KR101609414B1 - Apparatus for Producing Marine Resources of Offshore Plant - Google Patents

Abstract

The present invention relates to a separation device for separating marine resources and a mixture from a storage source, a separation section for discharging marine resources into a pipeline connected to the resource treatment facility after separating the mixture from the fluid supplied from the transfer section, And a re-supply unit for re-supplying the liquid to the storage source from the mixture separated from the fluid by the separation unit. The present invention relates to a marine resource production apparatus for a marine plant,
According to the present invention, by reducing the size and weight of the resource treatment facility, it is possible to improve the ease of installation and maintenance of the resource treatment facility, and by increasing the proportion of the marine resources to the pipeline transportation, It can improve resource productivity and reduce the cost of maintenance on the pipeline by reducing the risk of damage or destruction of the pipeline.

Description

[0001] Apparatus for Producing Marine Resources of Offshore Plant [

The present invention relates to a marine resource production apparatus for an offshore plant for producing marine resources buried in the ocean.

The offshore plant is a facility that excavates, drills and produces resources (hereinafter referred to as "marine resources") such as oil and gas that are buried in the ocean. These offshore plants are rapidly emerging as major industries due to energy shortages due to rising energy demand in emerging nations and high oil prices.

1 is a schematic block diagram of an offshore plant according to the prior art.

1, an offshore plant 100 according to the related art includes a transfer unit 110 installed in a reservoir 10 in which marine resources are buried, a resource processing unit installed apart from the transfer unit 110, A pipeline 130 connecting the transfer unit 110 and the resource processing facility 120 and an opening and closing unit 140 installed in the pipeline 130.

The transfer unit 110 transfers marine resources buried in the storage source 10 to the resource processing facility 120 through the pipeline 130. One side of the transfer unit 110 is connected to the storage source 10, and the other side is connected to the pipeline 130. The transfer unit 110 moves the marine resources buried in the storage source 10 toward the pipeline 130 so that the marine resources are transferred to the resource treatment facility 120 through the pipeline 130.

The resource processing facility 120 performs a predetermined process such as three-phase separation, water treatment, storage, and the like on the marine resources supplied from the transfer unit 110. The resource treatment facility 120 may be a Floating Production, Storage and Off-loading Vessels (FPSO), a Tension Leg Platform (TLP), or the like.

One side of the pipeline 130 is connected to the transfer unit 110 and the other side of the pipeline 130 is coupled to the resource processing facility 120. The marine resources discharged from the transfer unit 110 move along the pipeline 130 and are supplied to the resource treatment facility 120.

The opening and closing part 140 is installed in the pipeline 130 between the transfer part 110 and the resource processing facility 120. The opening and closing part 140 opens and closes the pipe lie 130. When the marine resources are transferred from the transfer unit 110 to the resource processing facility 120, the opening / closing unit 140 opens the pipeline 130. When the operation of transferring the marine resources from the transfer unit 110 to the resource processing facility 120 is stopped, the opening / closing unit 140 closes the pipeline 130.

Here, the conventional ocean plant 100 has the following problems, because the resource processing facility 120 performs all the predetermined processes such as three-phase separation, water treatment, storage, and so on for marine resources.

First, the marine resources buried in the storage source 10 are mixed with other mixture such as water, gas and the like, and the transfer unit 110 supplies the marine resources to the resource treatment facility 120 Transfer. Accordingly, the offshore plant 100 according to the prior art is provided with a separator for separating the marine resources and the mixture from the resource treatment facility 120, a water treatment facility for separating the marine resources and the separated water by the separator, Facilities for carrying out a predetermined treatment process were installed. Accordingly, in the offshore plant 100 according to the related art, the size and weight of the resource processing facility 120 are increased due to the installation of many facilities in the resource processing facility 120, .

Secondly, the offshore plant 100 according to the prior art is transported from the transfer unit 110 to the resource treatment facility 120 along the pipeline 130 while the marine resources are mixed. Accordingly, the offshore plant 100 according to the prior art has a problem in that the productivity of the marine resources is deteriorated because the mixed mixture in the marine resources occupies a considerable portion in the amount of transportation to the pipeline 130.

Third, the mixture mixed with the marine resources may cause CO ₂ corrosion or the like in the pipeline 130 to damage or break the pipeline 130, and may be formed of deposits such as hydrate, wax, As shown in Fig. Therefore, in the offshore plant 100 according to the related art, there is a great risk that the resource processing facility 120 separated by a considerable distance and the pipeline 130 formed to have a considerable length for connecting the transfer unit 110 are damaged or broken, Accordingly, there is a problem in that maintenance and management of the pipeline 130 is expensive.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a marine resource production apparatus for a marine plant capable of reducing the size and weight of a resource treatment facility.

The present invention is to provide a marine resource production apparatus for an offshore plant that can increase the amount of marine resources transferred through a pipeline.

The present invention is to provide a marine resource production apparatus capable of reducing the risk of damage or breakage due to a mixture of pipelines mixed with marine resources.

In order to solve the above-described problems, the present invention can include the following configuration.

The apparatus for producing a marine resource for an offshore plant according to the present invention comprises: a transfer unit for transferring a mixed fluid of marine resources and a mixture from a storage source; A separation unit installed between the pipeline connected to the resource treatment facility and the transfer unit for discharging marine resources to the pipeline after separating the mixture from the fluid supplied from the transfer unit; And a re-supply unit connected to the separator and the reservoir, respectively, for re-supplying the liquid to the reservoir from the mixture separated from the fluid by the separator.

According to the present invention, the following effects can be obtained.

The present invention can reduce the number and size of facilities installed in the resource processing facility, thereby reducing the size and weight of the resource processing facility, thereby contributing to enhancement of ease of installation and maintenance of the resource processing facility have.

The present invention can improve the productivity of marine resources by increasing the share of marine resources in the pipeline transport volume and reduce the cost of maintenance of the pipeline by reducing the risk of pipeline damage or breakage. can do.

The present invention can improve the ease of installation and maintenance by omitting the water treatment facility for purifying the liquid to prevent environmental pollution and can reduce the operating cost for producing marine resources.

1 is a schematic block diagram of an offshore plant according to the prior art;
2 is a schematic block diagram of a marine resource production apparatus for an offshore plant according to the present invention
3 is a schematic cross-sectional view of a marine resource production apparatus for an offshore plant according to the present invention
4 is a schematic block diagram of a marine resource production apparatus for an offshore plant according to a modified embodiment of the present invention

It should be noted that, in the specification of the present invention, the same reference numerals as in the drawings denote the same elements, but they are numbered as much as possible even if they are shown in different drawings.

Meanwhile, the meaning of the terms described in the present specification should be understood as follows.

The word " first, "" second," and the like, used to distinguish one element from another, are to be understood to include plural representations unless the context clearly dictates otherwise. The scope of the right should not be limited by these terms.

It should be understood that the terms "comprises" or "having" does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

It should be understood that the term "at least one" includes all possible combinations from one or more related items. For example, the meaning of "at least one of the first item, the second item and the third item" means not only the first item, the second item or the third item, but also the second item and the second item among the first item, Means any combination of items that can be presented from more than one.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a marine resource production apparatus for a marine plant according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a schematic block diagram of a marine resource production apparatus for a marine plant according to the present invention, FIG. 3 is a schematic cross-sectional view of a marine resource production apparatus for a marine plant according to the present invention, and FIG. FIG. 1 is a schematic block diagram of a marine resource production apparatus for an offshore plant according to the present invention.

2 and 3, the marine resource production apparatus 1 for a marine plant according to the present invention is applied to an offshore plant for exploration, drilling and production of marine resources such as oil and gas buried in the ocean . Such an offshore plant performs the operation of transferring marine resources from a reservoir 10 located on the sea floor to a resource treatment facility 20 located on the sea or onshore. The marine resources discharged from the storage source 10 are moved along the pipeline 30 connected to the resource treatment facility 20 and transferred to the resource treatment facility 20. The pipeline 30 may be connected to the resource treatment facility 20 via a manifold. The manifold may collect the marine resources transferred from the plurality of storage sources 10 through a plurality of pipelines 30 and then transfer the collected marine resources to the resource processing facility 20. [

A marine resource production apparatus (1) for a marine plant according to the present invention comprises a transfer unit (2) for transferring a mixed fluid of marine resources and a mixture from a storage source (10), a pipeline (30) And a re-supply unit 4 connected to the separation unit 3 and the storage source 10, respectively.

The separation unit 3 separates the mixture from the fluid supplied from the transfer unit 2, and then discharges the marine resources to the pipeline 30. Thus, the separation unit 3 removes the mixture from the fluid before the marine resources reach the resource treatment facility 20, thereby producing marine resources. To be supplied to the resource processing facility 20. The liquid in the mixture separated from the fluid by the separating part (3) is supplied again to the reservoir (2) by the refill part (4). Therefore, the marine resource production apparatus 1 for a marine plant according to the present invention can achieve the following operational effects.

First, the marine resource production apparatus 1 for a marine plant according to the present invention includes the separation unit 3 and the re-supply unit 4, And the scale of the separator and the water treatment facility installed in the resource treatment facility 20 can be reduced. Accordingly, the marine resource production apparatus 1 for a marine plant according to the present invention can reduce the number and size of facilities installed in the resource disposal facility 20, thereby reducing the size and weight of the resource disposal facility 20 . Accordingly, the marine resource production apparatus 1 for a marine plant according to the present invention improves the ease of installation and maintenance of the resource treatment facility 20, And can contribute to reducing management costs.

Second, the marine resource production apparatus 1 for an offshore plant according to the present invention is transported to the resource treatment facility 20 along the pipeline 30 with the marine resources unmixed. Therefore, the marine resource production apparatus 1 for an offshore plant according to the present invention can reduce the proportion of the mixture in the feed amount to the pipeline 30, while the marine resources occupy the feed amount to the pipeline 30 The specific gravity can be increased. Accordingly, the marine resource production apparatus 1 for an offshore plant according to the present invention can improve the productivity against marine resources.

Third, the state marine plant marine resources production device 1 according to the present invention are marine resources that the mixture is not mixed is implemented to transfer along the pipeline 30, CO ₂ to the pipeline 30 It is possible to eliminate the cause of corrosion and the like. In addition, the apparatus 1 for producing a marine resource for an offshore plant according to the present invention can eliminate the cause of forming deposits such as hydrate and wax in the pipeline 30. Therefore, the marine resource production apparatus 1 for a marine plant according to the present invention reduces the risk of damage or breakage of the pipeline 30, thereby reducing the cost of maintenance for the pipeline 30 have.

Fourth, in the marine resource production apparatus 1 for a marine plant according to the present invention, since the re-supply unit 4 re-supplies the liquid in the mixture to the storage source 10, it is necessary to purify the liquid to prevent environmental pollution none. Therefore, the marine resource production apparatus 1 for a marine plant according to the present invention can improve the ease of installation and maintenance by omitting the water treatment facility, and can reduce the operating cost for producing marine resources.

Hereinafter, preferred embodiments of the transfer unit 2, the separation unit 3, and the re-supply unit 4 will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 2 and 3, the transfer unit 2 is connected to the storage source 10. The storage source 10 is located in the sea bed where marine resources such as oil and gas are buried. The transfer unit 2 may be installed in the seabed so that one side of the transfer unit 2 is connected to the inside of the storage source 10 and the other side of the transfer unit 2 is located outside the sea floor. The other side of the conveying unit 2 is connected to the separating unit 3 through a coupling pipe 2a. The connection pipe (2a) can provide a flow path for transferring a mixture of marine resources and a mixture, for example, a pipe. A heat insulating material may be coupled to the coupling pipe 2a. The connecting pipe 2a may be provided with an opening / closing part 2b for controlling the amount of fluid discharged from the transferring part 2 and supplied to the separating part 3. The opening / closing part 2b may be a choke valve. The transfer unit 2 may be installed to be connected to the storage source 10 in a state where a part or all of the transfer unit 2 is locked in the ocean.

2 and 3, the separating part 3 is installed to be connected to the conveying part 2. [ One side of the separator 3 may be connected to the transfer unit 2 through the connection pipe 2a and the other side of the separator 3 may be connected to the pipeline 30. The separating part (3) separates the mixture from the fluid supplied from the transferring part (2). For example, the separator 3 may be a three phase separator for separating the fluid into oil, water, and gas. The separating part 3 may be installed so as to be connected to the conveying part 2 in a state where a part or all of the separating part 3 is immersed in the ocean.

The separation unit 3 separates the mixture from the fluid supplied from the transfer unit 2, and then discharges the uncombined marine resources to the pipeline 30. Accordingly, the separating unit 3 can increase the proportion of the marine resources to the pipeline 30 in the feed amount. Accordingly, the marine resource production apparatus 1 for a marine plant according to the present invention increases the amount of marine resources transferred per unit time transferred to the resource treatment facility 20 through the pipeline 30, Can be improved. In addition, the separator 3 may be configured to cause CO ₂ corrosion or the like to be supplied to the pipeline 30 due to the cause of the formation of deposits such as hydrate, wax, etc. in the pipeline 30 . Therefore, the marine resource production apparatus 1 for a marine plant according to the present invention reduces the risk of damage or breakage of the pipeline 30, thereby reducing the cost of maintenance for the pipeline 30 have.

In the case where the resource disposal facility 20 can not receive the marine resources, for example, an emergency situation occurs in the resource disposal facility 20, the separation unit 3 separates marine resources, The marine resources separated from the fluid so as to be re-supplied to the re-supply unit 10 may be discharged to the re-supply unit 4. [ Accordingly, the marine resource production apparatus 1 for a marine plant according to the present invention can easily cope with an emergency situation occurring in the resource treatment facility 20, and can also dispose of the marine resources discharged from the transfer unit 2 It is possible to prevent the occurrence of loss of marine resources such as the need to do so.

2 and 3, the re-supply unit 4 is installed at one side to be connected to the separation unit 3 and the other side to be connected to the storage source 10. The separating unit 3 separates the mixture from the fluid supplied from the transferring unit 2 and then discharges the liquid from the mixture separated from the fluid to the refilling unit 4. [ The re-supply unit 4 supplies the liquid discharged from the separation unit 3 to the storage source 10 again. The liquid again supplied to the storage source 10 functions as a medium for easily discharging the marine resources buried in the storage source 10 to the transfer unit 2. [ Accordingly, the marine resource production apparatus 1 for an offshore plant according to the present invention not only can treat liquid separated from the fluid without using a separate water treatment facility by recycling the liquid separated from the fluid, 10) to the marine resources that are buried in the marine environment.

The re-supply unit 4 may include a re-supply pipe 41 connecting the separation unit 3 and the storage source 10 and a supply pump 42 installed in the re-supply pipe 41.

One side of the re-supply pipe 41 is connected to the separator 3, and the other side of the re-supply pipe 41 is connected to the storage source 10. The re-supply pipe 41 may provide a flow path for transferring the liquid, and may be, for example, a pipe. A heat insulating material may be coupled to the re-supply pipe (41). It is also possible to connect the liquid discharged from the separator installed in the resource processing facility 10 to the storage source 10 in the prior art. In this case, however, There is a disadvantage that pipelines ranging from several hundred meters to tens of kilometer meters must be separately constructed. Alternatively, the marine resource production apparatus 1 for a marine plant according to the present invention may connect the re-supply pipe 41 to the separation unit 3 provided between the transfer unit 2 and the resource treatment facility 20, The length of the re-supply pipe 41 can be reduced. Accordingly, the marine resource production apparatus 1 for an offshore plant according to the present invention not only can easily construct facilities for recycling the liquid separated from the fluid, but also equipments for recycling the liquid separated from the fluid The installation and operating costs associated with the installation can be reduced.

The supply pump 42 can move the liquid discharged from the separating unit 3 so that the liquid discharged from the separating unit 3 is supplied again to the storage source 10. Therefore, the marine resource production apparatus 1 for an offshore plant according to the present invention can improve the ease of operation for re-supplying the liquid separated from the fluid to the storage source 10. The supply pump 42 may adjust the internal pressure of the re-supply pipe 41 by regulating the flow rate of the re-supply liquid from the storage source 10. [ It is also possible to connect the liquid discharged from the separator installed in the resource processing facility 10 to the storage source 10 in the prior art. In this case, however, There is a drawback in that it is necessary to use a pump having a considerably large number to a considerably large capacity since the liquid must be transported along pipelines ranging from several hundred meters to tens of kilometer. Alternatively, the marine resource production apparatus 1 for an offshore plant according to the present invention may be constructed such that the re-supply unit 4 is connected to the separation unit 3 provided between the transfer unit 2 and the resource treatment facility 20, There is an advantage that the cost of the supply pump 42 and the operating cost can be reduced.

3 and 4, the marine resource production apparatus 1 for a marine plant according to the present invention further includes a circulation unit 5 connected to the separation unit 3 and the transfer unit 2 can do.

The circulation unit 5 circulates the gas in the mixture separated from the fluid by the separation unit 3 to the transfer unit 2. The gas supplied to the transfer unit 2 by the circulation unit 5 is raised due to the difference in density between the transfer unit 2 and the fluid located inside the transfer unit 2 so that the fluid can be easily discharged from the transfer unit 2. Accordingly, the marine resource production apparatus 1 for a marine plant according to the present invention can easily produce a marine resource buried in the storage source 10 by allowing a fluid containing marine resources to be easily discharged from the transfer unit 2 It is possible to improve the ease of operation.

The circulation unit 5 includes a circulation pipe 51 connecting the separation unit 3 and the transfer unit 2, a compressor 52 installed in the circulation pipe 51, And a flow rate adjusting unit 53 installed therein.

One end of the circulation pipe 51 is connected to the separating unit 3 and the other end is connected to the transferring unit 2. The circulation pipe (51) can provide a flow path for transferring the liquid, and can be, for example, a pipe. A heat insulating material may be coupled to the circulation pipe (51). It is possible to connect the gas discharged from the separator provided in the resource processing facility 10 to the transfer unit 2 in the prior art. In this case, however, There is a disadvantage in that a pipeline of several tens of kilometer meters must be separately constructed. Alternatively, the marine resource production apparatus 1 for a marine plant according to the present invention may be constructed such that the circulation pipe 51 is connected to the separation unit 3 provided between the transfer unit 2 and the resource treatment facility 20, The length of the circulation pipe 51 can be reduced. Accordingly, the marine resource production apparatus 1 for an offshore plant according to the present invention can easily construct a facility for recycling the gas separated from the fluid, and also provides a facility for recycling the gas separated from the fluid The installation and operating costs associated with the installation can be reduced.

The compressor (52) compresses the gas moving along the circulation pipe (51). The compressor 52 can move the gas discharged from the separating unit 3 so that the gas discharged from the separating unit 3 is supplied to the transferring unit 2 and circulated. The compressor (52) may adjust the internal pressure of the circulation pipe (51) by adjusting the compression rate of the gas moving along the circulation pipe (51).

The flow rate control unit 53 can adjust the flow rate of the gas discharged from the compressor 52 to the transfer unit 2 by adjusting the degree of opening of the circulation pipe 51. The flow rate regulator 53 may be a choke valve. The flow control unit 53 may be disposed between the compressor 52 and the transfer unit 2 in the circulation pipe 51.

3 and 4, when the marine resource production apparatus 1 for a marine plant according to the present invention includes the circulation unit 5, the transfer unit 2 is connected to the storage source 10 A first conveying member 21 and a second conveying member 22 connected to the circulating unit 5. [

One side of the first conveying member 21 is connected to the storage source 10, and the other side is connected to the separating unit 3. Accordingly, the fluid mixed with the marine resources buried in the storage source 10 moves along the inside of the first conveyance member 21 and is discharged through the connection pipe 2a And is conveyed toward the separating portion 3 side. That is, the first transfer member 21 provides a flow path for transferring the fluid. The first conveying member 21 may be formed as a hollow cylindrical shape but is not limited thereto and may be formed in a different shape such as a hollow rectangular shape in the form of providing a flow path for conveying the fluid It is possible. The first conveying member 21 is installed inside the second conveying member 22.

The first transfer member 21 may include an inlet 211 formed at one side connected to the storage source 10 and an outlet 212 formed at the other side connected to the connection tube 2a. The marine resources buried in the storage source 10 are supplied to the inside of the first conveyance member 21 through the inlet 211 and then moved along the first conveyance member 21, 212 to the connection tube 2a.

And the second conveying member 22 is connected to the circulation unit 5. The circulation unit 5 supplies the gas into the transfer unit 2 so that the fluid discharged from the storage unit 10 can be easily transferred from the transfer unit 2 to the connection pipe 2a.

The second conveying member 22 is coupled to the first conveying member 21 so as to be positioned outside the first conveying member 21 so as to surround the outer surface of the first conveying member 21. [ A flow path for moving the gas supplied from the circulation unit 5 is formed between the second conveyance member 22 and the first conveyance member 22. The gas supplied from the circulation unit 5 is supplied to the inside of the second conveyance member 22 so as to flow along the flow path formed between the second conveyance member 22 and the first conveyance member 22 Move.

In this case, an injection hole 213 is formed in the first transfer member 21. The injection hole 213 may be formed in the first transfer member 21 such that a distance from the inlet 211 is shorter than a distance from the discharge hole 212. [ That is, the injection hole 213 is formed at a position relatively closer to the inlet 211 relative to the outlet 212.

Accordingly, the gas supplied from the circulation unit 5 is injected into the first conveyance member 21 through the injection hole 213 after being supplied into the second conveyance member 22. Accordingly, since the gas injected into the first conveying member 21 rises due to the difference in density between the first conveying member 21 and the fluid located inside the first conveying member 21, the marine resources are easily conveyed toward the connection pipe 2a . A plurality of the injection holes 213 may be formed in the first transfer member 21. In this case, the injection holes 213 may be spaced apart from each other by a predetermined distance.

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 or scope of the invention. Will be clear to those who have knowledge of.

1: Offshore plant marine resource production unit 2: Transfer unit
3: separator 4:
5: circulation unit 10: storage source
20: Resource processing facility 30: Pipeline

Claims (4)

A transfer unit for transferring the mixed fluid of the marine resources and the mixture from the storage source;
A separation unit for separating the marine resources and the mixture from the fluid supplied from the transfer unit and discharging the separated marine resources to a pipeline connected resource treatment facility;
A circulation unit for circulating a gas in the mixture separated from the fluid by the separation unit to the transfer unit; And
And a re-supply unit for re-supplying the liquid to the reservoir from the mixture separated from the fluid by the separator,
Wherein the separation unit discharges the marine resources separated from the fluid to the re-supply unit so that the marine resources separated from the fluid are supplied again to the storage source when the resource treatment facility can not receive the marine resources,
Wherein the transfer unit includes a first transfer member having an inlet through which a fluid mixed with the marine resources and the mixture flows, and a first transfer member through which a gas circulated by the circulation unit passes, and a second transfer member, And a second conveying member coupled to the first conveying member so as to surround an outer surface of the second conveying member,
A flow path for moving the gas supplied from the circulation unit is formed between the first transfer member and the second transfer member,
And the second conveying member injects the gas supplied from the circulating portion into the first conveying member through the injection hole of the first conveying member. [2] The apparatus of claim 1,
A re-supply pipe having one side connected to the separation unit and the other side connected to the storage source; And
A supply pump installed in the re-supply pipe for moving the liquid discharged from the separator so that the liquid discharged from the separator is supplied again to the reservoir;
And a control unit for controlling the operation of the apparatus. delete [2] The apparatus according to claim 1,
A circulation pipe having one side connected to the separation unit and the other side connected to the transfer unit;
A compressor installed in the circulation tube for compressing the gas moving along the circulation tube; And
A flow rate regulator installed in the circulation pipe for regulating a flow rate of gas supplied from the compressor to the transfer unit;
And a control unit for controlling the operation of the apparatus.

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