KR20140118167A - Gas boosting and lifting system for high productivity of undersea plant - Google Patents

Abstract

The present invention relates to a gas boosting and gas lifting system for improving the productivity of a seabed production plant. Specifically, the present invention relates to a gas boosting and gas lifting system for improving the productivity of a seabed production plant, which can increase productivity by continuously producing in collecting a fluid existing in an oil well in the seabed, can simplify facilities by integrating a gas boosting system with a gas lifting system, and can reduce operating costs. The gas boosting and gas lifting system comprises: one or more production wells which lift a fluid flowing from a recovery well, and are composed of a central pipe with a gas lift value for regulating the pressure head of an inside fluid, and a circular pipe formed on the external side of the central pipe in order to supply gas to the recovery well; a separator which separates the fluid into gas, water, and oil by integrating the fluid obtained from the production well in a manifold, that is, gas to the circular pipe, water to the recovery well, and oil to an oil tank; and a compressor which compresses the gas separated from the separator into high pressure and transfers the gas to the circular pipe.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a gas boosting and lifting system for improving the productivity of an underwater production plant,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas boosting system and a gas lifting system for improving the productivity of a seabed production plant. More particularly, the present invention relates to a gas boosting system and a gas lifting system, To a gas boosting system and a gas lifting system for improving the productivity of a submarine production plant capable of reducing operating costs due to the integration of the gas boosting system and the gas boosting system.

When drilling of natural gas or crude oil occurs at sea, the use of FPSO (Floating Production, Storage and Offloading), which is an offshore structure for temporary storage or treatment, is frequently used.

In other words, it can be said that it is an oil drilling ship that has the equipment such as a crude oil drilling platform moved on the boat. Since such an FPSO does not have an engine and it is impossible to navigate by magnetic force, Pulls it in, fixes it there, and does not move for a long time. So, in areas where the waves are rough and glaciers are frequently popping up, even if you find a petroleum resource store, it is practically difficult to mined, and only limited areas such as temperate areas are being used.

These FPSOs receive the gas or crude oil collected from the drill ship and process and store it before transporting through the ship or pipeline. On the other hand, in the case of temporarily storing only gas or crude oil, it is called a floating storage unit (FSU).

The system as shown in FIG. 1 is applied to the FPSO as described above, and the system is largely divided into a gas boosting facility and a gas lifting facility.

Specifically, the gas boosting facility supplies the gas supplied from the gas tank to the injection well 1 to the fish tank 2, and the gas introduced into the fish tank 2 increases the pressure of the fish tank 2, Oil Recovery.

In addition to the gas boosting facilities described above, the gas can be supplied to the fish tank 2 through the gas lifting equipment, which supplies the gas to the annular pipe 5 on the outer side of the production well 3 formed of a double pipe The pressure of the fish tank 2 can be increased.

At this time, when the pressure of the fish tank 2 is increased, the production well 3 receives the oil through the center pipe 4 at the central portion, and the oil is collected in the storage tank 6. A plurality of gas lift valves 7 are provided on the inner side of the center pipe 4 to sequentially adjust the head pressure of the oil.

However, the gas lifting system described above has a disadvantage in that the gas boosting facility and the gas lifting facility are separated from each other, resulting in an increase in manufacturing cost and complex installation of the compressor.

In addition, since the gas boosting facility and the gas lifting facility are separated from each other, the space occupies a large space, and the weight of the FPSO increases.

In addition, since a plurality of gas lift valves 7 are provided, the manufacturing process is complicated and manufacturing costs are increased. In addition, since it is difficult to precisely control the pressure in the center pipe 4, slugging occurs in the FPSO facility, which makes the lifting process unstable, thereby reducing the oil production amount.

[0008]

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems described above, and its object is to simplify the equipment by integrating the gas boosting facility and the gas lift facility, and to separate the fluid transferred from the manifold into the separator into gas, water and oil The objective is to provide a gas boosting and gas lifting system for improving the productivity of a subsea production plant capable of transferring gas to an annular pipe, water to a sump, and oil to an oil tank.

According to an aspect of the present invention, there is provided a centrifugal chiller comprising: a central tube having a gas lift valve for lifting a fluid introduced from a water reservoir and adjusting a head pressure of an internal fluid; A production well comprising at least one annular tube which is formed so as to be in the shape of an annular tube; Separating the gas, water and oil from the fluid obtained from the production well in a manifold to separate the fluid from the gas, water and oil separated by the separator for transferring the gas to the annular tube, the water to the sump, the oil to the oil tank, And compresses the compressed gas to the annular pipe.

In one embodiment, the apparatus further includes a first boosting pump for pressurizing the oil separated from the separator and transferring the oil to the oil tank, and a second boosting pump for pressurizing the separated water from the separator and transferring the separated oil to the collecting tank.

In one embodiment, the path of the oil tank and the second boosting pump further includes a well oil injection valve for bypassing the oil and controlling the oil to flow into the tank for emergency situations.

In one embodiment, the path of the oil tank and the first boosting pump further includes an oil supply choke valve for controlling the amount of oil flowing into the oil tank.

In one embodiment, the gas lift valve is provided in a single number.

According to the gas boosting and gas lifting system for improving the productivity of the seabed production plant of the present invention, first, unlike the existing facilities, it is unnecessary to install the gas boosting facility, so that the facilities of the FPSO are simplified, The cost can be reduced.

Secondly, it can be flexibly applied to various depths of water such as deep sea (300m) and deep sea (3000m), and it is possible to reduce the weight of equipment and simplify the process.

Third, even if the gas lift valve is provided in a single unit, the degree of pressure of the gas can be adjusted in the compressor, so that it is possible to obtain the same head pressure effect as in the case where a plurality of gas lift valves are provided.

Fourth, since the oil filling valve is opened in an emergency, stable operation is possible, and safety accident can be prevented.

1 is a schematic view showing a gas boosting and gas lifting system for improving the productivity of a conventional seabed manufacturing plant.
2 is a schematic view showing a gas boosting and gas lifting system for improving the productivity of the seabed production plant of the present invention.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Further, detailed descriptions of well-known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a gas boosting system and a gas lifting system for improving the productivity of a seabed production plant according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic view showing a gas boosting and gas lifting system for improving the productivity of the seabed production plant of the present invention.

Referring to FIG. 2, the gas boosting and gas lifting system for improving the productivity of the seabed production plant of the present invention is provided with one or more production wells 30 for lifting the fluid introduced from the catch 20.

The production well 30 includes a center tube 31 formed of a double tube and provided at a central portion for lifting the fluid and having a gas lift valve 33 for adjusting the head pressure of the internal fluid, And an annular pipe (32) formed so that gas is supplied to the water reservoir (20) outside the pipe (31). It is preferable that the gas lift valve 33 is provided in a single number, and the gas lift valve 33 can overcome the head pressure due to the gas pressurization of the compressor 20, which will be described later.

On the other hand, the fluid obtained in the production well 30 (see dashed arrows) is integrated in the manifold 50 and the integrated fluid is provided with a separator 10 for separating gas, water and oil.

The gas separated from the separator 10 is circulated through the annular pipe 32 (see a solid line arrow) and the water is collected by a water tank 20 (see a dot-dash line arrow) . Here, the separator 10, the annular pipe 32, the fish tank 20 and the oil tank 40 are connected to each other by a pipe, so that the fluid can be smoothly transported.

The compressor 20 may further include a compressor 20 for compressing the gas separated by the separator 10 to a high pressure and delivering the compressed gas to the annular pipe 32.

A first boosting pump 61 for pressurizing the oil separated by the separator 10 and transferring the separated oil to the oil tank 40 and the water discharged from the separator 10 are fed to the water tank 20 A second boosting pump 62 may be further provided. The pipe for guiding the water to be conveyed to the fish tank 20 is wrapped with a heat insulating material, so that the pipe can be prevented from being frozen.

The operation of the gas boosting and gas lifting system for improving the productivity of the seabed production plant of the present invention will be described below.

The gas pressurized in the compressor (20) is introduced into the annular pipe (32) in order to collect the oil present on the fish tank (20). The flow rate of the gas flowing into the annular pipe (32) can be controlled by the gas lift choke valve (21).

The gas introduced into the annular pipe 32 flows into the water reservoir 20 to increase the pressure of the water reservoir 20 so that the fluid present on the water reservoir 20 flows through the center pipe 31 And flows into the manifold 50. The manifold 50 is connected to one or more production wells 30 and the fluid introduced through the production wells 30 enters the separator 10. A fluid supply choke valve (51) is provided between the manifold (50) and the production well (30) so that the supply amount of the fluid can be adjusted.

Meanwhile, the fluid introduced into the separator 10 separates the gas, the water and the oil, and the gas is transferred to the annular pipe 32, the water to the fish tank 20 and the oil to the oil tank 40 .

Specifically, the gas separated from the separator 10 is compressed to a high pressure by the compressor 20 and is transferred to the annular pipe 32. The separated oil is transferred to the oil tank through the first boosting pump 61 , And the separated water is introduced into the fish tank 20 by the second boosting pump 62. An oil supply choke valve 64 is provided between the first boosting pump 61 and the oil tank 40 to control the amount of oil flowing into the oil tank 40.

When the oil supplied through the first boosting pump 61 is abnormal, the oil choke valve 64 is shut off and the oil filling valve 63 is opened to allow the oil to flow into the water collecting compartment 20, So that safety accidents can be prevented.

Through the above-described series of processes, the fluid present on the water tank 20 is separated into gas, oil, and water so that the gas and water are circulated. Only the oil flows into the oil tank 40, .

In addition, since the gas boosting and lifting facilities described above are integrated, a separate gas boosting facility is not required, thereby simplifying the facility and reducing the fuel required to operate the gas booster facility.

The embodiments of the gas boosting and gas lifting system for improving the productivity of the seabed production plant of the present invention described above are merely illustrative, and those skilled in the art will appreciate that various modifications and changes may be made thereto, It will be appreciated that other equivalent embodiments are possible. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

10: separator 20: compressor
21: Gas lift choke valve 30: Production well
31: center tube 32: annular tube
33: Gas lift valve 40: Oil tank
50: manifold 51: fluid supply choke valve
61: first boosting pump 62: second boosting pump
63: Oil well injection valve 64: Oil supply choke valve

Claims (5)

A central tube 31 provided with a gas lift valve 33 for lifting the fluid flowing from the water collecting tank 20 and regulating the head pressure of the internal fluid; A production well (30) comprising at least one annular tube (32) formed to be supplied to at least one outlet (20);
The fluid obtained in the production well 30 is integrated in the manifold 50 to separate the fluid into gas, water and oil, the gas into the annular tube 32, the water into the sump 20, A separator 10 for conveying to the tank 40,
And a compressor (20) for compressing the gas separated by the separator (10) to high pressure and transferring the gas to the annular pipe (32). The method according to claim 1,
A first boosting pump 61 for pressurizing the oil separated by the separator 10 and transferring the oil to the oil tank 40,
Further comprising a second boosting pump (62) for pressurizing the water separated by the separator (10) and transferring the separated water to the fish tank (20). The gas boosting and gas lifting system for productivity improvement of a seabed production plant.
3. The method according to claim 1 or 2,
In the path of the oil tank 40 and the second boosting pump 62,
Further comprising a oil filling valve (63) for controlling the oil to flow into the tank (20) by bypassing the oil in preparation for an emergency situation. The gas boosting and gas lifting system for improving the productivity of an underwater production plant. 3. The method according to claim 1 or 2,
In the path of the oil tank 40 and the first boosting pump 61,
Further comprising an oil supply choke valve (64) for controlling the amount of oil flowing into the oil tank (40). The method according to claim 1,
The gas lift valve (33)
Gas boosting and gas lifting system for improving the productivity of a subsea production plant.

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