NO327223B3 - Method and apparatus for removing a top portion of a well - Google Patents

Description

METHOD AND DEVICE FOR REMOVAL OF THE UPPER PART OF A WELL

This invention relates to a method for removing the upper part of a well. More specifically, it concerns a method for removing the upper part of a well arranged in the ground, where the upper part of the well comprises at least a part of a casing pipe that projects from the surface into the ground, and where the casing pipe, before the upper part of the well is removed, is cut at a distance below the surface. The method comprises the operations of: assigning a cutting tool, which is adapted to be able to cut the casing at a distance below the surface, to a lifting tool, which is adapted to be connected to the casing or a component connected to the casing; lowering the lifting tool together with the cutting tool until the lifting tool comes to rest against the casing or the component connected to the casing; connect the lifting tool to the casing or the component connected to the casing; cutting the casing using the cutting tool; lift the cut part of the casing out of the ground together with the cutting tool. The invention also includes a device for carrying out the method.

After a well is permanently plugged in the ground, it is common to remove at least the upper part of the well from the ground at the surface. The surface can be made up of a seabed.

The well, which can typically be freestanding or belong to a group of wells in a well frame, most often comprises a composite casing where several casings of different diameters are located inside each other, and where the annulus formed between the casings is usually filled with concrete.

A single or composite casing, which may also include other pipes, for example conduit, is referred to below as a casing. The casing typically protrudes into the ground from a wellhead which, in the case of a submerged well, is located above the seabed.

According to known technology, the upper part of the well is removed by first placing a rigging vessel over the well. The casing is cut below the seabed, typically using a mechanical cutting tool.

After the casing is cut, the cutting tool is removed from the well, after which the rig vessel's lifting equipment is connected to the casing. The upper, cut-off part of the casing is then lifted out of the ground.

The procedure according to known technology requires the use of relatively large vessels that are equipped with drilling equipment, and is, among other things due to repeated connection to the well, relatively time-consuming.

It is also known to use a tool for removing an inner casing and intermediate casing where the tool is designed to be able to grip the inside of the casing and pull it out after it has been cut, see US document 2002/0060076. This procedure requires that the casings are detached from and can be pulled individually through the wellhead module. NO document 2 0001727 also describes a single pipe removal device where the tool grips the inside of the pipe to be removed and pulls it out after cutting.

The purpose of the invention is to remedy or reduce at least one of the disadvantages of known technology.

The purpose is achieved according to the invention by the features indicated in the description below and in the subsequent patent claims.

A method in accordance with the invention for removing the upper part of a well arranged in the ground, where the upper part of the well comprises at least a part of a casing pipe that projects from the surface into the ground, and where the casing pipe, before the upper part of the well is removed, is cut on a distance below the surface, where the method comprises the operation: assigning a cutting tool, which is adapted to only ne cutting the casing at a distance below the surface, to a lifting tool adapted to be connected to the casing or a component connected to the casing; and where the method is characterized by the fact that it also includes the operations: - lower the lifting tool with the cutting tool down towards the casing until the lifting tool comes to rest against the casing or the component connected to the casing; - connect the lifting tool to the casing or the component connected to the casing;

- cut the casing using the cutting tool; and

- lift the cut part of the casing out of the ground at least together with the cutting tool.

It is advantageous that the cutting tool can be displaced relative to the lifting tool after the lifting tool has been placed on the casing or the component connected to the casing.

Alternatively, the cutting tool is placed at a distance below the lifting tool before the lifting tool comes into contact with the casing pipe or the component connected to the casing pipe.

The cutting tool is advantageously clamped in the casing before the actual cutting operation is started.

A device for carrying out the method, hereinafter also referred to as a cutting device, comprises a cutting tool of a known design in and of itself, for example in accordance with NO 314733. The cutting tool is placed at a distance below a lifting tool. The lifting tool, which is designed to be able to be connected to the casing or a component connected to the casing, is designed according to per se known technology. The lifting tool is connected to a vessel's lifting equipment, for example to a crane.

The cutting tool is advantageously arranged concentrically in relation to the lifting tool, as the cutting tool's connecting cable to the vessel runs via the lifting tool.

When it concerns a hydraulic cutting tool where a so-called abrasive fluid is used, the connection cable includes hoses for fluid flow as well as necessary electrical cables.

Under some conditions, it can be advantageous for the lifting tool to be provided with a mechanism which is designed to be able to advance the cutting tool axially relative to the lifting tool. The lifting tool is provided with a locking mechanism to be able to be firmly connected to the casing or a component connected to the casing, which typically consists of a wellhead.

The method and device according to the invention provides a significantly simplified procedure for removing the upper part of a well compared to known technology, since several relatively time-consuming operations are made redundant. The method and device are well suited for use on relatively small vessels, with associated cost reductions.

In what follows, an example of a preferred method and embodiment is described which is visualized in the accompanying drawings, where: Fig. 1 schematically shows a cutting tool and a lifting tool in accordance with the invention which is lowered into a well on the seabed; Fig. 2 shows that the cutting tool and the lifting tool have come to rest against a wellhead; Fig. 3 shows the same as in fig. 2, but here the lifting tool is connected to the wellhead, the cutting tool is clamped in the casing and the cutting operation is started; and Fig. 4 schematically shows the upper part of the well lifted out

the seabed together with the cutting tool.

In the drawings, the reference numeral 1 denotes a cutting device comprising a cutting tool 2 and a lifting tool 4, the cutting tool 2 being placed at a predetermined vertical distance, for example in the order of ten meters, below the lifting tool 4.

The cutting tool 2 consists of a hydraulic cutting tool where an abrasive fluid is used which flows mainly radially from a rotating nozzle 6 under high pressure.

The cutting tool 2 is supplied with fluid and electric current to, for example, measuring equipment not shown, via a cable 8 which runs from the cutting tool 2 up to a vessel not shown. The cutting tool 2 is assigned two fastening devices 10.

The lifting tool 4 consists of a known wellhead tool which is connected to the vessel's lifting equipment (not shown) by means of a chain 12. The lifting tool 4 is provided with controllable locking hooks 14.

The cable 8 of the cutting tool 2 runs via a guide tube 16 through the lifting tool 4, as the cutting tool 2 hangs concentrically below the lifting tool 4.

A well 20, which comprises a wellhead 22 and a casing

24, protrudes from above the seabed 26 and down into the ground 28. The wellhead 24 here constitutes the component connected to the casing 24 as is mentioned in the general part of the description and in the set of requirements.

The wellhead 22 is provided with a connecting part 30. The well 20's pipe run 32 runs through the wellhead 22 and further into the casing 24.

After the pipe run 32 is sealed at the bottom, the cutting device 1 is lowered towards the well 20, see fig. 1. The cutting tool 2, which hangs below the lifting tool 4, is moved into the pipe run 32 until the lifting tool 4, which complementarily fits on the coupling part 30, comes to rest against the wellhead 22, see fig. 2.

The cutting tool 2's fastening devices 10 are then tensioned against the pipe 32 to hold the cutting tool 2 in a fixed position in relation to the casing 24. The lifting tool 4 is connected to the wellhead 22 by turning each of the locking hooks 14 from its respective inactive position, and to its active position where the locking hooks 14 grips under the coupling part 30, see fig. 3.

The casing 24 is cut using abrasive fluid which flows at high speed from the nozzle 6 and towards the casing 24 at the same time as the nozzle 6 is rotated about its longitudinal axis.

When the casing 24 has been cut, the cutting operation is stopped. The chain 12 is stretched up and thereby pulls, with the help of the lifting tool 4 and the wellhead 22, the cut-off part of the casing 24 out of the ground 28, see fig. 4.

The chain 12 can be replaced in whole or in part, for example, by a wire not shown.

It is specified that the casing 24 can be constructed as mentioned under known technique in the first part of the description.

Claims (8)

1. Procedure for removing the upper part of a well (20) arranged in the ground, where the upper part of the well (20) comprises at least a part of a casing pipe (24) that projects from the surface into the ground (28), and another the casing (24) connected wellhead component (22) where the method comprises the operation: - assigning a cutting tool (2), which is arranged to be able to cut the casing (24) at a distance below the surface, to a lifting tool (4) which is arranged to could be connected to the casing (24) or a wellhead component (22) connected to the casing; and where the method is characterized in that it also includes the operations: - lower the lifting tool (4) with the cutting tool (2) down towards the casing (24) until the lifting tool (4) comes to rest against the casing (24) or the wellhead component (22) connected to the casing; - connect the lifting tool (4) to the casing (24) or the wellhead component (22) connected to the casing; - cutting the casing (24) comprising at least one composite casing or a guide pipe, using the cutting tool (2); and - lifting the cut-off part of the casing (24) out of the ground (28) at least together with the wellhead component (22) and the cutting tool (2), the cutting tool (2) being hydraulic. 2. Method according to claim 1, characterized in that the cutting tool (2) is displaced relative to the lifting tool (4) after the lifting tool (4) has been placed on the casing (24) or the wellhead component (22) connected to the casing. 3. Method according to claim 1, characterized in that the cutting tool (2) is placed at a distance below the lifting tool (4) before the lifting tool is placed on the casing (24) or the wellhead component (22) connected to the casing. 4. Device for removing the upper part of a well (20) arranged in the ground, where the upper part of the well (20) comprises at least a part of a casing pipe (24) that projects from the surface into the ground (28), and a wellhead component (22), and where a cutting tool (2) is connected to a lifting tool (4), where the lifting tool (4) is arranged to be able to be connected to the casing pipe (24) or a wellhead component (22) connected to the casing pipe (24) ), characterized in that the casing (24), which comprises at least one composite casing or a guide pipe, is cut using the cutting tool (2) at a distance below the surface before the upper part of the well (20) is removed, the cutting tool (2) is hydraulic. 5. Device according to claim 4, characterized in that a cable (8) which runs from the cutting tool (2) and to the vessel, runs via the lifting tool (4). 6. Device according to claim 5, characterized in that the cable (8) is axially adjustable in the lifting tool (4). 7. Device according to claim 4, characterized in that the lifting tool (4) is connected to a vessel's lifting equipment and dimensioned to be able to pull a severed part of the casing pipe (24) out of the ground (28) at least together with the cutting tool ( 2). 8. Device according to claim 5, characterized in that the lifting tool (4) is provided with a guide tube (16) for the cable (8).