KR101409106B1 - Unification system of gas boosting and gas lifting of reservoir - Google Patents

Abstract

The present invention relates to an integrated system to boost and lift the fluid gas in a gas well and, more specifically, to an integrated system to boost and lift the fluid gas in a gas well capable of simplifying the system by integrating a gas boosting facility to boost fluid existed in a submarine oil well, and a gas lifting facility to lift the fluid. The present invention comprises: a gas well supplying gas from a gas tank of an FPSO; a production well formed on the center to lift the fluid introduced from the gas well and having a central pipe whereby a gas lift valve is arranged to control the static pressure of the internal fluid and an annular pipe formed on the outside of the central pipe to supply the gas introduced from the gas tank to the gas well; a gas supply pipe which has a first line having one side connected to the gas tank and the other side connected to the gas well and a second line branched from the middle of the first line and connected to the annular pipe of the production well; a manifold to connect a plurality of production wells; and a storage tank to store the fluid introduced via the manifold.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas boosting and gas lifting system,

The present invention relates to an integrated gas boosting and gas lifting system for a seawater fluid, and more particularly, to a gas boosting system for boosting a fluid present in a submarine well and a flooding system for simplifying the system by integrating lifting gas lifting equipment Gas boosting and gas lifting integrated systems.

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 oil flows into the production well 3 through the center pipe 4 at the center of the annular pipe 5, and the oil is collected in the storage tank 6 . A gas lift valve (7) is provided inside the center pipe (4) to adjust the static 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 occupied by the gas boosting facility is increased.

In addition, since the gas lift valve 7 is provided at the lower end portion thereof, the pressure in the central pipe 4 is suddenly changed, and slugging occurs in the FPSO equipment and the lifting process becomes unstable. As a result, There was a problem of shrinking.

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SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and its object is to simplify the facility by integrating the gas boosting facility and the gas lift facility, and to provide a plurality of gas lift valves, And to provide an integrated system for gas boosting and gas lifting of a sluice fluid.

According to an aspect of the present invention, there is provided a fuel cell system including: A center pipe provided at a central portion for lifting the fluid introduced from the water collecting compartment and having a gas lift valve for regulating the static pressure of the internal fluid; A production well comprising an annular tube to be formed; A gas supply line connected to the gas tank, the gas supply line comprising a first line connected to a collecting basin and a second line branched from the middle of the first line and connected to an annular pipe of the production well; A plurality of production wells connected to the manifold, and a storage tank for storing the fluid introduced through the manifold.

In one embodiment, the gas lift valve is characterized by a plurality of gas lift valves.

In one embodiment, the first line and the second line further include a gas boosting choke valve and a gas lift choke valve for controlling the supply amount of the gas.

In one embodiment, further between the production well and the manifold is an inflow control valve for regulating the amount of inflow fluid.

According to the gas boosting and gas lifting integrated system of the present invention, first, it is possible to simplify the installation and boosting pipeline of the FPSO by integrating the gas boosting facility and the gas lifting facility of the underwater production plant, It is effective.

Second, since the gas boosting equipment and the gas lifting equipment are integrated, the operation of the equipment is performed in one equipment, thereby reducing the equipment operation cost.

Thirdly, a plurality of gas lift valves can be used to use a compressor having a small capacity, which can effectively control the static pressure of the fluid in the center pipe.

Fourthly, when a single gas lift valve is used, the pressure in the center pipe suddenly changes in order to overcome the static pressure, slugging occurs in the FPSO equipment and the lifting process becomes unstable. On the other hand, It is possible to open and close the valve step by step so that the slugging control is easy and the oil can be produced stably.

1 is a schematic diagram illustrating an integrated system for gas boosting and gas lifting of a conventional seawater fluid.
Figure 2 is a schematic diagram illustrating an integrated system for gas boosting and gas lifting of a seawater fluid 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 and gas lifting integrated system of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a schematic diagram illustrating an integrated system for gas boosting and gas lifting of a seawater fluid of the present invention.

Referring to FIG. 2, the gas boosting and gas lifting integrated system of the present invention includes a gas tank 10 in which gas flowing into the fish tank 20 is stored. The gas tank 10 corresponds to one of the facilities of the FPSO. The gas tank 10 is provided with a compressor (not shown), and the gas is supplied to the water tank 20 by the pressure of the compressor.

The production well 30 is provided with a double pipe production well 30 through which a fluid flows in. The production well 30 includes a center pipe (not shown) formed at a central portion for lifting the fluid introduced from the water collection container 20 And a gas lift valve 33 for regulating the static pressure of the internal fluid is formed on the outer side of the center pipe 31 so that gas flowing from the gas tank 10 is supplied to the water tank 20 And an annular pipe (32).

The first line 41 is connected to the gas tank 10 and has a first side connected to the collecting basin 20 and a second line 41 branched from the middle of the first line 41, And a second line 42 connected to the gas supply pipe 32.

Meanwhile, the center pipe 31 is provided with a gas lift valve 33 for maintaining or controlling the internal static pressure. Specifically, the gas lift valve 33 can appropriately regulate the static pressure of the fluid in the center pipe 31 even if a plurality of the gas lift valves 33 are used and a compressor having a small capacity is used. In addition, the pressure can be controlled in sequence so that the static pressure of the fluid can be maintained or adjusted more effectively.

In addition, a gas boosting choke valve 43 and a gas lift choke valve 44 may be further provided between the first line 41 and the second line 42 to control the supply amount of the gas.

The plurality of production wells 30 may be connected to the manifold 50. Therefore, it is possible to collect a large amount of fluid (oil) of the fish tank 20 at one time. Between the production well 30 and the manifold 50, there may be provided an inflow control valve 51 for controlling the amount of inflowing fluid.

The fluid introduced via the manifold 50 is stored in the storage tank 60.

Hereinafter, the operating state of the gas boosting and gas lifting integrated system of the present invention will be described.

The pressure in the reservoir 20 is increased and the gas is introduced into the annular tube 32 of the production well 30 through the second line 42 to lift the fluid by the pressure. The fluid in the tank 20 having a higher pressure is collected in the storage tank 30 via the manifold 50 and the central pipe 31 of the production well 30. At this time, the gas lift valve 33 is opened and closed in a stepwise manner to maintain the static pressure of the center pipe 30, so that the slugging control is facilitated, so that the oil can be stably produced.

In addition, the inflow amount of the fluid is appropriately adjusted through the inflow control valve 51.

On the other hand, when the amount of gas supplied to the second line 42 is insufficient, gas can be supplied to the first line 41 as well.

Therefore, instead of the existing gas boosting facility for supplying gas, it is possible to supply the gas by branching the integrated one line, thereby reducing the investment cost of the apparatus. As a result, It is possible to increase the degree of freedom of design.

In addition, when a single gas lift valve is used, the pressure in the central pipe is suddenly changed to overcome the static pressure, and the slipping occurs in the FPSO facility and the lifting process becomes unstable. On the other hand, The valve can be opened and closed step by step, so that the slugging control is easy and the oil can be produced stably.

The embodiments of the gas boosting and gas lifting integrated system of the present invention described above are merely illustrative and those skilled in the art will appreciate that various modifications and equivalent implementations You can see that examples 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: gas tank 20:
30: production well 31: center tube
32: annular pipe 33: gas lift valve
40: gas supply pipe 41: first line
42: second line 43: gas boosting choke valve
44: Gas lift choke valve 50: Manifold
51: inflow control valve 60: storage tank

Claims (4)

A fish tank (20) supplied with gas from the gas tank (10) of the FPSO;
A central tube 31 formed at a central portion for lifting the fluid introduced from the fish tank 20 and having a gas lift valve 33 for regulating the static pressure of the internal fluid; A production well 30 composed of an annular tube 32 formed so that the gas introduced from the gas tank 10 is supplied to the fish tank 20;
The first line 41 is connected to the gas tank 10 and has one side connected to the colander 20 and a second line 41 branched from the middle of the first line 41 and connected to the annular pipe 32 And a second line (42) connected to the gas supply pipe (40).
A manifold 50 provided so that the production well 30 can be connected to a plurality of production wells,
And a storage tank (60) for storing the fluid introduced through the manifold (50). The method according to claim 1,
The gas lift valve (33)
Wherein the system comprises a plurality of gas boosting and gas lifting integrated systems. The method according to claim 1,
In the first line 41 and the second line 42,
Further comprising a gas boosting choke valve (43) and a gas lift choke valve (44) to control the supply of gas. The method according to claim 1,
Between the production well 30 and the manifold 50,
Further comprising an inlet regulating valve (51) for regulating the amount of the incoming fluid.

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