NL1001807C2 - Method and device for removing the top part of a construction located in the seabed. - Google Patents

Description

Method and device for removing the top part of a construction located in the seabed

The device primarily relates to a method for removing the top portion of a seabed construction such as wellheads, platform legs and the like.

5 As a remnant of the gas and oil extraction, a large number of structures are located on the seabed, such as closed well mouths and partially removed platform legs. These wellheads and platform legs must be finished in such a way that they do not form an obstacle for shipping and fishing. Therefore, in many countries it is a legal requirement that such structures must be removed to a certain depth in the seabed, for example to a depth of about 6 meters.

Currently, two known methods exist to remove such structures. According to a first known method, the upper part of the construction is detached from a part of the construction remaining in the seabed by means of explosive charges arranged in the construction. In another known method, the top part of the construction of the bottom part remaining in the seabed is separated by a cold cutting method by high pressure water with an aggregate (the so-called "abrasive jet-cutting").

A common feature of the known methods is that they work from the inside of the construction. These methods are well applicable if no obstacles are placed in the construction concerned (such as valves or poured concrete or cement in a wellhead).

However, when a valve (corrosion cap) is arranged in a well of an abandoned gas or oil well, these methods are not applicable, while on the other hand it is often not precisely known whether such a valve has been applied and at what depth.

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Furthermore, there is a danger that, especially when using explosive charges, any valves may be damaged, as a result of which unintentional residual gas or residual oil may flow from the well mouth into the environment and lead to environmental pollution.

The aforementioned problems have led to the observation that in about 30% of wellheads in particular, removal of the upper part is not possible using the known methods.

The object of the invention is therefore to provide a method of the type mentioned in the preamble, which does not have the disadvantages mentioned above.

To this end, the method according to the invention is characterized by arranging a drilling device around the construction in the seabed, by forming a borehole with this drilling device to a certain depth in the seabed and by using a drill at a desired depth. cutting device lowered into the borehole cutting through the structure.

In accordance with the method according to the invention, a hole is drilled around the construction in the seabed, after which the construction is cut from the outside with the aid of a cutting device lowered therein. In this way all constructions become accessible, irrespective of whether they are internally provided with an obstacle or valve.

The method according to the invention is preferably characterized by gripping the construction above the cutting location with the aid of a clamping device and lifting the cut-away construction part after cutting through. When the upper construction part is cut loose, it can be lifted immediately and removed. The clamping device can also fix the cutting device relative to the construction during cutting.

In this context it is convenient when the cut-off construction part is lifted together with the drilling device. In this way, the drilling device and the cut-away construction part can be removed in a single step.

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As a result, the time required for removing the drilling device and the cut-off construction part can be considerably shortened.

The invention also relates to a device for removing the upper part of a construction located in the seabed, such as well mouths, platform legs and the like. This device is characterized by a drilling device which can be placed around the construction for drilling into the seabed to a certain depth and a cutting device connected to the drilling device for cutting the construction from the outside.

The device is preferably characterized by a clamping device for clamping the drilling device and the cutting device to the construction. This clamping device can stabilize the device relative to the construction during the drilling of the borehole and during the cutting of the construction. The loosened construction part can also be lifted with the aid of this valve device.

Preferably, the clamping device has at least 20 two clamping assemblies spaced one above the other. The bottom clamping assembly will engage the construction to be removed first; after the device has been lowered sufficiently far around the construction, the second clamping assembly will also engage the construction, so that the device is centered properly with respect to the construction.

Furthermore, a special embodiment of the device according to the invention is mentioned, in which drive means placed between the drilling device on the one hand and the clamping device on the other hand are used for varying the mutual distance between the drilling device and the clamping device. When the clamping device engages the structure, the drive means can increase the distance between the clamping device and the drilling device so that the drilling device is driven into the seabed. After the drive means have reached their maximum stroke, the clamping device can be switched off, the distance between the drilling device and the clamp 1001807.

4, the clamping device is lowered relative to the construction, and the clamping device is reactivated in the new position, after which the drive means drive the drilling device further into the seabed again.

The cutting device of the device may consist of a wire sawing device, which in itself is of a known type.

Such a wire sawing device can for instance be provided with a diamond wire. The wire sawing device must be moved through the construction. To this end it is structurally possible that the wire sawing device is pivotally connected to the device such that the active part of the wire sawing device is movable substantially transversely to the construction to be cut.

It is further preferred that the cutting device is detachably connected to the device and is removable therefrom. In this manner, the cutting device can be quickly removed from the device in order to be able to exchange wearing parts, such as the diamond wire. Suitable quick-coupling and guiding means can be used for re-placing the cutting device in the device.

The drilling device used in the device can be formed by a rotary drill head known per se for use in drilling tunnels or the like. The provisions required for the use of such a drill head are clear to a person skilled in the art, and therefore need no further explanation.

For a good functioning of the device it may further be important that an enclosure forming the outer boundary of the device immediately after the drilling device. Such an envelope can be in the form of a tube. This casing will shield the borehole formed by the drill bit 35 from the ingress of material from the surrounding seabed and seawater, thereby creating a stable working space around the structure to be removed.

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Finally, it is noted that the device can be suspended from a hoisting installation on a ship, drilling platform or the like. In this way, the device can be operated without the use of divers. The techniques required for this to remotely control the various parts of the device are known per se, and are not further considered here.

The invention is explained in more detail below with reference to the drawing.

The only figure schematically shows an embodiment of the device according to the invention in cut-away side view.

In the figure, a wellhead 1 is visible, which is located in the seabed 2. The upper part of this well mouth 1 must be removed to a certain depth below the level of the seabed (for example 6 meters). As can be seen, initially an upper end of the wellhead 1 protrudes above the level of the sea floor 2.

The device for removing the upper part of the wellhead 1 is provided at its front (or bottom) end with a drilling device 3. In known manner, this drilling device 3 can consist of a rotating drill head, such as is used in drilling of tunnels. For the sake of clarity, the drive means 25 for such a drill bit are not shown. Nor are supply and discharge pipes for drilling mud and control lines shown.

Immediately behind the drilling device 3 a casing 4 forming the outer boundary of the device connects. This casing ensures that a borehole formed by the drilling device 3 cannot fill up with material from the seabed 2 or seawater, respectively.

The device furthermore comprises two clamping assemblies 5 and 6 which are located at a distance from each other. The clamping assemblies 5, 6 can engage on the well mouth 1 and in this way fix the device thereon. The actuators for the clamp assemblies 5, 6 are shear 1001807.

6 is indicated matically by the dotted lines 7, 8. Naturally, there are various possibilities for constructing these clamping assemblies 5, 6 in construction.

An essential part of the device further forms a cutting device 9. In the embodiment shown, the cutting device consists of a cage 10 which is placed around the well mouth 1. A yoke 11 is pivotally suspended about a horizontal pivot axis 12 in the cage. A cylinder piston assembly 13 is coupled at one end to the cage 10 and at its other end to the end of the yoke 11 opposite the pivot axis 12.

Guide wheels 14 are mounted on the yoke 11, around which a diamond wire 15 of a wire saw runs. The lower part of the diamond wire 15 is longer than the diameter of the well mouth 1 and extends transversely to the well mouth 1 and perpendicular to the plane of the drawing. When the cylinder-piston assembly 13 is actuated and the yoke 11 is pivoted, this lower part of the diamond wire 15 follows the path indicated by a dotted line 16 (with the axis of rotation 12 12 as the center point). In this way, the wellhead can be cut.

The cutting device 9 with its cage 10 is arranged in guides 17, so that the entire cutting device can be quickly removed from the device when certain parts 25 (such as the diamond wire 15) have to be replaced due to wear.

Finally, the shown device comprises between the drilling device 3 (respectively the casing 4 adjoining it) on the one hand and the lower clamping assembly 5 on the other side driving means 18, with which the mutual distance between the drilling device 3 and the clamping assembly 5 can be varied. Such a variation of the distance is apparent, for example, from the deviating position 3 'of the drilling device.

The device works as follows: with the aid of a hoisting installation which can be mounted on a ship, the device is lowered by means of a hoisting cable coupled to an eye 19. The lower part of the device with the drilling device 3 will hereby be placed around the part of the well mouth 1 projecting above the sea bottom 2.

After the device has been placed over the protruding wellhead section, the clamping assembly 5 is energized and the device is largely fixed with respect to the wellhead 1. The drilling device 3 is then switched on while the drive means 18 are also energized.

The drilling device 3 (the drill bit) is hereby driven into the sea bed 2, whereby a borehole is formed around the well mouth 1. The casing 4 prevents surrounding material (from the seabed or seawater) from entering the borehole thus formed.

When the drive means 18 (which may consist of cylinder-piston assemblies) have reached the end of their stroke, the clamping assembly 5 is switched off and the drive means 18 are moved back to their starting position. The device hereby moves down.

Then the clamping assembly 5 can be energized again, after which the cycle is repeated.

After the device has thus penetrated into the seabed over a certain distance, the top clamping assembly 6 also reaches the well mouth 1 and can exert an effect corresponding to the action of the clamping assembly 5. Also, by the cooperation between the clamping assemblies 5 and 6, a good centering and alignment of the device with respect to the wellhead 1 is achieved.

In this way the device is driven into the seabed 2 to the desired depth around the well mouth 1. Then, the cutting device 9 can be turned on, the diamond wire 15 cutting through the wellhead in accordance with the path shown by dotted line 16 (during actuation of the cylinder-piston assembly 13).

Finally, the bottom clamping assembly 5 can be switched off again and the device can be lifted by means of the hoisting cable attached to the eye 19. It cut loose 1001807.

The upper part of the wellhead 1 is hereby held by means of the clamping assembly 6 and lifted along with it.

As is apparent from the foregoing, the clamp assemblies 5, 6 have a multiple function. During operation of the drilling device 3, they can absorb vertical forces. During drilling of the borehole, the clamping assemblies 5, 6 also absorb rotational forces to prevent the device from rotating around the wellhead 1. They also stabilize the device when the upper wellhead section 1 is cut loose with the aid of the cutting device 9. Finally, the top clamping assembly 6 in particular is suitable for lifting the cut-away upper wellhead section.

The invention is not limited to the embodiment described above, which can be varied in many ways within the scope determined by the claims. For example, the terms "drilling device" and "cutting device" are to be understood in a broad sense as devices suitable for making a hole in the seabed or for separating the construction part to be removed and the remaining construction part from each other. .

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Claims (14)

Method for removing the upper part of a construction located in the seabed, such as wellheads, platform legs and the like, characterized by arranging a drilling device in the seabed around the construction, using this drilling device to a certain depth in the seabed. seabed to form a borehole and cut the structure at a desired depth using a cutting device lowered into the borehole. 2. Method as claimed in claim 1, characterized by gripping the construction above the cutting location by means of a clamping device and lifting the cut-away construction part after cutting. 3. Method according to claim 2, characterized in that the cut-away construction part is lifted together with the drilling device. 4. Device for removing the upper part of a construction located in the seabed, such as wellheads, platform legs and the like, characterized by a drilling device which can be placed around the construction for drilling into the seabed to a certain depth and a connection to the drilling device. cutting device for cutting the construction from the outside. 5. Device according to claim 4, characterized by a clamping device for clamping the drilling device and the cutting device to the construction. Device as claimed in claim 5, characterized in that the clamping device has at least two clamping assemblies located at a distance from each other. 7. Device according to claim 5 or 6, characterized by driving means placed between the drilling device on the one hand and the clamping device on the other hand for varying the mutual distance between the drilling device and the clamping device. 1001807. 8. Device as claimed in claim 7, characterized in that the drive means consist of cylinder-piston assemblies. 9. Device as claimed in any of the claims 4-8, characterized in that the cutting device consists of a wire sawing device. 10. Device according to claim 9, characterized in that the wire saw device is pivotally connected to the device in such a way that the active part of the wire saw device is movable substantially transversely of the construction to be cut. Device according to any one of claims 4-10, characterized in that the cutting device is detachably connected to the device and is removable therefrom. 12. Device as claimed in any of the claims 4-11, characterized in that the drilling device is formed by a rotary drill head known per se for use in drilling tunnels or the like. 13. Device as claimed in any of the claims 4-12, characterized in that an enclosure forming the outer boundary of the device adjoins immediately after the drilling device. 14. Device as claimed in any of the claims 4-13, characterized in that it is suspended from a hoisting installation on a ship, drilling platform or the like. 1 o 01 P 7 -