NO965152L - Method and apparatus for removing the upper part of a structure on the seabed - Google Patents

Description

First and foremost, the invention relates to a method for removing the uppermost part of a structure on the seabed, such as wellheads, drilling rig legs etc.

As a remnant of gas fields and oil fields, there are a large number of structures on the seabed, such as shut-off wellheads and partially removed drilling rig legs. These wellheads and drilling rig legs must be taken care of in such a way that they do not pose any obstacle to shipping and fishermen. Thus, legislation in many countries requires that these structures must be removed to a certain depth below the seabed, e.g. down to a depth of approximately 6 metres.

At this moment, two methods are known to remove such constructions. In accordance with a first known method, the upper part of the structure is released from a part of the structure that remains on the seabed by using explosive charges attached to the structure. In another known method that separates the uppermost structure from the lowermost part that remains on the seabed, it took place using a cold cutting method that used high-pressure water with additives (so-called "abrasive jet cutting").

A common feature of the known methods is that they work from the inside of the construction. Procedures can be used if there are no obstacles present in the respective constructions (such as closing devices or concrete or cement plugs in a wellhead). However, if a closing device ("corrosion cap") is arranged in a wellhead in a damaged gas or oil well, these methods are not applicable, while on the other hand it is not always precisely known whether such a closing device is arranged and what depth.

Furthermore, there is a danger that, especially when explosive charges are used, the closure devices, if applied, will be damaged so that unwanted residual gas or residual oil can flow into the surroundings of the wellhead and can lead to environmental pollution.

The above-mentioned problems led to the construction that on a global scale, about 30% of certain wellheads did not allow the removal of the upper part using known methods.

Thus, it is an object of the invention to provide a method of the type referred to above which does not suffer from the shortcomings previously mentioned.

Thus, the method in accordance with the invention is characterized by applying a drilling device around the structure in the seabed, making a borehole to a certain depth with said drilling device, and at a desired depth cutting the structure by using a cutting device lowered into the borehole.

In accordance with the method according to the invention, a hole is drilled in the seabed surrounding the structure, after which the structure is cut from the outside using a cutting device lowered into the hole. In this way, all constructions became accessible, regardless of whether these are equipped internally with an obstacle or closing device.

Advantageously, the method in accordance with the invention is characterized by grasping the construction above the cutting point using a clamping device and after cutting lifting the construction part that has been cut loose. When the upper part of the structure has been cut loose, it can be immediately lifted and removed. Furthermore, the clamping device can fix the cutting device in relation to the construction during cutting.

In this aspect, it is advantageous if the structural part which has been cut loose is lifted together with the drilling device. Similarly, the drilling device and the loosely cut structural part can be removed in a single step. As a result, it is possible to significantly reduce the time required to remove the drilling device and the cut-off construction part.

The invention further relates to a device for removing the uppermost part of a structure in the seabed, as well as well heads, drilling rig legs etc. This device is characterized by a drilling device that can be fitted around the structure for drilling in the seabed to a certain depth and a cutting device connected to the drilling device to cut the structure from the outside.

Preferably, the device is characterized by a clamping device for clamping the drilling device and the cutting device on the structure. During drilling of the borehole and after cutting the construction, the clamping device can stabilize the device in relation to the construction. Furthermore, the clamping device can be used to lift the structural part that has been cut loose.

Preferably, the clamping device comprises at least two clamping units located at some distance above the other. Initially, the lowermost clamping device will grip the structure to be removed, after the device has been moved downwards sufficiently far around the structure, the second clamping unit will also grip the structure, thus correctly centering the device in accordance with the structure.

Furthermore, a special embodiment of the device in accordance with the invention is mentioned, in accordance with which drive devices are arranged inserted between the drilling device on one side and the clamping device on the other side in order to vary the mutual distance between the drilling device and the clamping device. When the clamping device grips the structure, the drive device can increase the distance between the clamping device and the drilling device, in order to drive the drilling device down into the seabed. After the drilling device has reached the maximum stroke, the clamping device can be deactivated, the distance between the drilling device and the clamping device can be reduced, during which the clamping device is lowered in relation to the structure, and the clamping device can be reactivated in its new position, so that the drive device drives the drilling anode further down into the seabed.

The cutting device can comprise a cable line cutting device, of a type known per se.

For example such a wireline cutting device may comprise a diamond wire. The wireline cutting device must be moved through the structure. To achieve this, it is constructively possible for the wire cutting device to be pivotally connected to the device in such a way that the operative part of the wire cutting device is movable mostly across the structure to be cut. Furthermore, it is preferred that the cutting device is connected to the device in a releasable manner and is removable from it. Similarly, the cutting device can be quickly removed from the device to replace worn parts, such as diamond wire. Appropriate quick-acting coupling and guide devices can be used for repositioning the device in the cutting device.

The drilling device arranged in the apparatus can comprise a rotatable drill head which is known per se for application in bore tunnels or the like. The equipment required for the application of such a drill head is clear to an expert and consequently needs no further explanation.

For good operation of the device, it can also be important that immediately after the drilling device, there is a compartment that forms an outer boundary for the device. Such a cubicle can be shaped like a tube. The cubicle will protect the borehole created by the drill head against material intrusion coming from the surrounding seabed and seawater, thus creating a stable working space around the structure to be removed.

Finally, it should be noted that the device can be suspended from a lifting device on a ship, drilling rig or the like. In this way, it is possible to operate the device without the assistance of divers. The required techniques for remote control of the various parts of the device are known per se and will not be commented on further here.

In what follows, the invention will be explained with reference to the drawing.

The single figure schematically shows an embodiment of the device or apparatus in accordance with the invention in a cut away side view.

The figure shows a wellhead 1 present on the seabed 2. The upper part of the wellhead 1, down to a certain depth below the level of the seabed (e.g. 6 metres), must be removed. As can be seen in the beginning, an upper end of the wellhead 1 protrudes above the level of the seabed 2.

At its front (or bottom) end, the apparatus for removing the upper part of the wellhead 1 comprises a drilling device 3. In a known manner, said drilling device can comprise a rotating drilling head, as used in bore tunnels. For the sake of clarity, the drive device for such a drill head is not shown. Nor are supply and discharge lines for drilling mud and control lines shown.

Immediately after the drilling device 3 follows a cubicle 4 which forms the outer boundary of the device. Said cubicle ensures that a borehole made by the drilling devices 3 is not filled with material coming from the seabed 2 or seawater respectively. The device further comprises 2 clamping units 5 and 6 which are placed at some distance above each other. The clamping units 5,6 can grip the wellhead 1 and as a result attach the apparatus to it. The drive devices for the clamping units 5,6 are schematically represented by dashed lines 7,8. Naturally, there are many possibilities for releasing said clamping units 5,6 in terms of construction. A further essential part of the device is a cutting device 9.1 the embodiment shown comprises a cutting device a cage 10 placed around the wellhead 1. A yoke 11 is suspended in the cage pivotable around a horizontal pivot axis 12. A cylinder-piston unit 13 is connected to the cage at one end 10 and with its other end to the end of the yoke 11 opposite the pivot axis 12. Guide wheel 14 is mounted on the yoke 11 and guides a diamond wire 15 in a cable line cutting device. The lower part of the diamond wire 15 is longer than the diameter of the wellhead 1 and extends transversely to the wellhead 1 and perpendicular to the plane in the drawing. When the cylinder-piston unit 13 is activated and the yoke 11 is swung, a lower part of the diamond thread 15 follows a track indicated by dashed line 16 (which has the swing axis 12 as its centre). In this way, the wellhead can be cut off.

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

Finally, the device shown includes drive devices 18 inserted between the drilling device 3 (or compartment that is attached to it) on the one side and the bottom clamping unit 5 on the other side, where by using these the distance between the drilling device 3 and the clamping 5 can be varied. As an example, such a variation of the distance from the different position 3' on the drilling device appears.

The device works as follows: By using a lifting device that can be placed on board a ship, the device is lowered by means of a lifting cable connected to an eye 19. Like this, the lower part of the device will be placed with its drilling device 3 around the part of the wellhead 1 which protrudes above the seabed 2.

After the device has been placed around the protruding wellhead part, the clamping unit 5 is activated and the device will then be essentially fixed in relation to the wellhead 1. The drilling device 3 is then activated while the drive device 18 is also activated. As a result, the drilling device 3 (the drill head) is driven down into the seabed 2, as a result of which a borehole is created around the wellhead 1. Enclosure 4 prevents the surrounding material (coming from the seabed or seawater) from entering the created borehole.

When the drive device 18 (which may comprise cylinder-piston units) has reached the end of their stroke, the clamping unit 5 is deactivated and the drive device 18 is moved back towards its starting position. As a result, the device moves downward.

The clamping unit can then be reactivated and the cycle started again.

When the device like this has entered the seabed at a predetermined size, the upper clamping unit 6 also reaches the wellhead 1 and can act in accordance with the clamping unit 5. Furthermore, as a result of cooperation between the clamping units 5 and 6, a good centering is achieved and alignment of the device in relation to the wellhead 1.

In this way, the device is driven down into the seabed 2 around the wellhead 1 down to the desired depth. Then the cutting device 9 can be activated, as a result of which the diamond wire 15 cuts the wellhead loosely in accordance with the groove indicated by dotted line 16 (while activating the cylinder-piston unit 13).

Finally, the lower clamping unit 5 can again be deactivated and the device can be lifted using the hoisting cable attached to the eye 19. The upper part of the wellhead 1 which has been cut loose is fixed by means of the clamping unit 6 and thus lifted.

As can be seen from what has been described above, the clamping units 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 units 5,6 further take up rotational forces to prevent a rotation of the apparatus around the wellhead 1. Furthermore, they stabilize the apparatus when, using the cutting device 9, the uppermost wellhead part 1 is cut loose. Furthermore, the top clamping unit 6 in particular is adapted to lift the top wellhead part which has been cut loose.

The terms "drilling device" and "casing device" shall be considered in a broad sense as the device adapted to make a hole in the seabed and to separate the structural part to be removed from the remaining structural part respectively.

Claims (14)

1. Procedure for removing the upper part of a structure in the seabed, such as wellheads, drilling rig legs and the like, characterized by a drilling device being applied around the structure in the seabed, making a borehole to a certain depth with the drilling device, and at a desired depth casing the construction using a cutting device immersed in the borehole. 2. Method according to claim 1, characterized in that the construction is grasped above the cutting point using a clamping device and after cutting, the construction part which has been cut loose is lifted. 3. Method according to claim 2, characterized in that the structural part which has been cut loose is lifted together with the drilling device. 4. Device for removing the upper part of a structure in the seabed, such as wellheads, drilling rig legs and the like, characterized by a drilling device that can be applied around the structure for drilling in the seabed to a certain depth and a cutting device connected to the drilling device to cut the structure from the outside. 5. Device according to claim 4, characterized by a clamping device for clamping the drilling device and the cutting device on the structure. 6. Device according to claim 5, characterized in that the clamping device comprises at least two clamping units placed at some distance above each other. 7. Device according to claim 5 or 6, characterized by drive devices placed between the drilling device on the one hand and the clamping device on the other side in order to vary the mutual distance between the drilling device and the clamping device. 8. Device according to claim 7, characterized in that the drive device comprises cylinder-piston units. 9. Device according to one of claims 4 to 8, characterized in that the cutting device comprises a wireline cutting device. 10. Device according to claim 9, characterized in that the cable line cutting device is pivotably connected to the device in such a way that the operative part of the cable line cutting device is movable mainly across the construction to be cut. 11. Device according to one of claims 4 to 10, characterized in that the cutting device is connected to the device in a releasable manner and is removable from it. 12. Device according to one of claims 4 to 11, characterized in that the drilling device comprises a rotatable drill head which is known per se for use in bore tunnels or the like. 13. Device according to one of claims 4 to 12, characterized in that, immediately after the drilling device, there follows a cubicle which defines an outer boundary for the device. 14. Device according to one of claims 4 to 13, characterized in that it is dependent on a hoisting device on a ship, drilling rig or the like.