KR20150050600A - Seawater cooling system of fpso and back pressure control method - Google Patents

Abstract

According to an embodiment of the present invention, provided is a seawater cooling system of an FPSO, which comprises: a seawater lift pump; a refrigerant device; and a heat exchanger which exchanges heat of the seawater supplied from the seawater lift pump with a refrigerant supplied from the refrigerant device. The seawater cooling system of an FPSO includes a back pressure forming device to make seawater discharged through the heat exchanger flow at a certain height, and forms a back pressure in correspondence to the height of the seawater.

Description

Seawater cooling system of FPSO and its back pressure control method

The present invention relates to a seawater cooling system of FPSO and its back pressure adjustment method.

FIG. 1 shows a method of adjusting the back pressure of a conventional FPSO sea water cooling system. Referring to FIG. 1, a seawater cooling system used in a conventional floating production storage and offloading (FPSO) system is provided with a back pressure control valve control valves have been installed. That is, the sea water is supplied from the sea water lift pump 100, the refrigerant is supplied from the refrigerant device 300, and the refrigerant and the sea water are heat-exchanged in the heat exchanger 200 and then the sea water is discharged. And a mechanical back pressure regulating valve 400 is installed at the rear end.

However, in the present invention, the conventional back pressure regulating valve 400 is not used, and the back pressure is naturally maintained to facilitate re-operation.

Korea Published Patent 2012-0032105

Embodiments of the present invention provide an FPSO seawater cooling system including a seawater lift pump, a refrigerant apparatus, and a heat exchanger for exchanging seawater supplied from the seawater lift pump and refrigerant supplied from the refrigerant apparatus, The seawater discharged through the vessel will remain at a certain height, and the seawater will form a back pressure as high as the sea level.

It also tries to facilitate the discharge of seawater by forming a pipeline loop.

Also, we want to adjust the back pressure by adjusting the vertical pipe height.

According to an aspect of the present invention, there is provided a heat exchanger (200) in which seawater lift pump (100), refrigerant device (300), sea water supplied from the sea water lift pump (100) and refrigerant supplied from the refrigerant device (300) Wherein the seawater cooling system of the FPSO includes a backpressure forming device (500) including a back pressure forming device (500) to maintain the seawater discharged through the heat exchanger (200) Can be provided.

The back pressure forming apparatus 500 may include a vertical pipe 510 so that the seawater remains at a predetermined height in the vertical pipe 510 and forms a back pressure by the height of the seawater.

The back pressure forming apparatus 500 includes a vertical pipe 510, a horizontal pipe 520 horizontally connected to the outlet of the vertical pipe 510, and a vertical pipe 520 connected vertically downward from the end of the horizontal pipe 520. [ And is connected to the pipe 530 to form a pipe loop.

Further, the back pressure can be adjusted by adjusting the height of the vertical pipe 510.

According to another aspect of the present invention, there is provided a heat exchanger 200 in which sea water supplied from the sea water lift pump 100, the refrigerant device 300 and the sea water lift pump 100 and the refrigerant supplied from the refrigerant device 300 are heat- The seawater discharged through the heat exchanger 200 is provided with a back pressure adjusting method of the FPSO seawater cooling system for forming a back pressure by the height of seawater in the back pressure forming apparatus 500 .

The back pressure forming apparatus 500 includes a vertical pipe 510. Sea water is discharged through the vertical pipe 510 and remains at a predetermined height in the vertical pipe 510, And the second electrode is formed.

Further, the back pressure can be adjusted by adjusting the height of the vertical pipe 510.

Embodiments of the present invention provide an FPSO seawater cooling system including a seawater lift pump, a refrigerant apparatus, and a heat exchanger for exchanging seawater supplied from the seawater lift pump and refrigerant supplied from the refrigerant apparatus, The seawater discharged through the vessel remains at a constant height and can form back pressure by the height of the seawater.

In addition, a piping loop can be formed to facilitate the discharge of seawater.

Also, the back pressure can be adjusted by adjusting the height of the vertical pipe.

FIG. 1 shows a method of adjusting the back pressure of a conventional FPSO sea water cooling system.
FIG. 2 illustrates a method of adjusting the back pressure of the FPSO sea water cooling system according to an embodiment of the present invention
FIG. 3 illustrates a back pressure forming apparatus for an FPSO sea water cooling system according to an embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, configurations and operations according to embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 illustrates a method of adjusting the back pressure of a FPSO sea water cooling system according to an embodiment of the present invention, and FIG. 3 illustrates an apparatus for forming a back pressure of a FPSO sea water cooling system according to an embodiment of the present invention

Referring to FIGS. 2 and 3, in the embodiment of the present invention, the back pressure is maintained by using the back pressure forming apparatus 500 instead of the conventional back pressure regulating valve so as to facilitate re-operation.

The FPSO seawater cooling system according to the present invention includes a seawater lift pump 100, a heat exchanger 200, a refrigerant device 300, and a back pressure forming device 500. The seawater supplied from the sea water lift pump 100 is heat-exchanged with the refrigerant supplied from the refrigerant device 300 in the heat exchanger 200 and discharged. At this time, the back pressure forming apparatus 500 is formed at the rear end of the system in which seawater is discharged to form and maintain the back pressure.

The back pressure forming apparatus 500 includes a vertical pipe 510 and a horizontal pipe 520 horizontally connected to the outlet of the vertical pipe 510 and a vertical discharge pipe 530 vertically connected downward from the end of the horizontal pipe 520 And the heat exchanged seawater in the heat exchanger 200 is discharged along the piping loop.

At this time, the back pressure forming apparatus 500 includes the vertical pipe 510, and the seawater that has not been completely discharged forms a certain height in the vertical pipe 510 to form the back pressure.

The back pressure to be maintained can be adjusted by adjusting the height of the vertical pipe 510. When the height of the vertical pipe 510 is increased, the size of the back pressure is increased. When the height of the vertical pipe 510 is decreased, will be.

Therefore, even if there is no mechanical back pressure regulating valve as in the prior art, the back pressure is maintained by the seawater maintaining a constant height in the vertical pipe 5100, so that the construction is simple and the re-operation is easy due to the back pressure kept constant.

100: Sea water lift pump 200: Heat exchanger
300: Refrigerant device 400: Backpressure regulating valve
500: back pressure forming device
510: Vertical piping 520: Horizontal piping
530: Vertical discharge piping

Claims (7)

And a heat exchanger 200 for exchanging the sea water supplied from the sea water lift pump 100 with the refrigerant device 300 and the sea water supplied from the sea water lift pump 100 and the refrigerant supplied from the refrigerant device 300, The system of claim 1, further comprising a backpressure forming device (500) to maintain the seawater discharged through the heat exchanger (200) at a constant height and form a back pressure as high as the height of the seawater.
The method according to claim 1,
The back pressure forming apparatus 500 includes a vertical pipe 510 so that the seawater remains at a predetermined height in the vertical pipe 510 and forms a back pressure by the height of the seawater.
The method according to claim 1,
The back pressure forming apparatus 500 includes a vertical pipe 510, a horizontal pipe 520 horizontally connected to the outlet of the vertical pipe 510, and a vertical discharge pipe vertically connected downward from the end of the horizontal pipe 520 530) to form a pipeline loop.
The method according to claim 2 or 3,
And the back pressure is adjusted by adjusting the height of the vertical pipe (510).
And a heat exchanger 200 for exchanging the sea water supplied from the sea water lift pump 100 with the refrigerant device 300 and the sea water supplied from the sea water lift pump 100 and the refrigerant supplied from the refrigerant device 300, Wherein the seawater discharged through the heat exchanger (200) forms back pressure by the height of the seawater in the back pressure forming apparatus (500).
6. The method of claim 5,
The back pressure forming apparatus 500 includes a vertical pipe 510 so that seawater is discharged through the vertical pipe 510 and remains at a predetermined height in the vertical pipe 510 to form back pressure by the height of seawater Wherein the FPSO seawater cooling system comprises:
The method according to claim 6,
Wherein the back pressure is adjusted by adjusting the height of the vertical pipe (510).

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