KR20210051816A - Pollution abating apparatus - Google Patents

Abstract

A pollutant reducing device is provided. The pollutant reducing device includes: a scrubber for removing pollutants from exhaust gas by spraying washing water into the exhaust gas; a gas inlet pipe providing a transport path for supplying the exhaust gas to the scrubber; a gas inlet valve for opening and closing the gas inlet pipe; a gas outlet pipe branching from the gas inlet pipe to provide a transport path for discharging the exhaust gas; and a gas outlet valve for opening and closing the gas outlet pipe, wherein the gas inlet valve and the gas outlet valve can be opened and closed by the washing water discharged from the scrubber.

Description

Pollution abating apparatus

The present invention relates to an apparatus for reducing pollutants.

In general, ships use engines to generate propulsion. The propeller rotates with the engine's rotational force to generate propulsion. The engine can generate propulsion by using liquefied fuel or boil-off gas as fuel. The engine burns fuel to generate propulsion, and at this time, exhaust gas containing pollutants such as nitrogen oxides or sulfur oxides may be discharged.

In order to reduce pollutants, the ship may be equipped with a scrubber. The scrubber can remove pollutants from the exhaust gas with fresh or sea water. On the other hand, in order to prevent the scrubber from being corroded by seawater, the scrubber may be made of a corrosion-resistant material.

Republic of Korea Patent Publication No. 10-2018-01014966 (2018.09.27)

The problem to be solved by the present invention is to provide an apparatus for reducing pollutants that prevents damage to the scrubber by heat.

The problems of the present invention are not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, an aspect of the pollutant reduction apparatus of the present invention includes a scrubber for removing pollutants from the exhaust gas by spraying washing water into the exhaust gas, and supplying the exhaust gas to the scrubber. A gas inlet pipe providing a transport path for, a gas inlet valve for opening and closing the gas inlet pipe, a gas discharge pipe branching from the gas inlet pipe to provide a transport path for discharging the exhaust gas, and the gas discharge pipe. And a gas discharge valve that opens and closes, wherein the gas inlet valve and the gas discharge valve can be opened and closed by washing water discharged from the scrubber.

The gas discharge pipe is branched from the gas inlet pipe prior to the arrangement position of the gas inlet valve.

A washing water discharge pipe providing a transport path for discharging the washing water accommodated in the scrubber, and a path closing part for closing a transport path of the washing water discharge pipe, wherein the path closing part is melted at a temperature of a predetermined size or higher to clean the Open the water discharge pipe.

The gas inlet valve is operated by the pressure of the washing water discharged through the washing water discharge pipe to close the gas inlet pipe, and the gas discharge valve is operated by the pressure of the washing water discharged through the washing water discharge pipe. The gas discharge pipe is opened.

The gas inlet valve and the gas outlet valve connect the chamber disposed on the disconnected transport path of the gas inlet pipe or the gas outlet pipe, and the gas inlet pipe or the gas outlet pipe disconnected by moving inside the chamber. Each includes a connection control unit for disconnecting or disconnecting.

Details of other embodiments are included in the detailed description and drawings.

1 is a view showing an apparatus for reducing pollutants according to an embodiment of the present invention.
2 is a view showing the operation of the scrubber shown in FIG.
FIG. 3 is a diagram illustrating that exhaust gas is discharged through the gas discharge pipe shown in FIG. 1.
4 is a cross-sectional view of a gas inlet valve and a gas discharge valve shown in FIG. 1.
5 and 6 are views showing the operation of the gas inlet valve and the gas discharge valve shown in FIG. 4.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments to be posted below, but may be implemented in various different forms, and only these embodiments make the posting of the present invention complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same elements throughout the specification.

1 is a view showing an apparatus for reducing pollutants according to an embodiment of the present invention.

Referring to FIG. 1, the pollutant reduction device 10 includes a scrubber 100, a washing water supply pipe 200, a gas inlet pipe 300, a gas inlet valve 400, a gas discharge pipe 500, and a gas discharge valve ( 600), and a washing water discharge pipe 700 and a path closing portion 800.

Pollutant reduction device 10 according to an embodiment of the present invention may be provided on a ship (not shown). Exhaust gas EG (refer to FIG. 2) generated while the ship is operating may contain pollutants. The exhaust gas EG containing pollutants may be discharged to the outside after being cleaned by the pollutant reduction device 10.

The scrubber 100 serves to remove pollutants from the exhaust gas EG by spraying the washing water CW (refer to FIG. 2) to the exhaust gas EG. The scrubber 100 may provide a space for contact between the exhaust gas EG and the washing water CW. By contact between the exhaust gas EG and the washing water CW in the scrubber 100, contaminants of the exhaust gas EG are dissolved in the washing water CW and may be accommodated in the scrubber 100. The exhaust gas CG (see FIG. 2) from which the pollutants have been removed may be discharged through the gas discharge unit 110 provided in the scrubber 100. Washing water EW (refer to FIG. 2) containing contaminants may be removed from the scrubber 100 through a separate discharge means (not shown).

The washing water supply pipe 200 may provide a transport path for supplying the washing water CW to the scrubber 100. In the present invention, the washing water (CW) may be fresh water or sea water, or a mixture of fresh water and sea water. A washing water spraying part 210 may be provided at an end of the washing water supply pipe 200. The washing water spraying unit 210 may be provided inside the scrubber 100. Specifically, the washing water spraying unit 210 may be provided on the scrubber 100. The washing water spraying unit 210 may spray washing water CW. The washing water CW may be sprayed from the top to the bottom of the scrubber 100.

The gas inlet pipe 300 may provide a transport path for supplying the exhaust gas EG to the scrubber 100. The gas inlet pipe 300 is directly connected to an exhaust pipe (not shown) of a combustion engine (not shown), and the high-temperature exhaust gas (EG) directly moves or passes through various heat exchangers (not shown) to recycle most of the exhaust heat. It can be a passage for the remaining waste gas to move. Here, the combustion engine is a device that generates various types of power required for a ship by burning fuel, and may be formed of, for example, a main engine or a generator engine. The gas inlet pipe 300 may be connected to an exhaust pipe of one or more combustion engines, and one or more combustion engines may be selectively operated as needed. Since such a combustion engine generally generates power by burning fossil fuels, it generates exhaust gas EG according to combustion of fossil fuels. The generated exhaust gas EG contains a large amount of nitrogen oxides, sulfur oxides, and dust, and is supplied to the scrubber 100 through a gas inlet pipe 300 connected to one side of the combustion engine.

A gas injection hole 310 may be provided at one end of the gas inlet pipe 300 provided in the scrubber 100. For example, a plurality of gas injection holes 310 may be disposed along the length direction of the gas inlet pipe 300. The gas inlet pipe 300 provided with the gas injection hole 310 may be provided under the scrubber 100. The exhaust gas EG supplied to the scrubber 100 may be injected from the lower portion of the scrubber 100. Accordingly, the washing water CW sprayed from the top of the scrubber 100 and descending can easily contact the exhaust gas EG.

The gas inlet valve 400 serves to open and close the gas inlet pipe 300. When the gas inlet pipe 300 is opened by the gas inlet valve 400, the exhaust gas EG may be supplied to the scrubber 100. When the gas inlet pipe 300 is closed by the gas inlet valve 400, the supply of the exhaust gas EG to the scrubber 100 may be blocked.

The gas discharge pipe 500 may provide a transport path for discharging the exhaust gas EG. The exhaust gas (EG) is transported by the gas discharge pipe 500 may be discharged to the outside of the ship.

The gas discharge pipe 500 may be branched from the gas inlet pipe 300. Specifically, the gas discharge pipe 500 may be branched from the gas inlet pipe 300 before the arrangement position of the gas inlet valve 400. The exhaust gas EG moving through the exhaust pipe of the above-described combustion engine may be supplied to the scrubber 100 through the gas inlet pipe 300 or discharged to the outside of the ship through the gas discharge pipe 500.

The gas discharge valve 600 serves to open and close the gas discharge pipe 500. When the gas discharge pipe 500 is opened by the gas discharge valve 600, the exhaust gas EG may be discharged to the outside of the ship. When the gas discharge pipe 500 is closed by the gas discharge valve 600, the exhaust gas EG may be blocked from being discharged to the outside of the ship.

The washing water discharge pipe 700 may provide a transport path for discharging the washing water EW accommodated in the scrubber 100. For example, the washing water discharge pipe 700 may be connected to the lower surface of the scrubber 100. The washing water EW accommodated in the scrubber 100 may descend and be discharged through the washing water discharge pipe 700. The washing water EW accommodated in the scrubber 100 may contain contaminants since contact with the exhaust gas EG is completed.

The path closing part 800 serves to close the conveying path of the washing water discharge pipe 700. The path closing part 800 may be disposed on the conveying path of the washing water discharge pipe 700. When the transport path of the washing water discharge pipe 700 is closed by the path closing part 800, the reception of the washing water EW by the scrubber 100 may be maintained. Meanwhile, when the path closing part 800 is removed, the washing water EW accommodated in the scrubber 100 may be discharged through the washing water discharge pipe 700.

The path closing part 800 may be melted at a temperature of a predetermined size or higher to open the washing water discharge pipe 700. As the path closing part 800 that closes the washing water discharge pipe 700 is melted, the washing water discharge pipe 700 is opened, and the washing water (EW) accommodated in the scrubber 100 is discharged through the washing water discharge pipe 700 Can be.

The washing water discharge pipe 700 may be connected to the gas inlet valve 400 and the gas discharge valve 600. The washing water EW discharged through the washing water discharge pipe 700 may be supplied to the gas inlet valve 400 and the gas discharge valve 600. The gas inlet valve 400 and the gas discharge valve 600 may be opened and closed by the washing water EW discharged from the scrubber 100. Specifically, the gas inlet valve 400 may be operated by the pressure of the washing water EW discharged through the washing water discharge pipe 700 to close the gas inlet pipe 300. In addition, the gas discharge valve 600 may open the gas discharge pipe 500 by operating by the pressure of the washing water EW discharged through the washing water discharge pipe 700.

When the washing water (EW) is not discharged through the washing water discharge pipe 700, the gas inlet valve 400 opens the gas inlet pipe 300, and the gas discharge valve 600 closes the gas discharge pipe 500. I can. Accordingly, the exhaust gas EG of the combustion engine is supplied to the scrubber 100 through the gas inlet pipe 300 and discharged through the gas discharge pipe 500 may be blocked. On the other hand, when the washing water (EW) is discharged through the washing water discharge pipe 700, the gas inlet valve 400 closes the gas inlet pipe 300, and the gas discharge valve 600 opens the gas discharge pipe 500. can do. Accordingly, the exhaust gas EG of the combustion engine is blocked from being supplied to the scrubber 100 through the gas inlet pipe 300 and may be discharged through the gas discharge pipe 500.

The scrubber 100 according to the embodiment of the present invention may be formed of a corrosion-resistant non-metal material. The scrubber 100 made of a non-metallic material may be vulnerable to heat. In the scrubber 100, the exhaust gas EG may be cooled by the washing water CW. On the other hand, when the supply of the washing water (CW) from the scrubber 100 is not performed smoothly or when the supply of exhaust gas (EG) having an abnormal temperature or amount is performed, the temperature inside the scrubber 100 increases, and the scrubber 100 ) Can be damaged.

When the temperature inside the scrubber 100 is higher than the melting point of the path closing part 800, the path closing part 800 is melted to open the washing water discharge pipe 700. Accordingly, the gas inlet pipe 300 may be closed by the operation of the gas inlet valve 400 and the supply of the exhaust gas EG to the scrubber 100 may be blocked. In addition, the gas discharge pipe 500 is opened by the operation of the gas discharge valve 600, and the exhaust gas EG may be discharged to the outside of the ship.

As the exhaust gas EG is not supplied to the scrubber 100 but is discharged as it is, damage to the scrubber 100 may be prevented.

2 is a view showing the operation of the scrubber shown in FIG. 1, and FIG. 3 is a view showing exhaust gas being discharged through the gas discharge pipe shown in FIG.

Referring to FIG. 2, the scrubber 100 may reduce pollutants included in the exhaust gas EG.

The exhaust gas EG of the combustion engine may be supplied to the scrubber 100 through the gas inlet pipe 300. The gas inlet valve 400 may open the gas inlet pipe 300, and the gas outlet valve 600 may close the gas outlet pipe 500. Accordingly, the exhaust gas EG may be supplied to the scrubber 100 through the gas inlet pipe 300 and may be blocked from being discharged to the outside through the gas discharge pipe 500.

The washing water supply pipe 200 may supply washing water CW to the scrubber 100. The supplied washing water CW may be injected as exhaust gas EG. As the washing water CW comes into contact with the exhaust gas EG, the pollutants of the exhaust gas EG are dissolved in the washing water CW and may be accommodated in the scrubber 100. The exhaust gas (CG) from which the pollutants have been removed may be discharged to the outside of the ship through the gas discharge unit 110.

Referring to FIG. 3, the gas discharge pipe 500 may discharge exhaust gas EG to the outside of the ship.

When the temperature inside the scrubber 100 rises and the path closing part 800 is melted, the washing water discharge pipe 700 may be opened. As the washing water discharge pipe 700 is opened, the washing water EW may be supplied to the gas inlet valve 400 and the gas discharge valve 600. The gas inlet valve 400 may be operated by the washing water EW to close the gas inlet pipe 300. In addition, the gas discharge valve 600 may open the gas discharge pipe 500 by operating by the washing water EW.

The exhaust gas EG of the combustion engine is blocked from being supplied to the scrubber 100 and may be discharged to the outside of the ship through the gas discharge pipe 500.

4 is a cross-sectional view of the gas inlet valve and the gas discharge valve shown in FIG. 1, and FIGS. 5 and 6 are views showing the operation of the gas inlet valve and the gas discharge valve shown in FIG. 4.

Referring to FIG. 4, the gas inlet valve 400 and the gas discharge valve 600 may include chambers 410 and 610, pressure transfer units 420 and 620, and connection control units 430 and 630, respectively. .

The chambers 410 and 610 may be connected to the washing water discharge pipe 700. The washing water discharge pipe 700 may be branched into a gas inlet valve 400 and a gas discharge valve 600. Hereinafter, the pipes branched from the washing water discharge pipe 700 are referred to as washing water branch pipes 710 and 720.

The chambers 410 and 610 may be disposed on a disconnected transport path of the gas inlet pipe 300 or the gas discharge pipe 500. The gas inlet pipe 300 or the gas outlet pipe 500 may be disconnected, and chambers 410 and 610 may be provided therebetween.

Connection control units 430 and 630 may be provided in the chambers 410 and 610. The connection control units 430 and 630 may move inside the chambers 410 and 610 to connect or disconnect the disconnected gas inlet pipe 300 or the gas discharge pipe 500.

The connection control units 430 and 630 may include connection pipes 431 and 631 and connection blocking units 432 and 632. The connection pipes 431 and 631 may connect the disconnected gas inlet pipe 300 or the gas discharge pipe 500. When the connection pipes 431 and 631 connect the gas inlet pipe 300 or the gas discharge pipe 500, the exhaust gas EG may be moved through the gas inlet pipe 300 or the gas discharge pipe 500. .

The connection blocking portions 432 and 632 may block the movement of the exhaust gas EG through the disconnected portion of the gas inlet pipe 300 or the gas discharge pipe 500. The disconnected opening of the gas inlet pipe 300 or the gas outlet pipe 500 may be connected to the chambers 410 and 610. The connection blocking portions 432 and 632 may block the movement of the exhaust gas EG by closing the disconnected opening of the gas inlet pipe 300 or the gas discharge pipe 500.

The connection adjustment parts 430 and 630 may be connected to the elastic parts 440 and 640. The elastic parts 440 and 640 may exert an elastic force on the connection adjustment parts 430 and 630. In a state in which the washing water (EW) is not supplied, the elastic parts 440 and 640 are in a direction in which the connection control parts 430 and 630 connect the gas inlet pipe 300 and disconnect the gas discharge pipe 500. Elastic force can be applied.

The pressure transmission units 420 and 620 serve to transmit the pressure of the washing water EW to the connection control units 430 and 630. The pressure transmission units 420 and 620 may be provided inside the washing water branch pipes 710 and 720 branched from the washing water discharge pipe 700. The washing water EW discharged through the washing water discharge pipe 700 may flow into the washing water branch pipes 710 and 720 to pressurize the pressure transmission units 420 and 620. The gas inlet pipe 300 may be closed and the gas outlet pipe 500 may be opened while the connection control units 430 and 630 are moved by the pressure transmitted to the pressure transmitting units 420 and 620.

Referring to FIG. 5, when the washing water EW is not discharged through the washing water discharge pipe 700, the gas inlet valve 400 may open the gas inlet pipe 300. In this case, the gas discharge valve 600 may close the gas discharge pipe 500. The exhaust gas EG of the combustion engine moves only through the gas inlet pipe 300, and movement through the gas discharge pipe 500 may be blocked.

Referring to FIG. 6, the washing water EW discharged through the washing water discharge pipe 700 may pressurize the pressure transmission units 420 and 620 in the washing water branch pipes 710 and 720. The pressure transfer units 420 and 620 move by the pressure of the cleaning unit, and the connection control units 430 and 630 connected to the pressure transfer units 420 and 620 may move. The connection control units 430 and 630 may disconnect the gas inlet pipe 300 and connect the gas discharge pipe 500. The exhaust gas EG of the combustion engine moves only through the gas discharge pipe 500, and movement through the gas inlet pipe 300 may be blocked.

Although the embodiments of the present invention have been described with reference to the above and the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. You can understand that there is. Therefore, it should be understood that the embodiments described above are illustrative in all respects and are not limiting.

10: pollutant reduction device 100: scrubber
110: gas discharge unit 200: washing water supply pipe
210: washing water injection unit 300: gas inlet pipe
400: gas inlet valve 410, 610: chamber
420, 620: pressure transmission unit 430, 630: connection control unit
431, 631: connector 432, 632: connection cut-off
440: 640: elastic part 500: gas discharge pipe
600: gas discharge valve 700: washing water discharge pipe
710, 720: washing water branch pipe 800: path closure

Claims (5)

A scrubber for removing pollutants from the exhaust gas by spraying washing water into the exhaust gas;
A gas inlet pipe providing a transport path for supplying the exhaust gas to the scrubber;
A gas inlet valve for opening and closing the gas inlet pipe;
A gas discharge pipe branching from the gas inlet pipe and providing a transport path for discharging the exhaust gas; And
Including a gas discharge valve for opening and closing the gas discharge pipe,
The gas inlet valve and the gas discharge valve can be opened and closed by washing water discharged from the scrubber. The method of claim 1,
The gas discharge pipe is a pollutant reduction device branched from the gas inlet pipe before the arrangement position of the gas inlet valve. The method of claim 1,
A washing water discharge pipe providing a transport path for discharging the washing water accommodated in the scrubber; And
Further comprising a path closing portion for closing the transport path of the washing water discharge pipe,
The path closing part is melted at a temperature of a predetermined size or more to open the washing water discharge pipe. The method of claim 3,
The gas inlet valve is operated by the pressure of the washing water discharged through the washing water discharge pipe to close the gas inlet pipe,
The gas discharge valve is operated by the pressure of the washing water discharged through the washing water discharge pipe to open the gas discharge pipe. The method of claim 4,
The gas inlet valve and the gas discharge valve,
A chamber disposed on a disconnected transfer path of the gas inlet pipe or the gas outlet pipe; And
Pollutant reduction apparatus comprising a connection control unit that moves inside the chamber and connects or disconnects the disconnected gas inlet pipe or the gas outlet pipe.

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