KR101654195B1 - Pipe For Seawater Lift - Google Patents

Abstract

A seawater intake pipe is disclosed. A seawater intake pipe of the present invention is a sea water intake pipe, comprising: a pipe body forming a seawater intake pipe; And a watertight valve portion provided at both ends of the pipe body, wherein a pump for discharging water or injecting gas is connected to the pipe body.

Description

Pipe For Seawater Lift}

The present invention relates to a seawater intake pipe, and more particularly to a seawater intake pipe to which a watertight valve is provided in a pipe body, and a pump for discharging water or injecting gas is connected to the pipe body.

Recently, various marine resource development has become active due to depletion of landfilled energy, and oil and gas wells are being developed and developed for the purpose of extracting crude oil and natural gas from the sea.

Ocean oil production accounts for one-third of the total oil production, and various offshore structures are also emerging in this trend.

Offshore platform refers to the structures installed on the sea or under the sea. It is a facility capable of drilling, production and storage of offshore energy sources such as crude oil or natural gas. It can be classified as a fixed ocean platform with platform installed and a floating ocean platform floating at sea level.

Floating offshore platform is a facility for producing LNG at sea, and is representative of LNG FPSO (Floating, Production, Storage and Offloading) and LNG FSRU (Floating Storage and Regasification Unit).

LNG FPSO is a floating marine structure that is used to liquefy natural gas produced directly from the sea and store it in storage tanks, and to transfer LNG stored in storage tanks to LNG carriers when necessary. In addition, the LNG FSRU is a floating type of floating structure that stores LNG unloaded from LNG carriers in offshore sea, stores it in a storage tank, vaporizes LNG if necessary, and supplies the LNG to the customer.

These marine platforms are equipped with various facilities for producing crude oil and natural gas. In order to cool the heat generated from these facilities and the heat generated during the process, seawater having a lower temperature than surface water can be used as cooling water have. In addition, seawater is also used for freshwater production and ballasting. For this purpose, a marine platform is equipped with a pipe to collect seawater.

1 schematically shows a marine platform S having a pipe 10 therein.

As shown in FIG. 1, a pipe 10 having a considerable length of about 100 m is installed on the marine platform S in order to collect deep-seated water at a low temperature. Various equipment for drilling or producing crude oil and the like is installed or removed The pipe must be lifted and removed.

The sum of the weight of the pipe and the weight of seawater inside the pipe amounts to about 20 to 30 tons (t), so lifting such a pipe is a difficult task to mobilize a large crane (C).

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and it is an object of the present invention to provide a water-tight valve unit at both ends of a pipe body and connect a pump to the pipe body to discharge water or inject gas into the pipe body The buoyancy of the pipe body is increased so that it can be lifted easily from the seawater so as to be salvaged.

According to an aspect of the present invention, in the seawater intake pipe,

A pipe body forming a seawater inlet channel; And

And a watertight valve provided at both ends of the pipe body,

And a pump for discharging water or injecting gas is connected to the pipe body.

The watertight valve portion may include a first watertight valve provided at an upper end of the pipe body and a second watertight valve provided at a lower end of the pipe body.

The buoyancy of the pipe body at the seawater can be increased by closing the second watertight valve, discharging water inside the pipe body with the pump, and closing the first watertight valve to create an air layer inside the pipe body.

The buoyancy of the pipe body in seawater can be increased by closing the first watertight valve, injecting gas into the pipe body with the pump, and closing the second watertight valve to form a gas layer inside the pipe body .

According to another aspect of the present invention, there is provided a method for lifting a seawater intake pipe from seawater,

A watertight valve is provided at both ends of the seawater intake pipe, the watertight valve is closed, the pump is connected to the inside of the seawater intake pipe, and water is discharged or air is injected to increase the buoyancy of the seawater intake pipe And lifting the seawater intake pipe from the seawater is provided.

The seawater intake pipe of the present invention has a watertight valve at both ends of a pipe body and connects a pump to the pipe body to discharge water or inject gas inside the pipe body to increase the buoyancy of the pipe body, So that it can be removed easily.

FIG. 1 schematically shows a state in which a pipe for taking seawater is floated by a crane and removed from seawater.
FIG. 2 schematically illustrates the removal of a seawater intake pipe according to an embodiment of the present invention from seawater.

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

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings.

2 shows a schematic view of a seawater intake pipe according to an embodiment of the present invention.

2, the seawater intake pipe according to the present embodiment includes a pipe body 110 forming a seawater intake pipe, a watertight seal provided at both ends of the pipe body 110, And a valve unit 120. The pipe body 110 is connected to a pump (not shown) for discharging water or injecting gas.

The watertight valve unit 120 may include a first watertight valve 121 provided at the upper end of the pipe body 110 and a second watertight valve 122 provided at the lower end of the pipe body 110.

In one embodiment, the second watertight valve is closed, the water inside the pipe body 110 is discharged by a pump (not shown), and the first watertight valve 121 is closed to create an air layer inside the pipe body 110 Thereby increasing the buoyancy of the pipe body 110 in seawater.

When the seawater inside the body is pumped out by a pump (not shown) connected to the pipe body 110 after the second watertight valve 122 is closed under the pipe body 110, an air layer is formed inside the pipe body 110 The pipe body 110 floats toward the sea surface by buoyancy. The floating pipe body 110 can be lifted by lifting equipment such as a crane C or the like.

The pipe body 110 floated up to near the sea level due to buoyancy to easily discharge even the small crane C having a capacity of about 4 to 5 tons capacity provided on the platform S, (S).

In another embodiment, the first watertight valve 121 is closed, the gas is injected into the pipe body 110 by a pump (not shown), the second watertight valve 122 is closed, The buoyant force of the pipe body 110 in seawater can be increased.

When the first watertight valve 121 on the upper part of the pipe body 110 is closed and the gas is injected into the body by a pump (not shown) connected to the pipe body 110, the seawater is pushed down to the lower part of the pipe body 110 A gas layer is formed from the upper part of the pipe body 110 while being discharged. The second watertight valve 122 is closed and the pipe body 110 is floated toward the sea surface by buoyancy when a sufficient gas layer is formed to float the pipe body 110 to the sea surface. The pipe body 110 floating up to sea level can be lifted by lifting equipment such as a crane (C).

The pipe body 110 lifted up to near the sea level can be easily lifted to the platform S by a small crane C having a capacity of about 4 to 5 tons capacity provided in the platform S have.

The gas injected into the pipe body 110 may be air, and the molecular weight may be small to increase buoyancy using other light gases. A pump (not shown) may be connected to a tank for storing compressed air or gas.

According to another aspect of the present invention, there is provided a method for lifting a seawater intake pipe from seawater,

A watertight valve is provided at both ends of the seawater intake pipe, a watertight valve is closed, and a pump (not shown) is connected to the inside of the seawater intake pipe to form an air layer by discharging water or air to increase the buoyancy of the seawater intake pipe (C), and is lifted from the seawater. A method for lifting a seawater intake pipe is provided.

As described above, the seawater intake pipe according to the present embodiment includes a watertight valve at both ends of the pipe body 110, and a pump (not shown) is connected to the pipe body 110 to prevent the water inside the pipe body 110 The buoyancy of the pipe body 110 can be increased by discharging water or injecting gas, so that it can be easily lifted off from the seawater.

By forming an air layer inside the pipe body 110 to lighten the weight, the pipe can also be removed from the seawater by a relatively small crane C having a capacity of 4 to 5 tons (t). Because buoyancy floats the pipe to near the sea level, the working time is reduced compared to lifting from deep sea to the crane. The use of a relatively low-cost small crane reduces the work cost, and the large crane can be used for other operations The efficiency can be increased.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

S: Platform
C: Crane
110: Pipe body
120: Watertight valve portion
121: first watertight valve
122: second watertight valve

Claims (5)

In the seawater intake pipe,
A pipe body forming a seawater inlet channel; And
And a watertight valve provided at both ends of the pipe body,
A pump for discharging water from the inside of the pipe body or injecting gas into the pipe body is connected to the pipe body,
Wherein a gas is injected into the pipe body to lift the pipe body, and the pipe body is floated up to near the sea level. The watertight valve according to claim 1, wherein the watertight valve portion
A first watertight valve provided at an upper end of the pipe body; And
And a second watertight valve provided at a lower end of the pipe body. 3. The method of claim 2,
The buoyancy of the pipe body in the seawater is increased by closing the second watertight valve and discharging the water inside the pipe body with the pump and closing the first watertight valve to create an air layer inside the pipe body. Sea water intake pipe. 3. The method of claim 2,
The buoyancy of the pipe body in the seawater is increased by closing the first watertight valve, injecting gas into the pipe body with the pump, and closing the second watertight valve to form a gas layer inside the pipe body Sea water intake pipe. A method for lifting a seawater intake pipe from seawater,
Closing one of the watertight valves provided at the upper and lower ends of the seawater intake pipe;
Injecting gas into the seawater intake pipe;
Closing an other one of the watertight valves provided at the upper and lower ends to form an air layer inside the pipe; And
And lifting the seawater intake pipe floating on the sea surface by discharging water in a space between the upper watertight valve and the lower watertight valve of the seawater intake pipe and forming an air layer,
And lifting the seawater intake pipe to the sea level by buoyancy and lifting by using lifting equipment.

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