KR20120000967A - Marine structure having a cofferdam for dividing spaces - Google Patents

Abstract

PURPOSE: A marine structure with a coffer dam is provided to safely separate a condensate tank corresponding to a risk area from a machine room corresponding to a safe area with a coffer dam. CONSTITUTION: A marine structure comprises a coffer dam(25). The coffer dam separates a plurality of condensate tanks(13) from machine rooms(15,17) in hull(1). The condensate tanks are separated in the width direction of the hull. A coffer dam(20) extended in the length direction of the hull is installed between condensate tanks.

Description

MARINE STRUCTURE HAVING A COFFERDAM FOR DIVIDING SPACES}

The present invention relates to an offshore structure having a cofferdam for partitioning a space inside the hull, and more particularly to an offshore structure provided with a cofferdam to partition between a condensate storage tank which is a danger zone and a machine room which is a safe zone. It is about.

Natural gas is transported in a gaseous state through onshore or offshore gas piping, or transported to a distant consumer while stored in a transport in the form of liquefied gas, such as LNG or LPG. Liquefied natural gas is obtained by cooling natural gas at cryogenic temperatures (approximately -163 ° C), and its volume is reduced to approximately 1/600 of that of natural gas, making it well suited for long-distance transport through the sea.

LNG carriers for loading LNG into the sea and loading and unloading LNG to land requirements include LNG storage tanks (commonly referred to as cargo holds) that can withstand the cryogenic temperatures of liquefied natural gas. LNG storage tanks installed inside LNG carriers can be classified into independent type and membrane type depending on whether the load directly affects the insulation.

Independent tank type storage tanks are either SPB type or Moss type storage tanks. These types of storage tanks use a large amount of non-ferrous metal as the main material, which greatly increases the manufacturing cost of the storage tanks. Currently, LNG storage tanks are the most frequently used membrane storage tanks. Membrane storage tanks are relatively inexpensive and have been proven in LNG storage tanks for a long time without causing any safety problems. .

Membrane type storage tanks are further divided into GTT NO 96 type and Mark III type, which are described in US Pat. Nos. 5,269,247, 5,501,359, and the like. In addition, the structure of the MOSS type independent storage tank is described in Korean Patent No. 10-15063, etc., and the structure of the SPB type independent storage tank is described in Korean Patent No. 10-305513.

The liquefied natural gas storage tank of the membrane type described above is more vulnerable to sloshing problems because of its weak rigidity. Sloshing refers to a phenomenon in which a liquid substance contained in a storage tank, that is, liquefied gas such as LNG, flows when a vessel moves in various sea conditions. The wall surface of the storage tank is severely impacted by sloshing. .

Since the sloshing phenomenon inevitably occurs during the operation of the ship, it is necessary to design the storage tank structure to have sufficient strength to withstand the impact force due to the sloshing.

In particular, as the demand for offshore plants such as LNG Floating, Production, Storage and Offloading (FPSO) or LNG Floating Storage and Regasification Unit (FSRU), ie, offshore structures, is increasing, It was required to solve the problem of sloshing and loading of the superstructure.

LNG FPSOs are offshore structures used to produce and liquefy natural gas directly from the sea and store it in storage tanks and, if necessary, to transport LNG stored in the storage tanks to LNG carriers. In addition, LNG FSRU is a marine structure that stores LNG unloaded from LNG carriers in a storage tank at sea far from the land, and vaporizes LNG as needed to supply land demand.

In the case of offshore structures such as LNG FPSO, LPG and condensate are separated in the process of liquefying and storing natural gas extracted from gas wells, so LPG storage tanks and condensate storage tanks are needed to store them. .

However, since LPG or condensate is an explosive fluid, LPG storage tanks or condensate storage tanks containing them can reduce the sloshing phenomenon due to the flow of cargo at sea, and can properly support the load of the upper structure. At the same time, it needs to be designed to facilitate the maintenance of each tank.

In addition, in the case of a marine structure used while mooring for a certain period of time at sea, it is possible to moor through a turret structure, and along with that, liquefied gas is supplied or supplied to the outside through the turret structure. Therefore, the turret utilized as a moving passage of liquefied gas is classified as a danger zone, and measures are required to utilize the surrounding space as a safety zone.

The present invention for solving the problems of the conventional, by installing a cofferdam for partitioning the space inside the hull, it is possible to separate between the condensate storage tank of the danger zone and the machine room of the safety zone, It is to provide an offshore structure having.

According to an aspect of the present invention for achieving the above object, a cofferdam between a condensate storage tank as a danger zone located adjacent to each other inside the hull and a machine room as a safety zone as a marine structure used floating in the sea There is provided an offshore structure having a cofferdam for compartments, characterized in that by separating.

It is preferable that the condensate storage tank is provided separately from each other in the width direction of the hull.

It is preferred that a longitudinal cofferdam extending in the longitudinal direction of the hull between the plurality of condensate storage tanks.

It further comprises an LNG storage tank for accommodating LNG, the condensate storage tank is preferably disposed on the stern side of the LNG storage tank.

The LNG storage tank is preferably separated by a longitudinal cofferdam extending in the longitudinal direction of the hull has a two-row arrangement structure.

The offshore structure is preferably any one selected from LNG FPSO, LNG FSRU, LNG transport ship and LNG RV, which is used in the floating state at the sea where the flow occurs while having a storage tank for storing the liquid cargo loaded in the cryogenic state Do.

According to the present invention as described above, there is provided an offshore structure provided with a cofferdam for partitioning a space inside the hull.

Accordingly, according to the offshore structure having the cofferdam for partitioning of the present invention, it is possible to safely separate between the condensate storage tank which is a danger zone and the machine room which is a safety zone by the cofferdam.

1 is a schematic plan view of an offshore structure according to a preferred embodiment of the present invention,
2 is a schematic cross-sectional view of the marine structure across an LPG storage tank,
3 is a schematic cross-sectional view of the offshore structure across a condensate storage tank, and
4 is a schematic cross-sectional view of the offshore structure across the turret.

Hereinafter, with reference to the accompanying drawings will be described in detail a marine structure according to a preferred embodiment of the present invention.

In the present specification, the offshore structure is a concept including both an offshore plant and a vessel that are used while floating in an ocean where a flow occurs while having a storage tank for storing a liquid cargo such as LNG. For example, LNG FPSO (Floating, This includes not only offshore plants such as production, storage and offloading or LNG floating storage and regasification units, but also vessels such as LNG carriers and LNG regasification vessels.

1 shows a plan view of an offshore structure. In order to solve the sloshing problem, as shown in FIG. 1, instead of increasing the size of the storage tank, a plurality of storage tanks are arranged in two rows by installing a structure such as a cofferdam or a partition wall in the longitudinal direction in the inner space of the marine structure. By arranging, it has been proposed to achieve the same effect as installing several small storage tanks. Reference numerals 3 and 4 in FIG. 1 represent port and starboard ballast tanks.

According to the present invention, a longitudinal partition structure (ie, a longitudinal cofferdam, etc.) and a widthwise partition structure (that is, installed along the longitudinal direction and the width direction so as to distinguish this internal space inside the hull 1 of the marine structure) , Widthwise cofferdams, etc. are installed.

These compartments may be composed of cofferdams, bulkheads, etc., and LNG storage tanks 11, LPG storage tanks 12, condensate storage tanks 13, etc. are installed in respective spaces divided by the compartments. do. Since the partition structure reduces the inner space of each storage tank, in particular the widthwise length of the storage tank, the effect of the sloshing phenomenon of the received liquefied gas can be reduced and at the same time the load of the upper structure can be supported.

In the present invention, the cofferdam is a lattice-shaped structure in which a void space is provided inside the cofferdam partition wall (that is, the bulkhead), and divides the internal space of the floating offshore structure vertically and horizontally into each compartment. It is a structure to install the membrane type storage tank. Such a cofferdam has been used to partition between a plurality of storage tanks along a longitudinal direction in a conventional LNG carrier.

The cofferdam may be largely divided into a longitudinal cofferdam 20 and a width cofferdam 30. The widthwise cofferdam 30 is a structure that partitions the inner space of the offshore structure horizontally so that a membrane-type storage tank can be disposed along the lengthwise direction, and the longitudinal cofferdam 20 is an inner space of the hull of the offshore structure. The structure is partitioned vertically so that the membrane-type storage tank can be disposed along the width direction. The cofferdam bulkhead (ie, the bulkhead) of the widthwise cofferdam 30 may form the front wall portion and the back wall portion of the storage tank, and the cofferdam bulkhead (ie the bulkhead) of the longitudinal cofferdam 20 may be formed. The left or right wall of the storage tank can be formed.

As shown in FIG. 1, the widthwise cofferdam 30 is not only installed between the LNG storage tanks 11, but also between the LNG storage tank 11 and the LPG storage tank 12, and the LPG storage tank ( 12 and between the condensate storage tank 13 and between the condensate storage tank 13 and the stern side machine room 15.

In addition, a compartment cofferdam 25 may be installed between the turret 16 and the fuel oil storage tank 14, and between the turret 16 and the bow machine room 17.

As described above, when a membrane type storage tank is used as the liquefied gas storage tank, a partition structure made of the above-mentioned cofferdam is used as a structure for dividing the internal space of the offshore structure. In the case of a standalone storage tank, a simple bulkhead may be used as a partition structure for dividing the internal space of the offshore structure, that is, the tank hold in which the storage tank is located.

As in the present invention, in the field of liquefied gas storage tank for storing liquefied gas such as LNG, which is a liquid cargo in cryogenic state, it is impossible to simply divide one storage tank by a partition wall to achieve a two-row arrangement structure. The storage tank must be completely redesigned.

In membrane storage tanks, membrane structures (i.e., sealing wall structures) cannot form bulkheads by themselves, and when non-ferrous metal bulkheads are installed in existing membrane storage tanks, the price increases due to the use of expensive nonferrous metals. Becomes In addition, when non-ferrous metal bulkheads are installed inside the membrane-type storage tank, special design considering the installation of bulkheads should be made. In addition, the inside of the storage tank may not be composed of a single membrane structure, and there is a potential risk of damage to the partition or a decrease in adiabatic effect due to a discontinuity point between the membrane structure and the partition wall.

The inventors of the present invention, in forming the two-row arrangement structure by the membrane-type storage tank, as shown in Figure 1, in the transverse direction with the longitudinal cofferdam 20 extending longitudinally inside the hull of the offshore structure By installing an extending cofferdam 30 extending therein, a two-row arrangement structure of the storage tanks in which two LNG storage tanks are arranged along the longitudinal direction substantially in the width direction of the marine structure is proposed. According to the present invention, according to the present invention, the storage tanks are arranged in two rows in a marine structure.

A longitudinal cofferdam 20, that is, a void space, is formed between the storage tanks arranged in two rows, and the storage tanks formed to be arranged in two rows on both sides with the space portion therebetween are each formed by a membrane structure. You can have a separate storage space that is completely sealed.

As described above, according to the present invention, a membrane-type storage tank, a cofferdam, and another membrane-type storage tank are arranged in succession when viewed in the transverse direction of the marine structure, thereby producing a proven membrane-type storage tank. The technique (width cofferdam) can be applied to form a two-row arrangement structure, the intermediate longitudinal cofferdam 20 is to support the load of the upper structure at the same time.

The present invention can be applied to SPB type storage tanks as well as membrane type storage tanks. When the present invention is applied to the SPB type storage tank, a partition wall may be simply installed inside the tank hold in which the SPB type storage tank is disposed, or a cofferdam may be installed.

According to the present invention, the longitudinal cofferdam 20 is installed between the pair of storage tanks by utilizing the two-row arrangement structure of the storage tanks as described above. Accordingly, the LPG storage tank 12 and the condensate storage tank 13 disposed at the stern side of the LNG storage tanks 11 are separately separated from each other with the longitudinal cofferdam 20 interposed therebetween.

Normally the LNG storage tank 11 is made of a membrane tank, LPG storage tank 12 is made of a stand-alone tank. In particular, in the present invention, LPG storage tank 12 is preferably made of a type A independent tank. Although the LPG storage tank 12 is made of an independent tank, it is preferable that a longitudinal cofferdam 20 is provided between the pair of LPG storage tanks 12 arranged in the width direction of the hull.

In addition, as described above, not only between the LNG storage tanks 11, but also between the LNG storage tank 11 and the LPG storage tank 12, and between the LPG storage tank 12 and the condensate storage tank 13, A widthwise cofferdam 30 may be installed between the condensate storage tank 13 and the stern side machine room 15. In FIG. 1, the LPG storage tank 12 and the condensate storage tank 13 are sequentially disposed on the stern side of the LNG storage tank 11, but the LPG storage tank 12 and the condensate storage tank ( The positions of 13 can be interchanged.

In addition, a compartment cofferdam 25 may be installed between the turret 16 and the fuel oil storage tank 14, and between the turret 16 and the bow machine room 17.

The longitudinal cofferdam 20, the width cofferdam 30, and the division cofferdam 25 use different terms according to their arrangement, but all have the same cofferdam concept.

As shown in Figures 2 and 3, the port ballast tank 3 and starboard ballast tank 4 are provided on the outer side of the hull 1, that is, the LPG storage tank 12 and the condensate storage tank 13; The central ballast tank 5 may be installed below the longitudinal cofferdam 20 between the widthwise center of the hull 1, that is, between the LPG storage tank 12 and the condensate storage tank 13. have.

As shown in FIG. 4, a fuel oil storage tank 14 may be installed around the turret 16 extending from the upper deck of the hull 1 to the bottom to penetrate the hull, and the turret 16. A compartment cofferdam 25 is installed between the fuel oil storage tank 14 and safety. As fuel oil stored in the fuel oil storage tank 14, gas fuel, such as LNG, LPG, and CNG, is mentioned besides liquid fuel, such as HFO and MDO.

In addition, although FIG. 1 and FIG. 4 show that the fuel oil storage tank 14 is arranged on the left and right sides of the turret 16, a machine room may be installed in addition to the fuel oil storage tank 14.

As described above, according to the present invention, an offshore structure having two LPG storage tanks and two condensate storage tanks separated from each other through a longitudinal cofferdam extending longitudinally from the center of the hull in the longitudinal direction may be provided. have. In addition, according to the present invention, an off-shore cofferdam may be provided between the LNG storage tank and the LPG storage tank, between the LPG storage tank and the condensate storage tank, and a marine cofferdam may be provided around the turret. .

Accordingly, according to the marine structure of the present invention, even if a failure occurs in any one LPG storage tank, condensate storage tank or turret, it is possible to easily perform maintenance work through the cofferdam.

In addition, as a cofferdam is installed between the condensate storage tank and the stern side of the machine room and around the turret, it is easy to secure a safety zone.

In addition, as the size of the LPG storage tank and the condensate storage tank is reduced, it is possible to reduce the sloshing load due to the hull of the hull at sea.

While the structure of the marine structure according to the present invention has been described with reference to the accompanying drawings as described above, the present invention is not limited by the embodiments and drawings described above, in the technical field to which the present invention belongs within the claims Of course, various modifications and variations can be made by those skilled in the art.

1: hull, 3: port ballast tank, 4: starboard ballast tank, 5: central ballast tank, 11: LNG storage tank, 12: LPG storage tank, 13: condensate storage tank, 14: fuel oil storage tank, 15: Stern side machine room, 16: Turret, 17: Foreside machine room, 20: Longitudinal cofferdam, 25: Compartment cofferdam, 30: Width cofferdam

Claims (6)

It is a marine structure that is used floating at sea,
A marine structure having a cofferdam for partitioning, characterized in that it is separated by a cofferdam between a condensate storage tank as a danger zone and a machine room as a safety zone located adjacent to each other inside the hull. The method according to claim 1,
The condensate storage tank is a marine structure having a cofferdam for partitions, characterized in that a plurality is separated from each other in the width direction of the hull is installed separately. The method according to claim 2,
A marine structure having a compartment cofferdam, characterized in that a longitudinal cofferdam extending in the longitudinal direction of the hull between a plurality of the condensate storage tank. The method according to claim 1,
And a LNG storage tank for accommodating LNG, wherein the condensate storage tank is disposed at the stern side of the LNG storage tank. The method of claim 4,
The LNG storage tank is divided by a longitudinal cofferdam extending in the longitudinal direction of the hull having a two-column arrangement structure marine compartment having a cofferdam for partitions. The method according to claim 1,
The offshore structure is any one selected from the LNG FPSO, LNG FSRU, LNG transport ship and LNG RV, which is used in the floating state at the flow of the water while having a storage tank for storing the liquid cargo loaded in the cryogenic state Offshore structure having a cofferdam for compartments.

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