between. On the other hand, when it is mentioned that a certain element is "directly connected" to another element, it should be understood that the other element does not exist in the middle. Meanwhile, other expressions describing the relationship between elements, that is, “between” and “immediately between” or “neighboring to” and “directly adjacent to”, etc., should be interpreted similarly.

The singular expression is to be understood as including the plural expression unless the context clearly dictates otherwise, and terms such as "comprises" or "have" refer to the described feature, number, step, action, component, part or these It is intended to indicate that a combination exists, and it should be understood that it does not preclude the possibility of the existence or addition of one or more other features or numbers, steps, operations, components, parts, or combinations thereof.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Terms defined in the dictionary should be interpreted as being consistent with the meaning of the context of the related art, and cannot be interpreted as having an ideal or excessively formal meaning unless explicitly defined in the present invention.

Hereinafter, a scrubber having an air bubble cleaning device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a scrubber having an air bubble cleaning apparatus according to an embodiment of the present invention for performing a water-soluble gas cleaning process, FIG. 2 is a perspective view of a cleaning unit, and FIG. 3 is a block showing the detailed configuration of a microbubble supply unit 4 is a block diagram illustrating a detailed configuration of the cleaning liquid supply unit, and FIG. 5 is a schematic diagram illustrating a microbubble cleaning liquid supply method of the first cleaning liquid spraying unit.

Referring to FIG. 1, the scrubber having an air bubble cleaning device according to an embodiment of the present invention uses a microbubble cleaning liquid 2, a first cleaning liquid 3a, and a second cleaning liquid 3b to use an aqueous gas (1) As an apparatus for cleaning the engine 100 , the scrubber 200 , the cleaning unit 300 . It is configured to include a microbubble supply unit 400 , a cleaning solution supply unit 500 , a pump 600 , a control unit 700 , a water separation unit 800 , and an aqueous gas bypass unit 900 .

The engine 100 may be, for example, an engine of a ship, and may include a main engine (eg, a propulsion low-speed engine) and a sub-engine (eg, a generator engine) of the ship, and a water-soluble gas (1 ) is created. This engine 100 is connected to one side of the first water-soluble gas movement conduit (110a) included in the water-soluble gas movement conduit (110). Here, the water-soluble gas 1 may contain harmful substances such as sulfur oxide (SOx), and the engine 100 may be replaced with a manufacturing facility for performing a semiconductor manufacturing process.

The water-soluble gas movement conduit 110 is a configuration for moving the water-soluble gas 1 generated from the engine 100 to the scrubber 200, and the first water-soluble gas movement conduit 110a and one side of the first water-soluble gas move It is made of a second water-soluble gas moving conduit 110b communicating with the other side of the conduit 110a, and is configured to include a cleaning liquid backflow prevention means 120 .

The cleaning liquid backflow prevention means 120 is opened so that the aqueous gas 1 moves toward the scrubber 200 when the cleaning liquid backflow prevention system is operated by the control unit 700 , and otherwise, the operation of the cleaning liquid backflow prevention system is stopped In this case, the microbubble cleaning liquid 2 sprayed to the lower part of the scrubber 200 and the mixed cleaning liquid of the first and second cleaning liquids 3a and 3b are closed to prevent a backflow into the engine 100 .

The scrubber 200 is connected to the other side of the second water-soluble gas moving conduit 110b, and the water-soluble gas 1 is introduced into the inside through the connection, and the water-soluble gas 1 flows and the clean gas 4 is discharged. provide a path And inside the scrubber 200, a cleaning unit 300 and a water separation unit 800 are installed, and the microbubble cleaning liquid 2 and the first and second cleaning liquids 3a and 3b are mixed in the lower portion for discharging the cleaning liquid. A discharge port (not shown) and a discharge pipe are installed.

The cleaning unit 300 is installed on the upper side of the scrubber 200, is operated by the control unit 700, and when the aqueous gas 1 is introduced into the scrubber 200, the microbubble cleaning solution 2, the first, 2 The water-soluble gas (1) is washed by spraying the cleaning liquid (3a, 3b). To this end, the cleaning unit 300 is configured to include a microbubble cleaning unit 300-1, a first cleaning liquid spraying unit 300-2, and a second cleaning liquid spraying unit 300-3.

The microbubble cleaning unit 300-1 is connected to the microbubble supply unit 400, receives the microbubble cleaning liquid 2 from the microbubble supply unit 400, and faces the microbubble cleaning liquid 2 toward the lower side of the scrubber 200. ) to first clean the aqueous gas (1) flowing into the scrubber 200 by spraying.

Furthermore, as shown in FIG. 2 , the microbubble cleaning unit 300-1 includes a first jetting member 310 , a second jetting member 320 , a cleaning unit body 330 and an inner wall 340 . configured to do

The first spray member 310 is formed to extend in a plurality of directions from the cleaning unit body 330 in the first direction, and the microbubble cleaning liquid 2 flowing into the cleaning unit body 330 is applied to the lower side of the scrubber 200 . A first injection port (not shown) for injection toward the direction is formed.

The second spraying member 320 is formed to extend from the cleaning unit main body 330 in a plurality of second directions opposite to the first direction, which is the extension direction of the first spraying member 310 , the first spraying member 310 . and a second injection port (not shown) for spraying the microbubble cleaning liquid 2 flowing into the interior of the cleaning unit body 330 toward the lower side of the scrubber 200 is formed.

Both sides of the cleaning unit body 330 are opened to receive the microbubble cleaning solution 2 from the microbubble supply unit 400 , and both open sides are connected to the microbubble supply unit 400 .

The inner wall 340 is installed inside the cleaning unit main body 330 and divides the cleaning unit main body 330 into a first cleaning liquid spraying unit body 330a and a second cleaning liquid spraying unit body 330b. And through the bifurcation of the cleaning unit body 330 as described above, the cleaning unit body 330 does not oversupply the microbubble cleaning liquid 2 supplied to both sides to either side as shown in FIG. 5 . .

Meanwhile, the first spray member 310 , the second spray member 320 , the cleaning unit body 330 , and the inner wall 340 have been described as the configuration of the microbubble cleaning unit 300-1 for convenience of explanation, but water-soluble It may be understood that the first cleaning liquid spraying part 300-2 and the second cleaning liquid spraying part 300-3, which are other components for cleaning the gas 1, are also configured in the same way.

The first cleaning liquid spraying unit 300-2 is installed on the upper side of the scrubber 200 than the microbubble cleaning unit 300-1, is spaced apart from the microbubble cleaning unit 300-1, and is separated from the cleaning liquid supply unit 500. The first cleaning liquid 3a is supplied from the cleaning liquid supply unit 500 through the connection, and the first cleaning liquid 3a is sprayed toward the lower side of the scrubber 200. The aqueous gas that is first cleaned by the microbubble cleaning liquid 2 ( 1) is washed a second time.

The second cleaning liquid spraying part 300-3 is installed above the scrubber 200 rather than the first cleaning liquid spraying part 300-2, and is spaced apart from the first cleaning liquid spraying part 300-2, and the cleaning liquid supplying part 500 ) receives the second cleaning liquid 3b from the cleaning liquid supply unit 500 and sprays the second cleaning liquid 3b toward the lower side of the scrubber 200 through the connection with the first cleaning liquid 3a. The gas (1) is washed tertiarily.

3 and 5 , the microbubble supply unit 400 generates a microbubble cleaning liquid 2 through a reaction between the cleaning liquid 3 and ozone gas, and the microbubble cleaning liquid is supplied to the microbubble cleaning unit 300-1. It is configured to include a first microbubble supply unit 410 and a second microbubble supply unit 420 to supply (2).

Furthermore, the microbubble supply unit 400 may be provided with a demister that neutralizes the ozone gas by removing moisture above the saturation concentration contained in the ozone gas before the reaction between the cleaning solutions 3 .

The first microbubble supply unit 410 is connected to the first cleaning liquid spraying unit main body 330a bisected by the inner wall 340 to supply the microbubble cleaning liquid 2 inside the first cleaning liquid spraying unit main body 330a. supply Here, the microbubble cleaning liquid 2 may be understood as the first microbubble cleaning liquid 2a supplied to the inside of the first cleaning liquid spraying unit body 330a.

The second microbubble supply unit 420 is connected to the second cleaning liquid spraying unit main body 330b bisected by the inner wall 340 to inject the microbubble cleaning liquid 2 into the second cleaning liquid spraying unit main body 330b. supply Here, the microbubble cleaning liquid 2 may be understood as the second microbubble cleaning liquid 2b supplied to the inside of the second cleaning liquid spraying unit body 330b.

Referring to FIG. 4 , the cleaning liquid supply unit 500 uses the cleaning liquid 3 alone, but the first cleaning liquid 3a and the second cleaning liquid to supply the cleaning liquid 3 to the first cleaning liquid spraying unit 300-2. divided into the second cleaning liquid 3b to be supplied to the master 300-3, the first cleaning liquid 3a to the first cleaning liquid spraying unit 300-2, and the second cleaning liquid 3a to the second cleaning liquid spraying unit 300-3 ( 3b) is configured to include a first cleaning liquid supply unit 510 and a second cleaning liquid supply unit 520 to supply.

The first cleaning liquid supply unit 510 is connected to the first cleaning liquid spraying unit main body 330a bisected by the inner wall 340 , and is inserted into the first cleaning liquid spraying unit body 330a with the first cleaning liquid 3a or the first cleaning liquid 3a 2 The cleaning liquid 3b is supplied.

The second cleaning liquid supply unit 520 is connected to the second cleaning liquid spraying unit main body 330b bisected by the inner wall 340 , and is inserted into the second cleaning liquid spraying unit body 330b with the first cleaning liquid 3a or the first cleaning liquid 3a or the second cleaning liquid spraying unit body 330b. 2 The cleaning liquid 3b is supplied.

Referring back to FIG. 1, the pump 600 is installed in the discharge pipe connected to the outlet (not shown) of the scrubber 200, and is operated by the control unit 700 to discharge the microbubble cleaning solution to the lower side of the scrubber 200 ( 2), The mixed cleaning solution of the first and second cleaning solutions 3a and 3b is supplied to the first and second microbubble supply units 410 and 420 and the first and second cleaning solution supply units 510 and 520, respectively.

The control unit 700 is connected to the microbubble supply unit 400, the cleaning solution supply unit 500, and the pump 600 through a wireless or wired method, and through this, the microbubble cleaning solution of the first and second microbubble supply units 410 and 420 (2) The supply amount, the supply amount of the first and second cleaning liquids 3a and 3b of the first and second cleaning liquid supply units 510 and 520 , and the mixed cleaning liquid supply amount of the pump 600 are controlled.

Here, the supply amount of the microbubble cleaning liquid 2 of the first and second microbubble supply units 410 and 420 controlled by the controller 700 is the amount of the microbubble cleaning liquid 2 supplied to the inside of the cleaning unit main body 330 . Meaning, the supply amount of the first and second cleaning liquids 3a and 3b of the first and second cleaning liquid supply units 510 and 520 is the supply amount of the first and second cleaning liquids 3a and 3b supplied to the inside of the cleaning unit body 330 . , and the mixed cleaning solution supply amount of the pump 600 is the supply amount of the mixed cleaning solution supplied to the first and second microbubble supply units 410 and 420 and the first and second cleaning solution supply units 510 and 520 through the pump 600 . means

Furthermore, the control unit 700 controls the microbubble cleaning liquid 2 supply amount of the first and second microbubble supply units 410 and 420 and the first and second cleaning liquid 3a and 3b of the first and second cleaning liquid supply units 510 and 520. ) with different supply amounts, the first and second microbubble supply units 410 and 420 supply the microbubble cleaning liquid 2 to be relatively larger than the supply amount of the first cleaning liquid 3a and the second cleaning liquid 3b. , 2 microbubble supply units 410 and 420 and the first and second cleaning liquid supply units 510 and 520 can be controlled.

As a specific example, the control unit 700 controls half of the total cleaning liquid supply amount based on the total cleaning liquid supply amount that is the sum of the supply amounts of the microbubble cleaning liquid 2, the first cleaning liquid 3a, and the second cleaning liquid 3b to the first and second micro It is set as the supply amount of the microbubble cleaning liquid 2 of the bubble supply units 410 and 420, and the remaining half of the total cleaning liquid supply amount is the supply amount of the first and second cleaning liquids 3a and 3b of the first and second cleaning liquid supply units 510 and 520. can be set. However, the supply amount setting method of the control unit 700 is not limited as an example of setting the supply amount of the microbubble cleaning liquid 2 and the first and second cleaning liquids 3a and 3b, and the supply amount of the microbubble cleaning liquid 2 and the first, The supply amount of the second cleaning liquids 3a and 3b may be the same, or the supply amount of the first and second cleaning liquids 3a and 3b may be set to be relatively large, contrary to the above example.

In addition, the control unit 700 controls the first and second cleaning liquid supply units so that the supply amount of the first cleaning liquid 3a of the first cleaning liquid supply unit 510 is relatively greater than the supply amount of the second cleaning liquid 3b of the second cleaning liquid supply unit 520 . (510, 520) can be controlled. Here, controlling the supply amount of the first cleaning liquid 3a to be relatively larger than the supply amount of the second cleaning liquid 3b means that the secondary cleaning efficiency of the aqueous gas 1 formed by the first cleaning liquid spraying unit 300-2 is increased. This is to make it relatively superior to the tertiary cleaning efficiency of the aqueous gas 1 formed by the second cleaning liquid spraying unit 300-3, and the first and second cleaning liquids of the first and second cleaning liquid supply units 510 and 520 ( The total supply amount of 3a and 3b) may be half of the total cleaning liquid supply amount, as described above.

As a specific example, the controller 700 determines that the ratio of the supply amount of the first cleaning liquid 3a of the first cleaning liquid supply unit 510 to the supply amount of the second cleaning liquid 3b of the second cleaning liquid supply unit 520 is 6:4 and 7:3. , 8:2 and 9:1 (preferably, 6:4), the first and second cleaning solution supply units 510 and 520 may be controlled. However, the supply ratio setting method of the control unit 700 is not limited as an example of setting the supply ratio of the first and second cleaning liquids 3a and 3b, and the supply between the first cleaning liquid 3a and the second cleaning liquid 3b is not limited. The ratio may be the same or, contrary to the above example, the supply amount of the second cleaning liquid 3b may be set to be relatively larger than the supply amount of the first cleaning liquid 3a.

And the control unit 700 so that the supply amount of the mixed cleaning liquid supplied to the first and second microbubble supply units 410 and 420 is relatively larger than the supply amount of the mixed cleaning liquid supplied to the first and second cleaning liquid supply units 510 and 520, The pump 600 may be controlled. Here, controlling the mixed cleaning solution supply amount of the first and second microbubble supply units 410 and 420 to be relatively larger than the mixed cleaning solution supply amount of the first and second cleaning liquid supply units 510 and 520 is the first and second cleaning solution supply unit ( The first and second microbubble supply units 410 and 420, which require a relatively larger supply amount than 510 and 520, generate a cleaning solution through the processing of the mixed cleaning solution, and then combine the cleaning solution and the additionally added cleaning solution with ozone gas. This is to save the amount of cleaning solution additionally added in the process of generating the microbubble cleaning solution 2 through the

As a specific example, the controller 700 controls the ratio of the supply amount of the mixed cleaning liquid supplied to the first and second microbubble supply units 410 and 420 to the supply amount of the mixed cleaning liquid supplied to the first and second cleaning liquid supply units 510 and 520 . The pump 600 may be controlled to be one of 6:4, 7:3, 8:2, and 9:1 (preferably, 7:3). However, as an example of setting the supply ratio of the mixed cleaning solution, the method of setting the mixing cleaning solution supply ratio of the control unit 700 is not limited, and the first and second microbubble supply units 410 and 420 and the first and second cleaning solution supply units 510, 520) is the same, or, contrary to the above example, the mixed cleaning liquid supply amount of the first and second cleaning liquid supply units 510 and 520 is greater than the mixed cleaning liquid supply amount of the first and second microbubble supply units 410 and 420 . can be set.

Furthermore, the control unit 700 is connected to the washing liquid backflow prevention means 120 and the aqueous gas bypass means 910 to be described later through a wireless or wired method, and through the connection, the backflow prevention means 120 and the aqueous gas bypass means The pass means 910 is controlled.

The radix separation unit 800 is installed spaced apart from the upper side of the second cleaning liquid injection unit 300-3, and the water-soluble gas 1 and the microbubble cleaning unit 300- moving upward along the internal path of the scrubber 200 1), the microbubble cleaning liquid 2 sprayed from the first cleaning liquid spraying part 300-2 and the second cleaning liquid spraying part 300-3, and the first and second cleaning liquids 3a and 3b meet to create a micro liquid The enemy is separated from the clean gas (4).

On the other hand, the micro-droplets accumulated in the water separation unit 800 may be removed by the second cleaning liquid spray unit 300 - 3 . As a specific example, in the third cleaning liquid spraying unit 300-3, the first spraying member 310 and the second spraying member 320 are rotated by the controller 700 so that the spraying port faces the upper side of the scrubber 200, , by spraying the air supplied to the inside of the cleaning unit main body 330 through the air injection unit (not shown), it is possible to remove the fine droplets of the water separation unit 800 .

The aqueous gas bypass unit 900 communicates with the first and second aqueous gas transfer conduits 110a and 110b, and is configured to include an aqueous gas bypass means 910 to control the flow of the aqueous gas 1 . .

The aqueous gas bypass means 910 is closed when the operation of the cleaning liquid backflow prevention system is stopped and is opened to induce the aqueous gas 1 to move toward the scrubber 200, otherwise the cleaning liquid backflow prevention system is operated If it is, it is opened to provide a bypass of the aqueous gas (1).

Furthermore, the aqueous gas bypass means 910 may be operated in connection with the cleaning liquid backflow prevention means 120 . As a specific example, when the operation of the cleaning liquid backflow prevention system is stopped, the aqueous gas bypass means 910 is opened, and the cleaning liquid backflow prevention means 120 is closed so that the mixed cleaning liquid under the scrubber 200 is transferred to the engine 100 The water-soluble gas 1 is moved along the detour while preventing the backflow into the evaporator. Otherwise, when the cleaning liquid backflow prevention system is operated, the aqueous gas bypass means 910 is closed, but the cleaning liquid backflow prevention means 120 is It may be opened so that the water-soluble gas 1 is introduced into the scrubber 200 .

The detailed description of the preferred embodiments of the present invention disclosed as described above is provided to enable any person skilled in the art to make and practice the present invention. Although the above has been described with reference to preferred embodiments of the present invention, it will be understood by those skilled in the art that various modifications and changes can be made to the present invention without departing from the scope of the present invention. For example, a person skilled in the art may use each configuration described in the above-described embodiments in a way that is combined with each other. Accordingly, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

The present invention may be embodied in other specific forms without departing from the spirit and essential characteristics of the present invention. Accordingly, the above detailed description should not be construed as restrictive in all respects but as exemplary. The scope of the present invention should be determined by a reasonable interpretation of the appended claims, and all modifications within the equivalent scope of the present invention are included in the scope of the present invention. The present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein. In addition, claims that are not explicitly cited in the claims may be combined to form an embodiment or may be included as a new claim by amendment after filing.

1: water-soluble gas,
2: microbubble cleaning solution,
3: cleaning solution,
4: Clean gas,
100: engine,
110: water-soluble gas transfer conduit,
120: cleaning liquid backflow prevention means,
200: scrubber,
300: cleaning unit,
300-1: microbubble cleaning unit;
300-2: a first cleaning liquid spraying unit;
300-3: a second cleaning liquid spraying unit;
400: microbubble supply,
410: a first microbubble supply unit,
420: a second microbubble supply unit,
500: cleaning solution supply unit,
510: a first cleaning solution supply unit;
520: a second cleaning solution supply unit;
600: pump,
700: control unit;
800: radix separation unit,
900: water-soluble gas bypass unit,
910: aqueous gas bypass means.

Claims (11)

The water-soluble gas (1) generated from the engine 100 is introduced therein, and the scrubber 200 provides a flow of the water-soluble gas (1) and a discharge path of the clean gas (4);
When the water-soluble gas 1 is introduced into the scrubber 200, the microbubble cleaning unit 300-1 sprays the microbubble cleaning liquid 2 toward the lower side of the scrubber 200 and the microbubble cleaning unit 300-1. The first and second cleaning liquid spraying units 300-2 and 300-3 that are installed spaced apart from the upper side of the government 300-1 and spray the first and second cleaning liquids 3a and 3b toward the lower side of the scrubber 200. ) is provided with a cleaning unit 300;
a microbubble supply unit 400 for supplying the microbubble cleaning solution 2 to the microbubble cleaning unit 300-1;
The first cleaning liquid 3a to the first cleaning liquid spraying part 300-2 and the second cleaning liquid 3b to the second cleaning liquid spraying part 300-3 are respectively supplied, and the microbubble cleaning liquid 2 ) and a cleaning solution supply unit 500 with a different supply amount;
A pump that supplies the microbubble cleaning liquid 2 discharged to the lower side of the scrubber 200 and the mixed cleaning liquid of the first and second cleaning liquids 3a and 3b to the microbubble supply unit 400 and the cleaning liquid supply unit 500, respectively. (600); and
The amount of the microbubble cleaning liquid 2 supplied to the microbubble cleaning unit 300-1, the first and second cleaning liquids 3a to the first and second cleaning liquid spraying units 300-2 and 300-3, 3b), a control unit 700 for controlling the supply amount of the mixed cleaning liquid to the microbubble cleaning unit 300-1 and the first and second cleaning liquid spraying units 300-2 and 300-3; and ,
The microbubble cleaning unit 300-1 and the first and second cleaning liquid spraying units 300-2 and 300-3 are,
The cleaning unit body with both sides open so that one of the microbubble cleaning liquid 2 and the first and second cleaning liquids 3a and 3b is supplied to both sides through the microbubble supply unit 400 or the cleaning liquid supply unit 500 . (330);
Spraying one of the microbubble cleaning liquid 2 and the first and second cleaning liquids 3a and 3b extending in the first direction from the cleaning unit body 330 and flowing into the cleaning unit body 330 . a plurality of first injection members 310 formed with injection holes for;
The microbubbles extending from the cleaning unit body 330 in a second direction opposite to the first direction are alternately disposed with the first spraying members 310 and flowing into the cleaning unit body 330 . a plurality of second spraying members 320 having spray holes for spraying one of the cleaning liquid 2 and the first and second cleaning liquids 3a and 3b; and
The microbubble cleaning liquid (2), first and second cleaning liquids installed inside the cleaning unit main body 330, bisecting the inside of the cleaning unit main body 330, and supplied to both sides of the cleaning unit main body 330 (3a, 3b) one of the inner wall 340 to prevent oversupply to either side; scrubber having an air bubble cleaning device comprising a. delete The method of claim 1,
The control unit 700,
The microbubble supply unit 400 and the cleaning liquid supply unit 500 are connected so that the supply amount of the microbubble cleaning liquid 2 is relatively larger than the supply amount of the first cleaning liquid 3a and the supply amount of the second cleaning liquid 3b. A scrubber having an air bubble cleaning device, characterized in that it controls. 4. The method of claim 3,
The control unit 700,
Based on the total supply amount of the cleaning liquid that is the sum of the supply amounts of the microbubble cleaning liquid 2 and the first and second cleaning liquids 3a and 3b, half of the total cleaning liquid supply is set as the supply amount of the microbubble cleaning liquid 2, and the remaining A scrubber with an air bubble cleaning device, characterized in that half of the total cleaning liquid supply amount is set to the supply amount of the first and second cleaning liquids (3a, 3b). 5. The method of claim 4,
The control unit 700,
A scrubber with an air bubble cleaning device, characterized in that the cleaning liquid supply unit (500) is controlled so that the supply amount of the first cleaning liquid (3a) is relatively larger than the supply amount of the second cleaning liquid (3b). 6. The method of claim 5,
The control unit 700,
The cleaning liquid supply unit 500 is controlled so that the ratio of the supply amount of the first cleaning liquid 3a to the supply amount of the second cleaning liquid 3b is one of 6:4, 7:3, 8:2, and 9:1. A scrubber having an air bubble cleaning device, characterized in that. The method of claim 1,
The control unit 700,
An air bubble cleaning device characterized in that the pump 600 is controlled so that the mixed cleaning liquid supply amount to the microphone bubble supply unit 400 is relatively larger than the mixed cleaning liquid supply amount to the cleaning liquid supply unit 500 . one scrubber. 8. The method of claim 7,
The control unit 700,
so that the ratio of the mixed cleaning liquid supply amount to the microphone bubble supply unit 400 and the mixed cleaning liquid supply amount to the cleaning liquid supply unit 500 becomes one of 6:4, 7:3, 8:2, and 9:1, A scrubber having an air bubble cleaning device, characterized in that for controlling the pump (600). The method of claim 1,
It is installed at an upper side of the second cleaning liquid spraying part 300-3, and the water-soluble gas 1, the microbubble cleaning liquid 2, and the first and second cleaning liquids 3a and 3b meet to create a micro liquid A scrubber having an air bubble cleaning device, characterized in that it further comprises; a radix separation unit 800 for separating the enemy. The method of claim 1,
A water-soluble gas bypass unit provided with a water-soluble gas bypass means 910 that is closed or opened to guide the water-soluble gas 1 to move toward the scrubber 200 or provide a bypass of the water-soluble gas 1 . (900); Scrubber having an air bubble cleaning device, characterized in that it further comprises. The method of claim 1,
A cleaning liquid backflow prevention unit 120 that is opened or closed to induce the water-soluble gas 1 to move toward the scrubber 200 or prevent the mixed cleaning liquid from flowing back toward the engine 100; A scrubber having an air bubble cleaning device, characterized in that.

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