KR102361520B1 - Seawater Inlet and Discharge Structure of Ship and Ship Having the Same - Google Patents

Abstract

The present invention relates to a structure for inflow and discharge of seawater of a ship capable of preventing damage to a pump or a pipe even in a severe marine environment, and a ship having the same.
A structure for inflow and discharge of seawater of a ship according to the present invention and a ship having the same include: an inlet moonpool provided for inflow of seawater from the sea in an inboard; And a discharge moonpool (discharge moonpool) provided for discharging seawater to the sea inside the hull; includes, in the inner space of the inlet moonpool, one or more seawater pumps for sucking seawater introduced into the inlet moonpool inner space; Further comprising, the inlet munpool includes an inlet flexible hose for introducing seawater into the inlet munpool; and the outlet munpool includes one discharge flexible hose for discharging seawater from the outlet munpool. The structure of seawater inflow and outflow of ships.

Description

{Seawater Inlet and Discharge Structure of Ship and Ship Having the Same}

The present invention relates to a structure for supplying seawater to a ship by introducing it from the sea, and discharging seawater used in the ship to the sea, and a ship having such a structure.

In a ship or an offshore structure such as an FPSO deployed in a relatively calm sea, seawater necessary for the operation of a ship or offshore structure is obtained from the sea and supplied, and the seawater used in the ship or offshore structure is discharged back to the sea.

For example, as shown in FIG. 1 , the seawater pumps 112 provided to suck seawater from the sea and supply it to the ship or offshore structure 1 are located on the outside 100 of the ship or offshore structure 1 . A plurality of caisson (111) is arranged in multiple rows, and a plurality of seawater pumps (112) are provided inside the caisson (111) to protect the seawater from the marine environment, that is, waves, salinity of seawater, wind containing salinity, etc. There is a way to protect (112). The caisson 111 serves as a guide and a support for installing the seawater pump 111 while protecting the seawater pump 112 from the external environment.

A suction flexible hose 113 extending to the seabed is connected to the lower portion of each caisson 111, and seawater is sucked through each seawater pump 112 connected to the suction flexible hose 113, and the vessel ( 1) is supplied to each customer.

In order to discharge seawater after being used in a ship or an offshore structure (1), a discharge pipe (discharge pipe) is provided with a caisson (121) having a structure, and a discharge flexible hose extending to the sea floor at the lower part of the caisson (121) (122) is connected, and used seawater is discharged overboard.

Republic of Korea Patent Publication No. 10-2014-003678 (published on March 26, 2014)

The method as described above may be damaged by external forces, such as when the pump caisson and the discharge pipe installed on the outside of the ship are exposed to extreme waves, or malfunctions such as floating objects or supply boats. If the pump caisson and discharge pipe are damaged, there is no way to repair the damage other than to stop the production of gas or oil in a ship or offshore structure and enter a dry dock to repair it, and huge losses are expected.

Therefore, in order to protect these various caisson and pump, a protector 114 has been additionally installed as shown in FIG. There is a hassle to separate and implement the (stack).

Accordingly, the present invention aims to provide a structure for inflow and discharge of seawater of a ship capable of preventing damage to a pump or pipe even in a severe marine environment, and a ship having the same, in view of the above problems .

According to one aspect of the present invention, the inlet moonpool (inlet moonpool) provided for the inlet of seawater from the sea on the inside of the hull (inboard); And a discharge moonpool (discharge moonpool) provided for discharging seawater to the sea inside the hull; includes, in the inner space of the inlet moonpool, one or more seawater pumps for sucking the seawater introduced into the inlet moonpool inner space; It further includes, wherein the inlet munpool includes an inlet flexible hose for introducing seawater into the inlet munpool; and the outlet munpool includes one discharge flexible hose for discharging seawater from the outlet munpool. A structure for inflow and discharge of seawater of a vessel is provided.

Preferably, the seawater pump may suck the seawater introduced into the inlet moonpool and supply it to the demand of the vessel.

Preferably, at least one pump support (suport) for supporting the at least one seawater pump, respectively, may be included in the inlet moon pool.

Preferably, the inlet riser sheet provided to install the inlet flexible hose to the lower shell of the inlet moonpool; and a discharge riser sheet provided to install the discharge flexible hose on the lower shell of the discharge moonpool, wherein the inflow flexible hose and the discharge flexible hose are mounted on the inflow riser sheet and the discharge riser sheet, respectively. Can be installed .

Preferably, the inlet riser seat may be provided in a structure that can be opened and closed.

Preferably, during maintenance of the seawater pump, the inlet riser seat may be closed and the operation may be performed.

Preferably, the inner space of the inlet moonpool includes; an auxiliary deck of one or more floors, the seawater pump and the pump support are provided on the auxiliary deck, and the auxiliary deck includes a catwalk that an operator can move. can provide

Preferably, the discharge moonpool includes a discharge pipe line for discharging the seawater used in the vessel to the discharge moonpool, and the seawater discharged to the discharge moonpool is the cooling water heated after use in the vessel. and wastewater.

Preferably, the seawater discharged to the discharge moonpool may be discharged overboard through the discharge flexible hose.

Preferably, the inlet flexible hose and the outlet flexible hose have a predetermined length,

Seawater of a constant temperature is introduced by the inlet flexible hose having a predetermined length, and the discharged seawater is discharged within a predetermined depth by the discharge flexible hose having a predetermined length, thereby minimizing the impact on the ocean.

Preferably, the inlet moonpool and the outlet moonpool may be disposed surrounded by the ballast tank of the ship.

According to another aspect of the present invention, there is provided a ship having a structure for inflow and discharge of seawater of the ship as described above.

In addition, according to another aspect of the present invention, in a ship having a seawater inflow and discharge structure of the ship, the seawater inflow and discharge structure is provided inside the hull rather than outside the hull, and the seawater inflow and It is possible to prevent damage to the exhaust structure.

Preferably, the seawater inlet and outlet structure includes a moonpool provided inside the hull for seawater inlet and outlet, and a seawater pump for seawater intake and a discharge pipeline for seawater discharge are provided in the moonpool inner space can be

According to the present invention, there is no need to install a caisson for each seawater pump because the seawater pump is not installed on the outside of the ship, but is installed inside the hull, so it is possible to reduce the quantity and cost, and the seawater pump and discharge pipe It can prevent damage and increase safety.

In addition, the moonpool structure inside the hull provides an environment in which to work even after the ship is launched, so there is room for process management. Pipes can be repaired.

In addition, there is no need to install a flexible suction hose at the end of the seawater pump for each pump, and only one suction flexible hose and one exhaust flexible hose can be installed, so that the work process can be reduced and material costs can be significantly reduced.

In addition, the support structure of the seawater pump can be simply designed.

1 shows a structure of suction and discharge of seawater according to an embodiment of the related art.
2 shows a structure for suction and discharge of seawater according to an embodiment of the present invention.
3 is a cross-sectional view of a vessel equipped with a structure for inhaling and discharging seawater according to an embodiment of the present invention.

In order to fully understand the operational advantages of the present invention and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Here, it should be noted that in adding reference signs to the elements of each drawing, the same elements are indicated with the same reference numerals as much as possible even though they are indicated on different drawings. In addition, the following examples may be modified in various other forms, and the scope of the present invention is not limited to the following examples.

In the present invention, a ship is a concept including all of an FPSO, an offshore structure such as an LNG-FPSO, and an offshore plant that float on the sea and perform operations such as drilling, production, and processing.

2 is a view illustrating a structure of inflow and discharge of seawater of a ship according to an embodiment of the present invention. 3 is a conceptual layout view looking down from above in a cross section of a hull of a ship equipped with a structure for inflow and discharge of seawater of a ship according to an embodiment of the present invention. Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 2 and 3 .

The seawater inflow and discharge structure of the ship (2) according to the present invention is characterized in that it is provided inside the hull rather than the outside. Accordingly, as shown in FIG. 2, the seawater inflow and discharge structure of the ship according to the present invention is an inlet moonpool 200 provided for seawater inflow from the sea on the inboard, and the sea on the inside of the hull. It includes a discharge moonpool (discharge moonpool) (300) provided for the discharge of seawater to the.

In the present invention, the moonpool means a facility inside the hull having a cylindrical cavity, and apart from the moonpool for drilling provided to move up and down the drilling equipment in the center, such as a drillship or FPSO, seawater Moonpools for seawater inflow/discharge for inflow and outflow must be separately provided.

The inner space of the inlet moonpool 200 further includes one or more seawater pumps 201 for sucking seawater introduced into the inner space of the inlet moonpool 200, and the inlet moonpool 200 includes seawater as the inlet moonpool 200. One inlet flexible hose (flexible hose) 202 is provided to introduce the.

In addition, one discharge flexible hose 302 for discharging seawater from the discharge moonpool 300 is provided in the discharge moonpool 300 .

The lower shells of the inlet moonpool 200 and the outlet moonpool 300 may be provided with riser sheets 204 and 304, respectively, and the riser sheets 204 and 304 include the inlet flexible hose 202 and the outlet flexible hose 302. equipment that allows it to be installed.

The inlet flexible hose 202 is provided on the inlet riser sheet 204 provided on the lower shell of the inlet moonpool 200 , and the outlet flexible hose 302 is provided on the lower shell of the outlet moonpool 300 with the outlet riser sheet 304 provided on the lower shell of the outlet moonpool 300 . It can be installed on top of each other.

The inlet riser sheet 204 may be welded to the lower shell of the inlet moonpool 200 , and the outlet riser seat 304 may be welded to the lower shell of the outlet moonpool 300 , respectively.

The lower shell of the inflow moonpool 200 may have a closed structure, except for a portion where the inflow riser sheet 204 is provided and the inflow flexible hose 202 is connected, and the internal space of the inflow moonpool 200, Seawater can be introduced into the inner space of the inlet moonpool 200 through the inlet flexible hose 202 due to a pressure difference with the seafloor on which the inlet flexible hose 202 extends, that is, outside the inlet moonpool 200 .

The seawater introduced into the inner space of the inlet moonpool 200 through the inlet flexible hose 202 is sucked by one or more seawater pumps 201 installed in the inner space of the inlet moonpool 200 to be supplied to the demand of the vessel 2, respectively. can

When the seawater introduced into the inner space of the inlet moonpool 200 by the seawater pump 201 is discharged to each demanding destination, the pressure in the inner space of the inlet moonpool 200 is lowered through the inlet flexible hose 202 extending to the seabed Seawater is introduced into the inner space of the inlet moonpool 200 to achieve pressure equilibrium, and the inner space of the inlet moonpool 200 is refilled with seawater corresponding to the amount of seawater supplied to the consumer.

As shown in FIG. 2, the seawater pump 201 provided in the inner space of the inlet moonpool 200 may be arranged in multiple rows depending on use and demand, and taking the pressure required by the demanding place, head, etc. into consideration A plurality of seawater pumps 201 may be connected in series in a vertical direction in one row.

The inlet moonpool 200 inner space may be provided with one or more auxiliary decks 205 forming one or more layers, and the auxiliary deck 205 may provide a catwalk through which an operator can pass. In addition, one or more seawater pumps 201 may be supported and fixed by a pump support 203 , in which case the seawater pump 201 and the pump support 203 are to be fixedly installed on the auxiliary deck 205 . can

The inlet riser sheet 204 installed in the lower shell of the inlet moonpool 200 and the outlet riser sheet 304 installed in the lower shell of the outlet moonpool 300 may be provided in a structure that can be opened and closed, respectively.

When a problem such as a failure of the seawater pump 201 occurs, the inflow riser sheet 204 is closed so that seawater can no longer be introduced into the inner space of the inflow moonpool 200, and then without dismantling the entire structure, the operator may enter the inner space of the inflow moonpool 200 to perform maintenance and repair of the seawater pump 201 .

A discharge pipeline 301 for discharging seawater used in the ship 2 into the inner space of the discharge moonpool 300 is provided in the inner space of the discharge moonpool 200, and the use collected into the inner space of the discharge moonpool 300 The seawater is discharged to the outboard, that is, the sea through the discharge flexible hose (302).

The ship or offshore structure 2 is provided with a process system (not shown) prepared to perform various process facilities, for example, a pretreatment process and a liquefaction process of natural gas drilled from a subsea gas well, which is used in the ship. The seawater discharged to the post-discharge moonpool 300 is the cooling water used in this process, the seawater heated after being supplied as the cooling water of the engine (not shown) of the ship 2 or the residence of the ship 2 . (living quarter) (not shown) may be a living wastewater discharged. This after-use seawater may be subjected to a wastewater treatment process in consideration of environmental pollution, etc. before being discharged to the discharge moonpool 300 .

Similarly, the coolant used in the process as described above, the engine coolant of the ship 2 , the residence of the ship 2 , etc. may be a demand for seawater sucked through the inflow moonpool 200 .

The inlet flexible hose 202 and the outlet flexible hose 302 each have a predetermined length, and seawater of a constant temperature can always be introduced into the inflow moonpool 200 by the inflow flexible hose 202 having a predetermined length, and a constant Since the seawater discharged to the overboard after being used in the ship 2 by the discharge flexible hose 302 having a length can always be discharged within a certain depth, the impact on the marine ecosystem can be minimized. For example, the inlet flexible hose 202 may extend to about 100 m below the sea floor to introduce seawater of a predetermined temperature existing in the water depth of 100 m into the inlet moonpool 200 . The discharge flexible hose 302 may be provided to extend to about 15m from the bottom of the ship.

As shown in FIG. 3 , the inlet moonpool 200 and the outlet moonpool 300 may be disposed so that the ballast tank 400 provided in the ship 2 surrounds it. The ballast tank 400 is provided to balance the ship 2 by discharging the ballast water stored in the ballast tank 400 or supplying the ballast water to the ballast tank 400. is used, and since a large amount is required, it is preferable that the inflow and discharge structure of seawater according to the present invention be provided surrounded by the ballast tank 400 .

In the ship 2 provided with the seawater inflow and discharge structure of the ship as described above, the seawater inflow and discharge structure of the ship is provided inside the hull, in the seawater inflow and discharge of the ship 2, safely and easily It can be operated, and the cost can be reduced in its installation and maintenance.

As described above, the embodiments according to the present invention have been described, and the fact that the present invention can be embodied in other specific forms without departing from the spirit or scope of the present invention other than the above-described embodiments can be seen by those with ordinary skill in the art. It is self-evident to Therefore, the above-described embodiments are to be regarded as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description, but may be modified within the scope of the appended claims and their equivalents.

1: A ship with a seawater intake/discharge structure on the outside of the hull
100: hull outer wall
111: caisson for seawater intake
112: sea water pump
113: suction flexible hose (hose)
114: protector (protector)
121: caisson for discharge pipe
122: exhaust flexible hose
2: A ship with a structure for inhaling and discharging seawater inside the hull
200: inlet moonpool
201: sea water pump
202: inlet flexible hose
203: pump support (pump support)
204: inlet riser seat (riser seat)
205: auxiliary deck
300: discharge moonpool (discharge moonpool)
301: discharge pipeline
302: discharge flexible hose (discharge flexible hose)
304: Exhaust Riser Seat
400: ballast tank (ballast tank)

Claims (14)

an inlet moonpool provided for inflow of seawater from the sea on the inboard;
Distinguished from the inlet moonpool, a discharge moonpool provided for discharging seawater to the sea inside the hull;
two or more seawater pumps provided in the inner space of the inlet moonpool and arranged in multiple rows to suck the seawater introduced into the inlet moonpool inner space;
a discharge pipe line extending into the inner space of the discharge moon pool and discharging seawater used in the ship to the discharge moon pool;
a single inlet flexible hose extending from the lower part of the inlet moonpool to the seabed, and for introducing seawater into the inlet moonpool; and
One discharge flexible hose extending from the lower part of the discharge moonpool to the seabed, and for discharging seawater from the discharge moonpool;
The lower shell of the inlet munpool and the outlet munfull is a structure in which the one inlet flexible hose and the one outlet flexible hose are connected except for the portion where they are connected, the seawater inlet and outlet structure of the ship. The method according to claim 1,
The seawater pump sucks the seawater introduced into the inlet moonpool and supplies the seawater to and from the ship's demanding point. 3. The method according to claim 2,
Seawater inflow and discharge structure of a ship including; at least one pump support (suport) for supporting the at least one seawater pump, respectively, in the inlet moon pool. 4. The method according to claim 3,
an inlet riser sheet provided to install the inlet flexible hose to the lower shell of the inlet moonpool; and
Further comprising; a discharge riser sheet provided to install the discharge flexible hose to the lower shell of the discharge moonpool;
Seawater inflow and discharge structure of a ship in which the inflow flexible hose and the discharge flexible hose are mounted on the inflow riser sheet and the discharge riser sheet, respectively. 5. The method according to claim 4,
The inflow riser sheet is a structure for inflow and discharge of seawater of a ship that is provided in a structure that can be opened and closed. 6. The method of claim 5,
During maintenance of the seawater pump,
A seawater inlet and outlet structure of a vessel that closes the inlet riser seat and allows work to be carried out. 7. The method of claim 6,
The inner space of the inlet moonpool includes an auxiliary deck of one or more floors,
The auxiliary deck is provided with the seawater pump and the pump support,
The auxiliary deck is a structure for inflow and discharge of seawater of a ship that provides a catwalk that an operator can move. delete delete 5. The method according to claim 4,
The inlet flexible hose and the outlet flexible hose have a certain length,
Seawater of a constant temperature is introduced by the inlet flexible hose having the predetermined length,
Seawater inflow and discharge structure of a ship for minimizing the impact on the sea by discharging the discharged seawater to within a predetermined depth by the discharge flexible hose having the predetermined length. 11. The method according to any one of claims 1 to 7 and 10,
The inflow and discharge moonpool is a seawater inflow and discharge structure of a ship that is disposed surrounded by the ballast tank of the ship. delete delete delete

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