KR101466208B1 - Floating ocean construct - Google Patents

Abstract

The floating structure according to an embodiment of the present invention includes a first transfer line for transferring low viscosity crude oil for diluting high viscosity crude oil produced in a well and a second transfer line for transferring diluted crude oil in which the low viscosity crude oil is mixed with the high viscosity crude oil 2 transfer lines.

Description

{FLOATING OCEAN CONSTRUCT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a floating marine structure, and more particularly, to a floating marine structure used for producing and storing crude oil.

Floating offshore structures (FSU, FPSO) are equipped with equipment for unloading crude oil produced. Depending on the configuration of the production facility, a BLS (Bow Loading System) or STL (Submerged Turret Loading) is installed.

1 is a view showing a conventional floating structure.

The produced crude oil is stored in a tank of floating structure through the connection of Buoy installed on the sea floor and STL of the athlete. The crude oil stored in the tank is transferred to the shuttle tanker (STS) by reel type SDS (Stern Discharge System) .

Generally, the crude oil contained in the oil well 1 is transferred to the production platform 30 through the production line 40. The crude oil produced through the transfer line 50 connecting the tank 60 provided in the floating structure 10 and the production platform 30 is stored in the tank 60. The crude oil stored in the tank 60 may again be transferred to the shuttle tanker 20 through the transfer line 50. This allows for the unloading of crude oil in the floating marine structure (10).

The transfer line 50 may be provided with a storage brunch 52 to store the crude oil located in the production platform 30 in the tank 60. A loading brunch 54 connecting the tank 60 and the transfer line 50 may be provided to unload the crude oil stored in the tank 60 to the shuttle tanker 20. The loading brunch 54 may also be provided with a pump 56 for moving the crude oil.

However, in the case of oil wells containing high-viscosity crude oil, equipment for producing high-viscosity crude oil such as high viscosity pumps and crude oil heating devices capable of producing high viscosity crude oil Must be provided separately.

Thus, not only does the cost of crude oil production increase, but also in the case of wells containing high viscosity crude oil, the development is delayed despite the discovery of heredity due to the relatively high production costs.

Prior Art 1: Korean Patent Publication No. 10-2010-0039482 Prior Art 2: Korean Patent Publication No. 10-2011-0026690 Prior Art 3: Korean Patent Laid-Open No. 10-2012-0058485

SUMMARY OF THE INVENTION The present invention has been made to overcome the above-mentioned problems, and an object of the present invention is as follows.

First, the present invention provides a floating structure capable of producing high viscosity crude oil at a relatively low cost.

Secondly, the present invention is to provide a floating structure that can easily develop a well containing crude oil of high viscosity.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the above object, a floating structure according to an embodiment of the present invention may include a first transfer line and a second transfer line.

The first transfer line may deliver low viscosity crude oil to dilute the highly viscous crude oil produced in the well.

The second transfer line may transfer diluted crude oil in which the low viscosity crude oil and the high viscosity crude oil are mixed.

The first transfer line may be connected to a production platform to supply the low viscosity crude oil to the production platform.

The first transfer line may be connected to the oil well to supply the low viscosity oil to the oil well.

Meanwhile, the floating structure according to an embodiment of the present invention may include a first storage tank and a second storage tank.

The first storage tank may store the low viscosity crude oil.

The second storage tank may store the diluted crude oil.

Further, the floating marine structure according to an embodiment of the present invention may further include a production line for supplying the production platform with the highly viscous crude oil produced in the oil well.

The effects of the present invention will be described below.

First, according to the floating structure according to the embodiment of the present invention, the necessity of facilities (high viscosity pump, crude oil heating device, etc.) for treating highly viscous crude oil by diluting high viscosity crude oil by supplying low viscosity crude oil to a production platform or oil well The crude oil can be produced at a relatively low cost.

Secondly, according to the floating structure according to the embodiment of the present invention, the development of the oil well containing the high viscosity crude oil can be facilitated.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 shows a conventional floating structure;
2 is a view showing a first transfer line of a floating marine structure connected to a production platform according to an embodiment of the present invention;
FIG. 3 is a view showing a first conveyance line of a floating marine structure according to an embodiment of the present invention connected to a well; FIG.
FIG. 4 illustrates a floating marine structure according to another embodiment of the present invention; FIG. And
5 is a view of a floating structure according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and further description thereof will be omitted.

2 is a view illustrating a first transfer line of a floating structure according to an embodiment of the present invention connected to a production platform.

Hereinafter, a floating structure according to an embodiment of the present invention will be described with reference to FIG.

The present invention solves the problem of relatively high cost for producing conventional high viscosity crude oil. The present invention reduces the viscosity of high viscosity crude oil by mixing and diluting the low viscosity crude oil with the high viscosity crude oil produced from the oil well (1) Which is capable of producing highly viscous crude oil by utilizing standard crude oil production facilities without having to separately provide various facilities necessary for the present invention.

2, the floating structure according to an exemplary embodiment of the present invention may include a first transfer line 110 and a second transfer line 120. [

The first transfer line 110 can transfer low viscosity crude oil to dilute the highly viscous crude oil produced in the oil well 1.

The second transfer line 120 can transfer diluted crude oil mixed with low viscosity crude oil and high viscosity crude oil.

The first transfer line 110 may be connected to the production platform 30 to supply low viscosity crude oil to the production platform 30.

The floating structure according to an embodiment of the present invention may include a first storage tank 142 and a second storage tank 144.

The first storage tank 142 may store low viscosity crude oil flowing through the first transfer line 110.

The second storage tank 144 may store dilute crude oil flowing through the second transfer line 120.

In addition, the floating marine structure according to an embodiment of the present invention may further include a production line 40 for supplying the production platform 30 with the high viscosity crude oil produced in the oil well 1.

More specifically, in order to mix the high viscosity crude oil with the low viscosity crude oil, the shuttle tanker 20 loaded with the low viscosity crude oil may be connected to the hanger provided at the aft portion of the floating structure 10. The highly viscous crude oil produced from the oil well 1 can be transferred to the production platform 30 through the production line 40 and stored in the production platform 30.

According to an embodiment of the present invention, the first transfer line 110 may include a first main line 112, one end of which is connected to the shuttle tanker 20 and the other end of which is connected to the production platform 30 . The first main line 112 may be connected to a pump 130 for transferring the low viscosity crude oil loaded on the shuttle tanker 20 to the first main line 112.

One side of the first main line 112 may be connected to the first storage tank 142. Therefore, the low viscosity crude oil transferred from the shuttle tanker 20 through the first main line 112 is transferred to the first storage tank 142, and the low viscosity crude oil stored in the first storage tank 142 is transferred again to the first main tank Can be transferred to the production platform (30)

The first main line 112 may be provided with a first storage brunch 114 for storing the low viscosity crude oil moved through the first main line 112 in the first storage tank 142.

Also, the crude oil stored in the first storage tank 142 can be moved to the production platform 30 through the first main line 112. To this end, a first loading brane 116 for moving the low viscosity crude stored in the first storage tank 142 to the first main line 112 may be provided on the other side of the first main line 112. The first cargo brunch 116 may be equipped with a pump 130.

The second transfer line 120 may include a second main line 122 having one end connected to the production platform 30 and the other end connected to the shuttle tanker 20. The second main line 122 may be provided with a pump 130 for transferring the diluted crude oil located in the production platform 30 to the second main line 122.

One side of the second main line 122 may be connected to the second storage tank 144. Therefore, the diluted crude oil delivered from the production platform 30 is transferred to the second storage tank 144 through the second main line 122, and the diluted stream stored in the second storage tank 144 is again sent to the second main line 122 to the shuttle tanker 20 so that the diluted crude oil can be unloaded.

To this end, the second main line 122 may be provided with a second storage brunch 124 for storing the diluted crude oil moved through the second main line 122 in the second storage tank 144.

In addition, the crude oil stored in the second storage tank 144 can be transferred to the shuttle tanker 20 through the second main line 122. To this end, a second loading brane 126 for moving the diluted crude oil stored in the second storage tank 144 to the second main line 122 may be provided on the other side of the second main line 122. In addition, the second cargo brunch 126 may be provided with a pump 130.

Accordingly, the low viscosity crude oil loaded in the shuttle tanker 20 may be stored in the first storage tank 142 through the first main brine 114 and the first main line 112.

When low viscosity crude oil is stored in the first storage tank 142 through the first storage brunch 114 after passing through the first main line 112, low-viscosity crude oil and diluted crude oil are mixed in the interior of the shuttle tanker 20 The flow of the fluid in the second main line 122 entering the shuttle tanker 20 is blocked so that the unloading of the diluted crude oil may not be performed.

The low viscosity crude oil stored in the first storage tank 142 is transferred to the first main line 112 through the first loading brane 116 and transferred to the production platform 30 along the first main line 112 And may be mixed with the high viscosity crude oil stored in the production platform 30.

When the low viscosity crude oil stored in the first storage tank 142 moves to the production platform 30 through the first loading brunch 116 and the first main line 112, The flow of the fluid in the second chamber 122 may be blocked. Therefore, sufficient mixing of the low viscosity crude oil and the high viscosity crude oil can be achieved within the production platform 30.

The diluted crude oil mixed with the low viscosity crude oil transferred from the first storage tank 142 and the highly viscous crude oil produced from the oil well 1 passes through the second main line 122 and flows through the second storage brunch 124, (144) < / RTI >

As described above, the second storage tank 144 is connected to the second storage tank 144 through the second main line 122 and the second storage brunch 124 so that sufficient mixing of the low viscosity crude oil and the high viscosity crude oil can be performed in the production platform 30 The flow of the fluid in the first main line 112 toward the production platform 30 can be blocked when the dilute crude oil is stored.

The diluted crude oil stored in the second storage tank 144 is transferred to the second main line 122 through the second loading brane 126 and reaches the shuttle tanker 20 along the second main line 122 Whereby the unloading of the diluted crude oil can be performed.

In the case where the diluted crude oil is unloaded to the shuttle tanker 20 through the second unloading brunch 126 and the second main line 122, in order to prevent the mixing of the low viscosity crude oil and the diluted crude oil in the shuttle tanker 20 The flow of the fluid in the first main line 112 out of the low viscosity fluid from the shuttle tanker 20 can be blocked.

3 is a view showing a first transfer line of a floating structure according to an embodiment of the present invention connected to a well.

As shown in FIG. 3, the first transfer line 110 of the present embodiment is connected to the oil well 1 to supply low viscosity oil to the oil well 1.

One end of the first main line 112 may be connected to the shuttle tanker 20 and the other end of the first main line 112 may be connected to the oil well 1.

Accordingly, the low viscosity crude oil loaded in the shuttle tanker 20 may be stored in the first storage tank 142 through the first main brine 114 and the first main line 112. The low viscosity crude oil stored in the first storage tank 142 moves to the first main line 112 through the first loading brane 116 and reaches the well 1 along the first main line 112 And can be mixed with the high viscosity crude oil contained in the oil well (1).

The diluted crude oil mixed with the low viscosity crude oil transferred from the first storage tank 142 and the high viscosity crude oil contained in the oil well 1 can be transferred to the production platform 30 through the production line 40. The diluted crude oil stored in the production platform 30 may then be stored in the second storage tank 144 through the second main line 122 and through the second storage brunch 124. The diluted crude oil stored in the second storage tank 144 also travels to the second main line 122 through the second loading brane 126 and reaches the shuttle tanker 20 along the second main line 122 Whereby the unloading of the diluted crude oil can be performed.

As described above, since the first transfer line 110 is directly connected to the oil well 1, a high viscosity pump (not shown) and a crude oil heating device (not shown) for transferring the highly viscous crude oil contained in the oil well 1 to the production platform 30 It is possible to expect a cost reduction effect for production of high viscosity crude oil.

According to an embodiment of the present invention, the low viscosity crude oil loaded on the shuttle tanker 20 may be supplied to the production platform 30 or the oil wells 1 through the first main line 112 without passing through the first storage tank 142. [ ). ≪ / RTI >

In addition, the diluted crude oil stored in the production platform 30 can be directly transferred to the shuttle tanker 20 without passing through the second storage tank 144. [

4 is a view showing a floating structure according to another embodiment of the present invention.

Hereinafter, a floating structure according to another embodiment of the present invention will be described with reference to FIG.

4, the floating structure according to another embodiment of the present invention includes a first transfer line 210, a second transfer line 220, a first storage tank 242, and a second storage tank 244).

The second transfer line 220, the first storage tank 242, and the second storage tank 244 according to another embodiment of the present invention may include a second transfer line 120 of an embodiment of the present invention, The first reservoir tank 142 and the second reservoir tank 144, and thus the description thereof is omitted.

Low viscosity crude oil for diluting the highly viscous crude oil produced in the oil well 1 may be transferred to the first transfer line 210 of another embodiment of the present invention.

However, according to another embodiment of the present invention, the first transfer line 210 may include a first storage line 212 and a first loading line 214.

The first storage line 212 has one end connected to the shuttle tanker 20 and the other end connected to the first storage tank 242 so that the low viscosity crude oil stored in the shuttle tanker 20 is supplied to the first storage tank 242 Can be moved.

The first loading line 214 is connected to the first storage tank 242 at one end and connected to the production platform 30 or the oil well 1 so that the low viscosity crude oil stored in the first storage tank 242 (30) or the oil well (1) and mixed with the high viscosity crude oil located in the production platform (30) or the oil well (1).

Accordingly, the low viscosity crude oil loaded on the shuttle tanker 20 can be transferred to the first storage tank 242 through the first storage line 212 and stored in the first storage tank 242. The low viscosity crude oil stored in the first storage tank 242 reaches the production platform 30 or the oil well 1 through the first loading line 214 and the high viscosity oil contained in the production platform 30 or the oil well 1 It can be mixed with crude oil.

When the low-viscosity crude oil is stored in the first storage tank 242 through the first storage line 212, the shuttle tanker 20 is installed in the shuttle tanker 20 to prevent mixing of the low- The flow of the fluid in the second main line 222 entering the second main line 222 is blocked, so that the unloading of the diluted crude oil may not be performed.

When the low viscosity crude oil stored in the first storage tank 242 moves to the production platform 30 through the first loading line 214 the flow of fluid in the second main line 222 connected from the production platform 30 Can be blocked. Therefore, sufficient mixing of the low viscosity crude oil and the high viscosity crude oil can be achieved within the production platform 30.

The diluted crude oil stored in the production platform 30 passes through the second main line 222 to the second storage tank 244 through the second storage brunch 224 and then stored in the second storage tank 144 . The diluted crude oil stored in the second storage tank 244 is transferred to the second main line 222 through the second loading brunch 226 and reaches the shuttle tanker 20 along the second main line 222 Whereby the unloading of the diluted crude oil can be performed.

The storage of the diluted crude oil in the second storage tank 244 through the second main line 222 and the second storage brunch 224 is performed so that sufficient mixing of the low viscosity crude oil and the highly viscous crude oil can be performed in the production platform 30 The flow of fluid in the first loading line 214 toward the production platform 30 can be blocked.

In the case where the diluted crude oil is unloaded to the shuttle tanker 20 through the second unloading brunch 226 and the second main line 222 in order to prevent the mixing of the low viscosity crude oil and the diluted crude oil in the shuttle tanker 20 The flow of fluid from the shuttle tanker 20 to the first storage line 212 through which low-viscosity crude oil flows can be shut off.

5 is a view of a floating structure according to another embodiment of the present invention.

5, the floating structure according to another embodiment of the present invention includes a first transfer line 310, a second transfer line 320, a first storage tank 342, (344).

The first transfer line 310 according to another embodiment of the present invention is the same as the first transfer line 210 according to the other embodiment of the present invention and the first transfer line 310 according to another embodiment of the present invention, 342 and the second storage tank 344 are the same as those of the first storage tank 142, 242 and the second storage tank 144, 244 of the embodiment of the present invention and the other embodiment of the present invention, .

The second feed line 320 of another embodiment of the present invention may be fed with dilute crude oil mixed with low viscosity crude oil and high viscosity crude oil.

However, according to another embodiment of the present invention, the second transfer line 320 may include a second storage line 324 and a second loading line 322.

The second storage line 324 is connected at one end to the production platform 30 and at the other end to the second storage tank 344 so that the dilute crude oil stored in the production platform 30 can be transferred to the second storage tank 344 have.

The second loading line 322 is connected to the second storage tank 344 at one end and connected to the shuttle tanker 20 at the other end to transfer the diluted crude oil stored in the second storage tank 344 to the shuttle tanker 20 Whereby the unloading of the diluted crude oil can be performed.

Thus, the low viscosity crude oil loaded in the shuttle tanker 20 may be transferred to the first storage tank 342 through the first storage line 312 and stored in the first storage tank 342. The low viscosity crude oil stored in the first storage tank 342 reaches the production platform 30 or the oil well 1 through the first loading line 314 and the high viscosity oil contained in the production platform 30 or the oil well 1 It can be mixed with crude oil.

When the low-viscosity crude oil is stored in the first storage tank 342 through the first storage line 312, the shuttle tanker 20 is installed in the shuttle tanker 20 to prevent mixing of the low- The flow of the fluid in the second loading line 322 entering into the second loading line 322 is blocked, so that the loading of the diluted crude oil may not be performed.

When the low viscosity crude oil stored in the first storage tank 342 is transferred to the production platform 30 through the first loading line 314 the flow of fluid in the second storage line 324 connected from the production platform 30 Can be blocked. Therefore, sufficient mixing of the low viscosity crude oil and the high viscosity crude oil can be achieved in the production platform 30.

The diluted crude oil stored in the production platform 30 may be transferred to the second storage tank 344 through the second storage line 324 and then stored in the second storage tank 344. Further, the diluted crude oil stored in the second storage tank 344 reaches the shuttle tanker 20 through the second loading line 322, so that the unloading of the diluted crude oil can be performed.

When the diluted crude oil is stored in the second storage tank 344 through the second storage line 324 so that sufficient mixing of the low viscosity crude oil and the highly viscous crude oil can be performed in the production platform 30, The flow of the fluid in the first loading line 314 facing the first loading line 314 may be blocked.

When the diluted crude oil is unloaded to the shuttle tanker 20 through the second loading line 322, the low viscosity liquid is supplied from the shuttle tanker 20 in order to prevent mixing of the low viscosity crude oil and the diluted crude oil in the shuttle tanker 20, The flow of the fluid in the first storage line 312 through which the crude oil flows out can be blocked.

It will be apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is obvious to them. Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

1: Oil well 10: Floating marine structure
20: Shuttle tanker 30: Production platform
40: Production line 50: Transfer line
52: Save Brunch 54: Unload Brunch
56: pump 60: tank
110, 210, 310: first transfer line 112: first main line
114: first storage brunch 116: first loading brunch
120, 220, 320: second transfer line 122, 222: second main line
124, 224: second storage brunch 126, 226: second loading brunch
130, 230, 330: pumps 142, 242, 342: first storage tank
144, 244, 344: Second storage tank 212, 312: First storage line
214, 314: first loading line 322: second loading line
324: Second storage line

Claims (9)

A first conveyance line for conveying low viscosity crude oil for diluting the high viscosity crude oil produced in the oil well;
A second conveyance line for conveying the diluted crude oil in which the low viscosity crude oil and the high viscosity crude oil are mixed; And
And a production platform for storing the high viscous crude oil produced in the oil well and providing a space for diluting the high viscosity crude oil and the low viscosity crude oil,
The first transfer line being connected to a production platform to supply the low viscosity crude oil to the production platform,
And a production line for supplying high viscosity crude oil produced in the oil well to the production platform,
And a high viscosity pump for transferring the high viscosity crude oil produced in the oil well to the production platform through the production line. delete delete The method according to claim 1,
And a first storage tank for storing the low viscosity crude oil. The method according to claim 1,
And a second storage tank for storing the diluted crude oil. delete delete delete delete

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