KR20150103427A - Pressure Vessel and BOP Test Apparatus Using The Same - Google Patents

Abstract

The present invention relates to a pressure container for testing a BOP, capable of inputting a BOP device into an internal space to test the BOP device. The pressure container comprises a length adjusting unit capable of adjusting the length of a riser in the pressure container wherein the riser penetrates the pressure container to be connected to each other so that the pressure container can be connected with the BOP device. The pressure container adjusts the length of the riser according to a type of the BOP device which has various sizes to conveniently test various types of BOP devices which have different sizes by the pressure container for testing a BOP and a device for testing a BOP using the pressure container for testing a BOP.

Description

Technical Field [0001] The present invention relates to a pressure vessel for a BOP test and a BOP test apparatus using the same.

The present invention relates to a pressure vessel for BOP test which is formed to be able to inject BOP equipment into an internal space for testing BOP equipment. More particularly, to a riser which is connected to a pressure vessel so as to be connected to a BOP equipment, and a length adjusting means for adjusting the length of the riser in an inner section of the pressure vessel, The present invention relates to a pressure vessel for BOP test and a BOP test apparatus using the same, which can conveniently perform a test operation for various types of BOP equipment having different sizes.

As the international phenomenon of industrialization and industry develops, the use of resources such as petroleum is gradually increasing, and thus the stable production and supply of oil is becoming a very important issue on a global scale.

For this reason, the development of the marginal field or deep-sea oil field, which had been neglected due to economic difficulties, has become economic in recent years. Therefore, along with the development of seabed mining technology, drilling rigs with drilling facilities suitable for the development of such oilfields have been developed.

Conventional submarine drilling has been mainly used as a fixed platform for drilling at one point in the offshore area. Recently, floating drilling facility capable of drilling in depths of 3,000m or more has been developed and used for deep sea drilling.

These drilling facilities are equipped with various drilling equipments such as derrick system, riser, drill string and so on to drill oil and gas existing under the sea floor.

In recent years, the development of deep-sea oil fields has been actively promoted, so safety of various drilling equipments is especially important. Among the drilling equipments, the most relevant equipment for drilling is BOP (Blow out Preventer, Prevention device).

BOP equipment is installed to prevent the gas explosion of submarine wells by safely removing high pressure gas generated during drilling process and connected to the upper wellhead of submarine oil well through a riser from marine drilling facility .

These BOP equipment is designed to withstand a pressure of 15,000 psi with internal pressure in a high pressure (4,300 psi) environment at depths of 3,000 m or more, suitable for deep sea environments. However, since the test is not performed in the actual environment until it is installed in the actual deep water well, various problems arise in actual installation work.

Generally, the test for the BOP equipment is partially tested by applying external pressure or internal pressure separately to each part constituting the BOP equipment, and there is no device capable of performing such a test in the fully assembled state As a state, there is a desperate need for a device capable of performing various types of testing under the same conditions as the actual environment.

Korean Patent No. 10-1185286

It is an object of the present invention to provide a pressure vessel for BOP test which is formed so as to be able to inject BOP equipment into an internal space for testing BOP equipment, The length of the riser can be adjusted according to the type of the BOP equipment having various sizes by providing the length adjusting means for adjusting the length in the inner portion of the pressure vessel with respect to the riser penetratingly connected to the pressure vessel. The present invention also provides a BOP test pressure vessel and a BOP test apparatus using the BOP test vessel, which can perform a test operation conveniently for various types of BOP equipment.

The present invention relates to a pressure vessel for testing a BOP, which is formed so as to be able to inject the BOP equipment into an internal space for testing a BOP equipment, And the liquid is stored in the test chamber so that the BOP equipment is immersed in the test chamber. A container cover hermetically coupled to an open top surface of the container body and having a riser threadably coupled to the BOP equipment at one side; And a length adjusting means for adjusting the length of the riser in a section protruding downward from the container cover. The length of the riser can be adjusted according to the type of the BOP equipment. to provide.

At this time, the length adjusting means includes a telescopic joint sealingly connected to the container cover, and the riser can be coupled to the telescopic joint to be length-adjustable.

In addition, a plurality of connection ports are connected to the container cover, an auxiliary line of the riser is connected to an outer end of the connection port, and a separate flexible hose that can be connected to the BOP equipment is connected to the inner end of the connection port. .

The length adjusting means may include a plurality of adjusting pipes having different lengths connected to the lower end of the riser and selectively connecting one of the plurality of adjusting pipes to the lower end of the riser, The length can be adjusted.

Further, the length adjusting means may further include an intermediate pipe connected to the BOP equipment at its lower end and spaced apart from the riser at an upper end thereof, wherein the lower end of the adjusting pipe is connected to the riser, And can be connected to the upper end.

On the other hand, the present invention is characterized in that: the pressure vessel; And an external pressure supply unit for increasing the pressure of the liquid so that the pressure of the liquid stored in the test chamber reaches the deep pressure.

At this time, a test well head is fixedly mounted on the inner bottom of the container body so that the BOP equipment can be coupled thereto, and the BOP testing device applies high pressure Pressure supply unit for supplying the fluid of the fluid supply unit.

According to the present invention, there is provided a length adjusting means for adjusting the length of the riser through the pressure vessel so as to be connected to the BOP equipment, so that the length of the riser can be adjusted according to the type of BOP equipment having various sizes. The length can be adjusted and the test operation can be conveniently performed even for various kinds of BOP equipment of different sizes.

Further, by using a telescopic joint as a length adjusting means for adjusting the length of the riser, it is possible to connect the riser and the BOP equipment very conveniently by minimizing the connection work by the operator.

1 is a conceptual diagram schematically showing a configuration of a BOP test apparatus using a pressure vessel for BOP test according to an embodiment of the present invention;
Figure 2 conceptually illustrates an exemplary use of a length adjusting means of a pressure vessel for BOP testing according to one embodiment of the present invention;
3 and 4 are conceptual diagrams schematically showing a configuration of a length adjusting means of a pressure vessel for BOP testing according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a conceptual view schematically showing a configuration of a BOP test apparatus using a pressure vessel for BOP test according to an embodiment of the present invention. FIG. 2 is a schematic view illustrating a BOP test pressure vessel according to an embodiment of the present invention. 3 and 4 are conceptual diagrams schematically showing a configuration of a length adjusting means of a pressure vessel for BOP testing according to an embodiment of the present invention.

The BOP test apparatus according to an embodiment of the present invention is capable of performing various types of tests by exposing the BOP equipment used in a deep sea environment to environmental conditions similar to deep sea environment. The apparatus includes a pressure vessel 100, Unit 400 as shown in FIG.

The test chamber C is formed in the inner space of the pressure vessel 100 so that the BOP equipment 200 can be inserted into the pressure vessel 100 and the liquid is stored in the test chamber C so that the BOP equipment is locked.

The pressure vessel 100 may be formed in the form of a container having various shapes in which a test chamber C is formed. It is preferable that the pressure vessel 100 is formed in a cylindrical shape in consideration of the supporting strength against the internal pressure of the pressure vessel 100 . In addition, the pressure vessel 100 may be configured in such a manner that it is connected to a negative electrode power source for corrosion prevention.

1, the pressure vessel 100 includes a container body 110 whose upper surface is opened so as to form a test chamber C in an inner space, And can be separately formed by the container cover 120. The liquid can be supplied to and stored in the test chamber C of the container main body 110 with the container cover 120 opened through such a structure and the BOP equipment 200 can be stored It can be put into the test chamber C so as to be immersed in the liquid. Thereafter, the container cover 120 may be coupled to the container body 110 to seal the test chamber C. Of course, the container cover 120 may be coupled to the container body 110 in a state where only the BOP equipment 200 is inserted into the test chamber before the liquid is injected, and the liquid injection may be configured to be performed through a separate port.

The container body 110 may be provided with an external pressure supply port 111 and an internal pressure supply port 112 so as to be supplied with pressure from an external pressure supply unit 400 and an internal pressure supply unit 500 to be described later. The container body 110 and the container cover 120 are preferably sealed to each other so that the liquid stored in the internal test chamber C can be maintained at a high pressure state through the pressure supply by the external pressure supply unit 400 Do.

The external pressure supply unit 400 is configured to raise the pressure of the liquid so that the pressure of the liquid stored in the test chamber C of the pressure vessel 100 reaches a pressure under a severe condition, for example, 4,300 psi or more.

The external pressure supply unit 400 includes an external pressure supply pump 410 which operates to supply fluid to the test chamber C of the pressure vessel 100 at a high pressure and a high pressure fluid which is supplied from the external pressure supply pump 410 to the test chamber C And an external pressure connection line 420 connecting the external pressure supply pump 410 and the test chamber C to be supplied to the test chamber C. The external pressure supply pump 410 generally supplies the liquid and may be applied in the form of a compressor to supply the gas. The external pressure connection line 420 may be installed to be connected from the external pressure supply pump 410 to the external pressure supply port 111 of the pressure vessel 100.

In this case, the pressure vessel 100 can be placed on the land. When the pressure vessel 100 is fixedly installed on the land, the installation work is easier than in the sea, The test operation can be performed easily and quickly. Particularly, since the BOP equipment 200 can be carried by using the on-land crane in the process of injecting the BOP equipment 200 into the pressure vessel 100, the process of inputting the BOP equipment 200 can be performed more quickly and simply have.

Of course, the pressure vessel 100 may be installed in the sea, and in this case, it is advantageous in that the same installation process as the actual BOP equipment 200 can be reproduced.

The test well head 300 is fixedly mounted on the lower portion of the inner space of the pressure vessel 100 so that the lower end of the BOP apparatus 200 is seated and engaged with the BOP apparatus 200 in the test chamber C, The test well head 300 may be mounted so as to be in communication with the above described pressure-resistant supply port 112. The test well head 300 is the same as the wellhead coupled to the top of the subsea well and is fixedly mounted within the pressure vessel 100 for testing of the BOP equipment 200 in one embodiment of the present invention. Accordingly, the BOP equipment 200 and the test well head 300 are coupled to each other so that the internal spaces are communicated with each other in a state where the BOP equipment 200 and the test well head 300 are latched to each other.

In this case, it is preferable to further include an internal pressure supply unit 500 for supplying a high-pressure fluid to the test well head 300 so that internal pressure is transmitted to the BOP equipment 200 through the test well head 300. The pressure-resistant supply unit 500 is configured to supply high-pressure fluid so that the internal pressure of the BOP equipment 200 is so high that a pressure occurring when a gas explosion occurs in the oil well, for example, a pressure of 15,000 psi or more.

The pressure-resistant supply unit 500 includes an internal pressure supply pump 510 that operates to supply a high-pressure fluid to the test well head 300 and an internal pressure supply pump 510 that supplies high-pressure fluid from the internal pressure supply pump 510 to the test chamber C And an internal pressure connection line 520 connecting the internal pressure supply pump 510 and the test well head 300. The pressure-resistant supply pump 510 may be applied in the form of a pump for supplying liquid, or may be applied in the form of a multi-phase pump capable of simultaneously supplying liquid and gas to reproduce the gas generating situation in the oil well have.

1 shows a state in which a pressure resistant supply port 112 is formed in the container body 110 of the pressure vessel 100 and the test well head 300 is connected to the pressure resistant supply port 112. In this case, And the pressure-resistant connection line 520 may be connected to the pressure-resistant supply port 112.

According to this configuration, the BOP test apparatus according to the embodiment of the present invention raises the pressure of the liquid inside the pressure vessel 100 to the deep sea pressure state of 3,000 m or more by the external pressure supply unit 400, It is possible to perform an external pressure test on the battery 200. That is, when the BOP equipment 200 is exposed to deep pressure, it can be tested whether it is structurally stable, whether it operates normally, or whether leaks occur.

Also, by providing the BOP equipment 200 with an internal pressure of 15,000 psi or more through the pressure-resistant supply unit 500, it is possible to perform the pressure resistance test of the deep-sea environment for the BOP equipment 200. [ For example, it is possible to perform an internal pressure test on Ram, Annular, and various valves constituting the BOP equipment 200.

In order to perform a test on the BOP equipment 200, a riser 220 must be connected to control the operation of the BOP equipment 200. The riser 220 is sealingly connected to the container cover 120 , And is connected to the BOP equipment (200) in the test chamber (C).

The pressure vessel 100 according to an embodiment of the present invention includes a length adjusting unit 600 for adjusting the length of the riser 220 coupled thereto.

The length adjusting means 600 is formed to adjust the length of the riser 220 in the section protruding downward from the container cover 120. The length of the riser 220 can be adjusted according to the type of the BOP equipment 200 by means of the length adjusting unit 600 so that a test operation is conveniently performed on various types of BOP equipment 200 of different sizes can do.

2, in order to insert the BOP equipment 200 into the pressure vessel 100, the riser 220 is inserted into the vessel body 110 while the BOP equipment 200 is inserted into the vessel body 110, The combined container cover 120 is coupled to the opened upper surface of the container body 110. At this time, when the container cover 120 is coupled to the container body 110, the riser 220 is attached to the BOP equipment 200 Must be combined. A separate hatch door (not shown) may be mounted on the container cover 120 for the coupling operation of the riser 220 and the BOP equipment 200, and a work table (not shown) have.

2 (a) and 2 (b), when the riser 220 is connected to the BOP equipment 200, the size of the BOP equipment 200 inserted into the container unit 110 Different kinds can be applied. A great variety of BOP equipment 200 is used depending on the manufacturer or its capacity. The length of the riser 220 protruding downward from the container cover 120 to couple the riser 220 penetratingly connected to the container cover 120 to the BOP equipment 200, Should be set differently. 2 (a), when the size of the BOP equipment 200 is large, the downward protruding length of the riser 220 is made relatively small by X1, and as shown in FIG. 2 (b) If the size of the BOP equipment 200 is small, the downward protruding length of the riser 220 should be relatively large by X2.

It is difficult to adjust the downward protruding length of the riser 220 because the riser 220 is hermetically sealed to the container cover 120. In the present invention, the downward protruding length of the riser 220 Can be adjusted. Therefore, it is possible to more easily perform the coupling operation between the riser 220 and the BOP equipment 200 with respect to the BOP equipment 200 of various sizes. In other words, the pressure vessel for BOP test according to an embodiment of the present invention can be applied to various kinds of BOP equipment 200. FIG.

The length adjusting means 600 may be configured to include a telescopic joint 610 that is sealingly coupled to the container cover 120 as shown in FIG. The telescopic joint 610 is configured such that the inner barrel and the outer barrel are slidably engaged with each other, and the inner space is formed to communicate with the inner space of the riser. These telescopic joints are commonly used to support the riser in the drill rig and to enable up and down displacement of the riser, and therefore, a detailed description thereof will be omitted.

The telescopic joint 610 is sealingly connected to the container cover 120 and the riser 220 is connected to the outer and inner ends of the telescopic joint 610, 610 may adjust the downwardly protruding length of the riser 220.

A plurality of auxiliary lines 221 disposed on the outer periphery of the riser 220 are connected to the BOP equipment 200 in order to control operation of the BOP equipment 200. A plurality of connection ports 620 may be coupled to the container cover 120 for connection between the auxiliary line 221 and the BOP equipment 200. An auxiliary line 221 of the riser 220 may be connected to the outer end of the connection port 620 and a flexible hose 630 may be connected to the inner end of the connection port 620. Since the flexible hose 630 connected to the connection port 620 in the pressure vessel 100 is formed in a flexible form and can be connected to the BOP equipment 200 in a free form, It can be connected to the BOP equipment 200 easily. At this time, the flexible hose 630 is preferably formed in a small diameter so as to withstand a high pressure in the pressure vessel 100.

The length adjusting means 600 according to another embodiment of the present invention includes a plurality of adjusting pipes 640 having different lengths connected to the lower end of the riser 220 as shown in FIG. And adjust the length of the riser 220 in a manner that selectively connects one of the plurality of adjustment tubes 640 to the lower end of the riser 220.

The length adjusting means 600 may further include an intermediate pipe 651. The middle pipe 651 has a lower end connected to the BOP equipment 200 and an upper end connected to the riser 220 . The lower end of the adjusting pipe 640 is coupled to the upper end of the middle pipe 651 while being coupled to the lower end of the riser 220.

4, the intermediate pipe 651 and the riser 220 are spaced apart from each other, and an adjusting pipe 640 is inserted into the intermediate pipe 651 to connect the riser 220 and the BOP equipment 200 to each other . At this time, when a different type of BOP equipment 200 is applied, the distance between the intermediate pipe 651 and the riser 220 changes, and the adjustment pipe 640 having a specific length corresponding to the separation distance The riser 220 and the BOP equipment 200 can be connected.

Such an adjustment pipe 640 and the intermediate pipe 651 may include an auxiliary adjusting pipe 641 and an auxiliary intermediate pipe 651 corresponding to the auxiliary line 221 of the riser 220 as shown in FIG. They may all be formed in the form of a single module.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: pressure vessel 110: container body
120: container cover 200: BOP equipment
220: riser 221: auxiliary line
300: test well head 400: pressure-resistant supply unit
500: external pressure supply unit 600: length adjusting means
610: Telescopic joint 620: Connection port
630: Flexible Hose 640: Regulator
650: Middle piping

Claims (7)

A BOP test pressure vessel formed to be able to inject the BOP equipment into an internal space for testing BOP equipment,
A test chamber is formed in an upper part of the test chamber so that the BOP equipment can be inserted into the test chamber, and a liquid is stored in the test chamber so that the BOP equipment is locked;
A container cover hermetically coupled to an open top surface of the container body and having a riser threadably coupled to the BOP equipment at one side; And
A length adjusting means for adjusting the length of the riser in a section protruding downward from the container cover,
Wherein the length of the riser is adjustable according to the type of the BOP equipment. The method according to claim 1,
Said length adjusting means comprising a telescopic joint sealingly connected to said container cover,
Wherein the riser is coupled to the telescopic joint for length adjustment. 3. The method of claim 2,
A plurality of connection ports are coupled to the container cover,
Wherein an auxiliary line of the riser is connected to an outer end of the connection port, and a flexible hose capable of being connected to the BOP equipment is coupled to the inner end of the connection port. The method according to claim 1,
The length adjusting means
And a plurality of regulating tubes having different lengths communicatingly connected to the lower end of the riser,
Wherein the length of the riser is adjusted in a manner that any one of the plurality of adjustment pipes is selectively coupled to the lower end of the riser. 5. The method of claim 4,
The length adjusting means
Further comprising an intermediate pipe connected to the bottom of the BOP equipment and having an upper end formed to have a distance from the riser,
And the lower end of the adjusting pipe is connected to the upper end of the middle pipe in a state where the adjusting pipe is coupled to the riser. A pressure vessel according to claim 1; And
An external pressure supply unit for raising the pressure of the liquid so that the pressure of the liquid stored in the test chamber reaches a deep pressure,
The BOP test apparatus comprising: The method according to claim 6,
A test well head is fixedly mounted on an inner bottom of the container body so that the BOP equipment can be coupled thereto,
Further comprising an internal pressure supply unit for supplying a high-pressure fluid to the test well head so that internal pressure is transferred to the BOP equipment through the test well head.

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