KR101541136B1 - Method for Mining High Viscosity Crude Oil Using Diluent - Google Patents

Abstract

A high viscosity crude oil mining method using a diluent is disclosed.
The method of mining high viscosity crude oil using a diluent according to an embodiment of the present invention includes a step of injecting a diluent into the abovementioned offshore mining area in a platform installed in a marine mining area and a crude mining step of mining crude oil whose viscosity is lowered by the supplied diluting agent do.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a high viscosity crude oil using diluent,

More particularly, to a method for mining crude oil by lowering the viscosity of crude oil by injecting a diluent into a marine block to mined the crude oil having a high viscosity.

Recently, interest in marine resources is increasing due to high oil prices and depletion of land resources. Especially, development of marginal field or deep sea oil has been economically feasible, which has been neglected due to lack of economics until recently, and research on mining technology of offshore minerals is proceeding.

Crude oil in these offshore minerals has various viscosities. Conventional crude oil mining was performed on crude oil with low viscosity in crude oil. In addition to difficulty in mining the crude oil with high viscosity, it was also difficult to store or transport it.

Therefore, research for mining of high viscosity oil has become necessary.

Korean Patent Publication No. 10-2013-0025743

This application is intended to provide a method for mining high viscosity crude oil using a diluent to mined high viscosity crude oil.

The task of the present application is not limited to the above-mentioned problems, and another task which is not mentioned can be clearly understood by a person skilled in the art from the following description.

According to an aspect of the present invention, there is provided a method for producing a high-viscosity crude oil using a diluting agent including a step of injecting a diluent into the above-mentioned marine block in a platform installed in a marine block, and a crude oil mining step of mincing crude oil having a viscosity lowered by the diluting agent A method can be provided.

Also, the method for mining high viscosity crude oil using the diluent may include a diluter shuttle tanker transporting step of transporting the diluent to a shuttle tanker that operates the marine block, a first transporting step of delivering the diluent carried in the shuttle tanker to the first floating storage unit A diluent transfer step and a second diluent transfer step for transferring the diluent from the first floating storage unit to the platform.

In the second diluent transferring step, the booster pump installed in the first floating storage unit may be used to increase the pressure of the diluent introduced into the marine reservoir.

In the second diluent transfer step, the diluent may be transferred to the platform through the turret installed in the first floating storage unit.

The method for mining high viscosity crude oil using the diluent may further include a first crude oil transfer step of transferring the mined crude oil to the second floating storage unit and a second crude oil transfer step of transferring the crude oil transferred to the second floating storage unit to the shuttle tanker 2 crude oil transfer step.

According to the method of mining high viscosity crude oil using the diluent according to the embodiment of the present invention, by injecting the diluent into the marine mineral waters, the crude oil having high viscosity in the marine mineral waters can be converted into the crude oil having low viscosity. As a result, low-viscosity crude oil can be mined and transported at sea.

In addition, the diluent and the crude oil can be easily mixed with each other as the diluent is introduced into the marine mineral waters by using the booster pump installed in the first floating storage unit.

1 is a view schematically showing a method of mining high viscosity crude oil using a diluent according to an embodiment of the present invention.
2 is a flow chart showing a method of mining high viscosity crude oil using the diluent of FIG.
3 is a view showing a state where a diluent is fed using a turret in the second diluent feeding step.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the appended drawings illustrate the present invention in order to more easily explain the present invention, and the scope of the present invention is not limited thereto. You will know.

In describing the embodiments of the present invention, it is to be noted that components having the same function are denoted by the same names and the same symbols, but are substantially not identical to components of a structure for mounting a wind turbine generator in advance.

Also, the terms used in the present application are used only to describe certain embodiments and are not intended to limit the present invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

FIG. 1 is a view schematically showing a method of mining high viscosity crude oil using a diluent according to an embodiment of the present invention, and FIG. 2 is a flowchart showing a method of mining high viscosity crude oil using the diluent of FIG. Referring to FIGS. 1 and 2, a method for mining high viscosity crude oil using a diluent according to an embodiment of the present invention includes a diluent shuttle tanker carrying step S10, a first diluent feeding step S21, a second diluent feeding step S22 , A diluent input step S30, a crude oil mining step S40, a first crude oil transfer step S50, and a second crude oil transfer step S60.

The diluter shuttle tanker transport step S10 may transport the diluent at sea using the shuttle tanker 200 shown in FIG.

Here, the diluent may be a liquid oil, and the viscosity of the diluent is lower than that of the oil having a high viscosity in the oceanic section. And, the high-viscosity crude oil has a viscosity value (API) to the extent that it does not flow in boreholes, oil pipelines or pipes.

The shuttle tanker 200 may store the diluent in the storage tank 210 on the land to carry the diluent. The diluent may be manufactured in the land or sea plant and stored in the storage tank 210 have. The shuttle tanker 200 runs toward a marine area 450 where crude oil is mined.

The first diluent transferring step S21 transfers the diluent carried in the shuttle tanker 200 to the first floating storage unit 310. [

The first floating storage unit (FSU) 310 is a floatable crude oil storage facility and can be used for development of small-scale deep-sea oil because it can move in the sea. The first floating storage unit 310 may have facilities for processing crude oil.

In the first diluent transferring step S21, a first transfer pipe 220 for connecting the storage tank 210 of the shuttle tanker 200 and the storage tank 311 of the first floating storage unit 310 Is installed.

The first transfer pipe 220 may be made of a flexible material.

The first diluent transferring step S21 is a step of transferring the diluent stored in the storage tank 210 of the shuttle tanker to the storage tank 311 of the first floating storage unit through the first transfer pipe 220 Lt; / RTI > At this time, the storage tank 210 of the shuttle tank is provided with a pump 222 connected to the first transfer pipe 220 to pump the diluent. By the pumping of the pump 222, the diluent can be transferred to the storage tank 311 of the first floating storage unit via the first transfer pipe 220.

The second diluent transfer step S22 may transfer the diluent from the first float storage unit 310 to the platform 400. [

As shown in FIG. 1, the platform 400 is installed on the oceanic well 450 to mince crude oil, and a path through which crude oil mined in the oceanic well 450 is transported to the platform 400 A drill pipe 410 is provided.

In the second diluent transferring step S22, a second transfer pipe 316 for connecting the storage tank 311 of the first floating storage unit and the platform 400 is installed.

The second transfer pipe 316 may be made of a flexible material in the same manner as the first transfer pipe 220.

The second diluent transferring step S22 transfers the diluent stored in the storage tank 311 of the first floating storage unit to the platform 400 through the second transfer pipe 316. [ At this time, the storage tank 311 of the first floating storage unit is provided with a pump 313 connected to the second transfer pipe 316 to pump the diluent. By pumping the pump 313, the diluent can be transferred to the platform 400 via the second transfer pipe 316.

In addition, the second diluent transferring step S22 may use a booster pump 312 installed in the first floating storage unit 310. FIG. That is, the booster pump 312 may be installed in the second transfer pipe 316.

The booster pump 312 can pressurize the diluent with a higher pressure than the pump 313 described above. Accordingly, the crude oil and the diluent having high viscosity can be easily mixed in the diluent injecting step (S30), which will be described later, without going through a separate mixing method. The pressure applied to the diluent by the booster pump 312 may be determined according to the material and strength of the second conveyance pipe 316.

In addition, the booster pump 312 can continuously supply the diluent required for the platform 400 at a constant flow rate.

The diluent injecting step S30 may inject the diluent transferred to the platform 400 into the marine reservoir 450. As described above, the diluent is pressurized by the booster pump 312 and is introduced into the marine channel 450 via the drilling pipe 410.

Accordingly, the viscosity of the crude oil in the marine openings 450 is lowered as it is mixed with the crude oil having the higher viscosity and the diluent.

In the crude oil mining step (S40), the crude oil having the lowered viscosity is mined through the drilling pipe (410).

As described above, according to the method of mining high viscosity crude oil using the diluent according to this embodiment, the viscosity of the high viscosity crude oil in the marine mineral waters can be lowered and mined by adding the diluent to the marine mineral waters.

In addition, the mined crude oil has a low viscosity, so that it can be transported through pipes or stored and transported at sea.

The first crude oil transfer step (S50) transfers the mined crude oil to the second floating storage unit (320). The mined crude oil is transferred to the storage tank 321 of the second floating storage unit via the first crude oil transfer line 420 by the pumping force of the pump 422 installed in the platform 400.

The second floating storage unit 320 may be the same as the first floating storage unit 310. However, the first floating storage unit 310 is dedicated to transfer the diluent to the marine reservoir 450 to control the injection of the diluent, and the second floating storage unit 320 is dedicated to the mining And transfers the crude oil to the shuttle tanker 200, which will be described later.

As the second float storage unit 320 is operated separately from the first float storage unit 310, the diluent is transferred to the platform 400 and simultaneously the crude oil mined at the maritime tunnel 450 To the second floating storage unit (320).

The second crude oil transfer step (S60) transfers the crude oil transferred to the second floating storage unit (320) to the shuttle tanker (200).

The shuttle tanker 200 is provided with a storage tank 210 capable of storing the crude oil after delivering the diluent to the first floating storage unit 310. That is, the shuttle tanker 200 can transport the crude oil after carrying the diluent.

The crude oil stored in the storage tank 321 of the second floating storage unit 320 is transferred to the storage tank 210 of the shuttle tanker via the second crude oil transfer line 322 by the pumping force of the pump 323 do.

 Finally, the shuttle tanker 200 can operate the crude oil to a land or an area where a marine plant for processing crude oil is installed.

3 is a view showing a state where a diluent is fed using a turret in the second diluent feeding step.

In the second diluent transferring step S22, the diluent is transferred to the platform 400 through the turret 317 installed in the first floating storage unit 310. [

The turret 317 is provided on one side of the first floating storage unit 310 and can rotate around the turret 317. Since the turret 317 is a well-known technology, a detailed description will be omitted.

The turret 317 rotates the second conveying pipe 312 of a flexible material.

Accordingly, when the first float storage unit 310 flows by an offshore wind, a wave or an algae, the turret 317 rotates the second conveyance pipe 312 to rotate the second conveyance pipe 312 toward the platform 400. That is, the turret 317 can move the second transfer pipe 312 for transferring the diluent to the platform 400 in a stable manner, regardless of the flow of the first floating storage unit 310 .

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. . 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.

200: Shuttle tanker 210: Storage tank of shuttle tanker
220: first transfer pipe 222: pump
310: first float storage unit 311: storage tank of the first float storage unit
312: second conveying pipe 313: pump
315: Booster pump 317: Turret
320: second float storage unit 321: storage tank of the second float storage unit
322: second crude oil transfer line 323: pump
400: Platform 410: Drilling pipe
420: first crude oil transfer line 422: pump

Claims (5)

A thinner shuttle tanker transporting step of delivering the diluent to a shuttle tanker operating in the oceanic section;
A first diluent transferring step of transferring the diluent carried in the shuttle tanker to the first floating storage unit; And
A second diluent transferring step of transferring the diluent from the first floating storage unit to the platform;
A step of injecting a diluent into a marine block in a platform installed in a marine block; And
And a crude oil mining step of mining crude oil whose viscosity has been lowered by the injected diluent.
delete The method according to claim 1,
In the second diluent transferring step
And a pressure raising step of raising the pressure of the diluent introduced into the marine reservoir by using a booster pump installed in the first floating storage unit. The method of claim 3,
In the second diluent transferring step
Wherein the thinning agent is fed to the platform through a turret installed in the first floating storage unit. The method according to claim 1,
A first crude oil transfer step of transferring the mined crude oil to a second floating storage unit; And
And a second crude oil transfer step of transferring the crude oil transferred to the second floating storage unit to the shuttle tanker.

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