KR102150302B1 - Ship - Google Patents

Abstract

Start the ship.
A ship according to an embodiment of the present invention includes a hull provided with an exhaust gas emission device and a fuel tank for storing fuel of the exhaust gas emission device; And a scrubber installed on a stack provided on the hull. Including, the scrubber is connected to a storage tank for treating exhaust gas in which treated water for treating exhaust gas discharged from the exhaust gas discharge device or treated water for treating exhaust gas is stored, and the storage tank for treating exhaust gas is the It may be provided in a spacing space formed in a portion of the hull around the fuel tank, or may be formed by partitioning at least a portion of the spacing space.

Description

Ship{SHIP}

The present invention relates to a ship.

A vessel may be equipped with a device for treating exhaust gas discharged from an exhaust gas discharge device such as a main engine.

For example, in order to remove foreign substances including nitrogen oxides contained in the exhaust gas from the exhaust gas, a nitrogen oxide removal unit such as SCR may be installed on the ship. In addition, a scrubber may be installed on the ship to remove foreign substances including sulfur oxides contained in exhaust gas.

In the scrubber, foreign substances including sulfur oxides contained in the exhaust gas may be removed by injecting treated water such as seawater to the exhaust gas introduced into the scrubber. In addition, in order to operate the scrubber with this configuration, treated water other than seawater supplied to the scrubber, such as aqueous sodium hydroxide (NaOH), is stored, or treated water including foreign substances including sulfur oxides is stored by treating exhaust gas in the scrubber. A storage tank for treating exhaust gas is required.

Conventionally, since a space in which such an exhaust gas treatment storage tank is to be installed is provided separately, space utilization of the ship has been reduced.

The present invention has been made by recognizing at least one of the demands or problems occurring in the prior art.

One aspect of the object of the present invention is to improve the space utilization of the ship.

Another aspect of the object of the present invention is to allow a storage tank for treating exhaust gas to be provided in a space formed around a fuel tank or to be formed by partitioning at least a part of the space.

A ship related to an embodiment for realizing at least one of the above tasks may include the following features.

A ship according to an embodiment of the present invention includes: a hull provided with an exhaust gas discharge device and a fuel tank for storing fuel of the exhaust gas discharge device; And a scrubber installed on a stack provided on the hull. Including, the scrubber is connected to a storage tank for treating exhaust gas in which treated water for treating exhaust gas discharged from the exhaust gas discharge device or treated water for treating exhaust gas is stored, and the storage tank for treating exhaust gas is the It may be provided in a spacing space formed in a portion of the hull around the fuel tank, or may be formed by partitioning at least a portion of the spacing space.

In this case, the hull includes an engine room in which the exhaust gas discharge device is provided, and the flue may communicate with the engine room.

In addition, since the scrubber has a square shape, it can be installed on the stack without expanding at least a portion of the stack.

In addition, in the scrubber, the treated water may be injected into the exhaust gas discharged from the exhaust gas discharge device and introduced to remove foreign substances including sulfur oxides from the exhaust gas.

In addition, a treated water supply pump connected to the scrubber to supply treated water to the scrubber may be provided in the engine room.

In addition, the flue is connected to the exhaust gas discharge device and an exhaust pipe through which exhaust gas flows is disposed, the scrubber is connected to the exhaust pipe by an exhaust gas inlet pipe, and the scrubber is exhaust from which foreign substances including sulfur oxide are removed. An exhaust gas discharge pipe through which gas is discharged to the outside may be connected.

As described above, according to the exemplary embodiment of the present invention, the storage tank for treating exhaust gas may be provided in a space formed around the fuel tank or formed by partitioning at least a part of the space.

In addition, according to an embodiment of the present invention, it is possible to improve the space utilization of the ship.

1 is a side view and a partial enlarged view of a first embodiment of a ship according to the present invention.
Figure 2 is a view as viewed from the side of the ship in the first embodiment of the ship according to the present invention the scrubber is installed.
3 is a view from above of the ship of the portion where the scrubber is installed in the first embodiment of the ship according to the present invention.
4 is a view as viewed from the front of the ship of the portion where the scrubber is installed in the first embodiment of the ship according to the present invention.
5 is a side view of a second embodiment of a ship according to the present invention.
6 is a cross-sectional view taken along line I-I' of FIG. 5;

In order to help understand the features of the present invention as described above, a ship related to an embodiment of the present invention will be described in more detail below.

The embodiments described below will be described on the basis of embodiments most suitable for understanding the technical features of the present invention, and the technical features of the present invention are not limited by the described embodiments, but will be described below. It is to illustrate that the present invention can be implemented as in the embodiments. Accordingly, the present invention can be variously modified within the technical scope of the present invention through the embodiments described below, and such modified embodiments will fall within the technical scope of the present invention. In addition, in the reference numerals in the accompanying drawings in order to aid in understanding of the embodiments described below, related elements among the elements that perform the same function in each embodiment are indicated by numbers on the same or extension lines.

Ship's first embodiment

Hereinafter, a first embodiment of a ship according to the present invention will be described with reference to FIGS. 1 to 4.

FIG. 1 is a side view and a partially enlarged view of a first embodiment of a ship according to the present invention, and FIG. 2 is a view as viewed from the side of the ship, where a scrubber is installed in the first embodiment of the ship according to the present invention. Is a view as viewed from the top of the ship in which the scrubber is installed in the first embodiment of the ship according to the present invention, and FIG. 4 is a view as viewed from the front of the ship where the scrubber is installed in the first embodiment of the ship according to the present invention. It is a drawing.

The first embodiment of the ship 100 according to the present invention may include a hull 200, a stack 300, and a scrubber 400,400'.

The hull 200 may include an engine room 210. An exhaust gas emission device AE through which exhaust gas is discharged may be provided in the engine room 210. The exhaust gas emission device AE may include a main engine ME and an engine GE for power generation, as shown in FIGS. 3 and 4. However, the exhaust gas discharging device AE may include anything that discharges exhaust gas such as a boiler (not shown) in addition to the above-described main engine ME and power generation engine GE.

The main engine ME may be connected to a screw shaft (not shown) of the ship 100 to rotate the screw shaft. In addition, a plurality of engines GE for power generation may be provided in the engine room 210. However, one power generation engine GE may be provided in the engine room 210.

As shown in FIG. 1, the engine room 210 may be provided with a treated water supply pump PP. The treated water supply pump PP may supply treated water for treating exhaust gas, such as sea water, to the scrubbers 400 and 400 ′. To this end, the treated water supply pump PP may be connected to the scrubbers 400 and 400 ′ by a treated water supply pipe (not shown). In addition, a part of the treated water supply pipe may pass through one surface of the scrubbers 400 and 400 ′ and may be provided inside the scrubbers 400 and 400 ′. In addition, a treated water supply nozzle (not shown) is provided in a part of the treated water supply pipe provided inside the scrubbers 400 and 400 ′, so that the treated water may be injected into the exhaust gas introduced into the scrubbers 400 and 400 ′. However, the configuration for supplying treated water such as seawater to the scrubbers 400 and 400' is not particularly limited, and any known configuration may be used.

The treated water supply pump PP may be provided below the engine room 210 as shown in FIG. 1. However, the position of the treated water supply pump (PP) in the engine room 210 is not particularly limited, and is connected to the scrubbers 400 and 400 ′ to supply treated water for treating exhaust gas to the scrubbers 400 and 400 ′. Ramen may be provided in any part of the engine room 210.

A hatch HT connected to the engine room 210 may be provided on the upper deck UD of the hull 200 as shown in FIG. 2. For example, the hatch (HT) may be provided on a portion of the upper deck (UD) under the transport unit (TU) to be described later provided in the stack 300. In addition, the transport unit (TU) and the hatch (HT) can be made in and out of the object into the engine room 210. The configuration of the hatch HT is not particularly limited, and any known configuration may be used.

A container loading space SL in which the container CT is loaded may be formed in the hull 200 as shown in FIG. 1.

The stack 300 may be provided on the hull 200. The stack 300 may be provided on the hull 200 so as to communicate with the engine room 210 of the hull 200.

The flue 300 has an exhaust pipe PE connected to the above-described exhaust gas discharge device AE provided in the engine room 210 of the hull 200 and through which the exhaust gas discharged from the exhaust gas discharge device AE flows. Can be placed. For example, as shown in FIGS. 3 and 4, an exhaust pipe PE connected to the main engine ME and through which exhaust gas discharged from the main engine ME flows may be disposed in the stack 300. The exhaust gas discharged from the main engine ME may flow through the exhaust pipe PE connected to the main engine ME. In addition, an exhaust pipe (PE) connected to the power generation engine (GE) and through which exhaust gas discharged from the power generation engine (GE) flows is disposed in the stack 300 separately from the exhaust pipe (PE) connected to the main engine (ME). I can. The exhaust gas discharged from the power generation engine GE may flow through the exhaust pipe PE connected to the power generation engine GE. However, the exhaust pipe PE connected to the power generation engine GE may be connected to the exhaust pipe PE connected to the main engine ME. The exhaust pipe PE may extend to a first upper end 311 to be described later included in the upper end of the stack 300 as shown in FIGS. 2 and 4.

As shown in FIG. 1, a transport unit TU may be provided at a portion of the stack 300 above a predetermined height from the upper deck UD of the hull 200. The stack 300 may be sequentially provided with deck A (DA), deck B (DB), and deck C (DC) in the height direction of the stack 300. And, the transport unit (TU) may be provided on the stack 300 to be supported by the C deck (DC) at the same height as the C deck (DC). However, the configuration in which the transport unit (TU) is provided on the stack 300 is not particularly limited, and if a configuration can be provided on a portion of the stack 300 above a predetermined height from the upper deck (UD) of the hull 200 Any known configuration is possible.

The transport unit (TU) is a product to the engine room 210 of the hull 200 together with the above-described hatch (HT) provided in the portion of the upper deck (UD) of the hull 200 under the transport unit (TU). Access can be made. The conveying unit TU may be, for example, a monorail crane. However, the transport unit (TU) is not particularly limited, as long as it is provided in the stack 300 to allow the entry and exit of the object into the engine room 210 together with the hatch (HT), any known one is possible.

In this case, the stack 300 has a stack portion 310 above the transport unit TU and a casing portion below the transport unit TU as shown in Figs. 2 and 4 320).

The upper end of the stack 300 may include a first upper end 311 and a second upper end 312 positioned lower than the first upper end 311 as shown in FIG. 4. Accordingly, an empty space VS may exist on the second upper end 312. Accordingly, since the air resistance area of the ship 100 can be reduced, the size and capacity of equipment (not shown) required for mooring of the ship 100 can be reduced. And, it is possible to improve the space utilization of the ship 100.

The first upper end 311 and the second upper end 312 may be connected by a connection end 313. The connection end 313 may be vertically positioned between the first upper end 311 and the second upper end 312 to connect the first upper end 311 and the second upper end 312. However, the connection end 313 may be located inclined between the first upper end 311 and the second upper end 312 to connect the first upper end 311 and the second upper end 312.

The second upper end 312 may be located on at least one of the left and the right of the first upper end 311. For example, as shown in FIG. 4, the first upper end 311 may be located at the center and the second upper end 312 may be located at the left and right sides of the first upper end 311, respectively. Accordingly, an empty space VS may exist on the second upper end 312 on the left and right sides of the first upper end 311. However, the second upper end 312 may be located on the left or right side of the first upper end 311, so that an empty space VS may exist on the second upper end 312 on the left or right side of the first upper end 311.

The scrubbers 400 and 400 ′ may process exhaust gas discharged from the exhaust gas discharge device AE provided in the engine room 210. The scrubbers 400 and 400 ′ may remove foreign substances including sulfur oxides from the exhaust gas discharged from the exhaust gas discharge device AE. In this way, the exhaust gas from which foreign substances including sulfur oxides have been removed from the scrubbers 400 and 400 ′ may be discharged to the outside of the ship 100.

The scrubbers 400 and 400 ′ may remove foreign substances including sulfur oxides from the exhaust gas by injecting treated water such as seawater to the exhaust gas flowing through the exhaust gas discharge device AE. However, the configuration of the scrubbers 400 and 400 ′ is not particularly limited, and any known configuration may be used as long as it is a configuration capable of removing foreign substances including sulfur oxides from exhaust gas discharged from the exhaust gas discharge device AE.

The scrubbers 400 and 400' are connected to the exhaust pipe PE by the exhaust gas inlet pipes PI and PI' to allow the exhaust gas flowing through the exhaust pipe PE to flow therein. For example, a damper (not shown) may be provided at a portion where the exhaust gas inlet pipes PI and PI' and the exhaust pipe PE are connected. In addition, by the damper, the exhaust gas flowing through the exhaust pipe PE may be introduced into the scrubbers 400 and 400'.

One side of the exhaust gas discharge pipes PD and PD' may be connected to the scrubbers 400 and 400'. Exhaust gas from which foreign substances including sulfur oxides have been removed from the scrubbers 400 and 400 ′ may be discharged to the outside of the vessel 100 through exhaust gas discharge pipes PD and PD ′. The other side of the exhaust gas discharge pipes PD and PD' may be bent, for example, to extend to the first upper end 311 of the stack 300 as shown in FIG. 4. For example, the other side of the exhaust gas discharge pipes PD and PD' may extend to the first upper end 311 separately from the exhaust pipe PE, or may be connected to the exhaust pipe PE extending to the first upper end 311.

The scrubbers 400 and 400 ′ may have a square shape as shown in FIGS. 2 to 4. Accordingly, the scrubbers 400 and 400 ′ can be installed on the stack 300 without expanding at least a part of the stack 300 for installation of the scrubber, like a conventional round scrubber.

Therefore, in order to avoid interference with the above-described conveying unit (TU) provided in the stack 300 like a conventional round scrubber, the scrubber is placed in the stack part 310, which is a part of the stack 300 above the conveying unit (TU). Since it is not necessary to install all of them, the installation height of the scrubbers 400 and 400' can be made lower than the conventional one.

In this case, the scrubber (400, 400') is the stack 300 so that the bottom surface is located in the casing unit 320 as shown in Figs. 2 and 4, which is a part of the stack 300 under the transport unit (TU). Can be installed on.

Accordingly, the capacity of the treated water supply pump PP connected to the scrubbers 400 and 400 ′ may be reduced in order to supply treated water such as seawater for exhaust gas treatment to the scrubbers 400 and 400 ′. For example, in the case of the scrubbers 400 and 400 ′ of the present invention having a square shape than a conventional round scrubber, the installation height can be reduced by about 10 m, so that the capacity of the treated water supply pump PP can be reduced by about 1 atmosphere. Accordingly, energy required for the treated water supply pump PP can be reduced, for example, from 850 KW to 666 KW. Thereby, energy required for treatment of the exhaust gas can be reduced.

The scrubbers 400 and 400' may include a scrubber 400 for removing foreign substances including sulfur oxides from exhaust gas discharged from the main engine ME, as shown in FIGS. 3 and 4. The scrubber 400 may be connected to an exhaust pipe PE connected to the main engine ME by an exhaust gas inlet pipe PI. In addition, an exhaust gas discharge pipe PD may be connected to the scrubber 400.

The scrubbers 400 and 400 ′ may include other scrubbers 400 ′ for removing foreign substances including sulfur oxides from exhaust gas discharged from the power generation engine GE. This scrubber 400' may be connected to another exhaust pipe PE connected to the power generation engine GE by another exhaust gas inlet pipe PI'. In addition, another exhaust gas discharge pipe PD' may be connected to the scrubber 400'.

Meanwhile, in addition to the above-described scrubbers 400 and 400 ′, a nitrogen oxide removal unit RN may be further included in order to remove foreign substances including nitrogen oxides from exhaust gas discharged from the exhaust gas discharge device AE.

The nitrogen oxide removal unit RN may be installed on the stack 300. For example, the nitrogen oxide removal unit RN may be installed in the center of the stack 300 as shown in FIGS. 3 and 4. In addition, the scrubbers 400 and 400 ′ may be installed on a portion of the stack 300 on the left or right side of the nitrogen oxide removal unit RN.

Since the nitrogen oxide removal unit RN has a relatively complex configuration and it is relatively difficult to reduce its size, expansion of the stack 300 or the like is inevitable during installation. Therefore, when the transport unit (TU) is provided as described above in the stack 300, the nitrogen oxide removal unit (RN) is, in order to avoid interference with the transport unit (TU), the stack above the transport unit (TU) After expanding the stack part 310 which is a part of 300, for example, after expanding the stack part 310 in the fore or stern direction of the ship 100, it may be installed.

However, as described above, the square-shaped scrubbers 400 and 400 ′ of the present invention may be installed on the stack 300 without expanding at least a part of the stack 300. Therefore, as described above, when the square-shaped scrubbers 400 and 400 ′ of the present invention are installed on the left or right side of the stack 300 of the nitrogen oxide removal unit RN installed in the center of the stack 300, FIG. As shown in Fig. 3, the portion of the stack 300 in which the scrubbers 400 and 400' are installed, for example, the left or right portion of the stack 300 may not be expanded. Accordingly, the space around the part of the stack 300 in which the scrubbers 400 and 400 ′ are installed can be utilized by, for example, allowing a container CT to be loaded or a transport unit (TU) such as the aforementioned monorail crane to be provided. have. Accordingly, space utilization of the ship 100 can be improved.

Meanwhile, the nitrogen oxide removal unit RN may be provided in another exhaust pipe PE' connected to the exhaust pipe PE connected to the main engine ME, as shown in FIG. 4. However, the nitrogen oxide removal unit RN may be provided in the exhaust pipe PE connected to the main engine ME.

The nitrogen oxide removal unit (RN) may be, for example, a selective catalytic reduction device (SCR, Selective Catalytic Reduction). However, the nitrogen oxide removal unit RN is not particularly limited, and any known substance may be used as long as it can remove foreign substances including nitrogen oxides from the exhaust gas.

On the other hand, in order to operate the scrubber (400,400'), treated water other than seawater supplied to the scrubber (400,400'), for example, an aqueous solution of sodium hydroxide (NaOH) is stored, or by treating the exhaust gas in the scrubber (400,400'), sulfuric acid A storage tank (TS) for exhaust gas treatment in which treated water including foreign substances including cargo is stored is required. The storage tank TS for treating exhaust gas is connected to the scrubbers 400 and 400', and a plurality of them may be required.

In conventional ships, since the space in which the storage tank TS for treating exhaust gas as described above is installed is separately provided, the space utilization of the ship is reduced. However, in the ship 100 according to the present invention, the storage tank TS for treatment of exhaust gas as described above is provided in the space formed in the ship 100 but emptied or emptied. By partitioning at least a portion of the space to form a storage tank TS for treating exhaust gas, space utilization of the ship 100 is improved.

For example, when the ship 100 is a container ship, a container loading space SL in which the container CT is loaded may be formed in the hull 200 as shown in FIG. 1. In addition, a predetermined spacing space SG may be formed between the container loading spaces SL. Accordingly, the above-described storage tank TS for exhaust gas treatment is provided in the space SG close to the engine room 210, or at least a part of the space SG is partitioned to provide the storage tank TS for treatment of exhaust gas. ) Can be formed. Accordingly, since a space in which the storage tank TS for exhaust gas treatment is to be installed does not need to be separately provided in the hull 200, space utilization of the ship 100 can be improved.

The second embodiment of the ship

Hereinafter, a second embodiment of a ship according to the present invention will be described with reference to FIGS. 5 and 6.

5 is a side view of a second embodiment of a ship according to the present invention, and FIG. 6 is a cross-sectional view taken along line I-I' in FIG.

Here, the second embodiment of the ship according to the present invention is a ship other than the ship and container ship described with reference to FIGS. 1 to 4 above, and the difference in that the transport unit (TU) is not provided in the stack 300 There is.

Therefore, hereinafter, different configurations will be mainly described, and the remaining configurations may be replaced with those described with reference to FIGS. 1 to 4.

The second embodiment of the ship 100 according to the present invention may be a ship 100 other than a container ship.

In the vessel 100 other than the container ship, as shown in FIG. 6, the fuel of the main engine ME such as heavy oil or the engine for power generation (GE) is stored in the portion of the hull 200 around the engine room 210. A fuel tank TF in which fuel is stored may be provided. In addition, a spacing space SG may be provided at a portion of the hull 200 around the fuel tank TF to maintain a predetermined spacing with the engine room 210 for safety. Therefore, in the case of the vessel 100 other than the container ship, the exhaust gas treatment storage tank TS is provided in the space SG around the fuel tank TF, or at least a part of the space space SG is By partitioning, a storage tank TS for treating exhaust gas can be formed. Accordingly, since a space in which the storage tank TS for exhaust gas treatment is to be installed does not need to be separately provided in the hull 200, space utilization of the ship 100 can be improved.

As described above, when the ship according to the present invention is used, the storage tank for treatment of exhaust gas may be provided in the gap space formed around the fuel tank or formed by dividing at least a part of the gap space, thereby improving the space utilization of the ship. I can.

The ship described above is not limitedly applicable to the configuration of the above-described embodiments, but the embodiments may be configured by selectively combining all or part of each of the embodiments so that various modifications can be made.

100: ship 200: hull
210: engine room 300: stack
310: stack 311: first upper end
312: second upper end 313: connection end
400, 400': scrubber AE: exhaust gas emission device
ME: Main engine GE: Power generation engine
PE, PE': Exhaust pipe TU: Transport unit
PI, PI': exhaust gas inlet pipe PD, PD': exhaust gas discharge pipe
RN: nitrogen oxide removal unit CT: container
TS: Storage tank for exhaust gas treatment SL: Container loading space
SG: Gap space TF: Fuel tank
PP: Treatment water supply pump HT: Hatch
UD: Upper deck DA: A deck
DB: B deck DC: C deck
VS: empty space

Claims (6)

A hull having an exhaust gas discharge device and a fuel tank storing fuel of the exhaust gas discharge device; And
A scrubber installed on a stack provided on the hull; Including,
The scrubber is connected to an exhaust gas treatment storage tank in which treated water for treating exhaust gas discharged from the exhaust gas discharge device or treated water for treating exhaust gas is stored,
The hull includes an engine room in which the exhaust gas discharge device is provided,
The fuel tank is provided in a portion of the hull around the engine room to be spaced apart from the bottom of the engine room at a predetermined height, and a portion of the hull around the fuel tank maintains a predetermined distance from the engine room for safety. There is a gap space,
The exhaust gas treatment storage tank is provided in a portion of the clearance space around a lower portion of the fuel tank or is formed by partitioning a portion of the clearance space around a lower portion of the fuel tank. The ship according to claim 1, wherein the stack communicates with the engine room. The ship according to claim 2, wherein the scrubber has a rectangular shape and is installed on the stack without expanding at least a portion of the stack. The ship according to claim 2, wherein the scrubber injects treated water to the exhaust gas discharged from the exhaust gas discharge device and introduced to remove foreign substances including sulfur oxides from the exhaust gas. The ship according to claim 4, wherein the engine room is provided with a treated water supply pump connected to the scrubber to supply treated water to the scrubber. The method of claim 4, wherein the flue is connected to the exhaust gas discharge device and an exhaust pipe through which the exhaust gas flows, and the scrubber is connected to the exhaust pipe by an exhaust gas inlet pipe, and the scrubber includes foreign substances including sulfur oxide. A ship to which an exhaust gas discharge pipe that allows the removed exhaust gas to be discharged to the outside is connected.

Images