NO339233B1 - Universal well overhaul package - Google Patents

Description

Universal well overhaul package (well control package)

SCOPE OF THE INVENTION

The present invention relates to a well overhaul system (workover system) for use with a subsea well. More specifically, the invention relates to a monobore overhaul system with a universal two-barrel lower riser package.

BACKGROUND OF THE INVENTION AND PRIOR ART

Today, when an offshore underwater well is intervened (work carried out on the inside of production pipes below an underwater valve tree) from a floating vessel or a platform, an open water overhaul system can be used. Such overhaul systems are normally designed with a lower riser package (lower riser package), also called a well control package. This is connected below an emergency disconnect package (emergency disconnect package), which allows disconnection from the lower riser package (LRP) when situations require it.

When overhauling a well on a horizontal valve tree, the overhaul system will normally be an overhaul system with mono-drilling. By this is meant that a single, straight (production) pipe extends down through the center of the system. A monobore riser extends from the rig down to the monobore emergency disconnect package and lower riser package, which in turn is connected to the horizontal valve tree. Since the tool for installing plugs needs a relatively straight access path, it is possible to insert plugs into the valve tree in the production bore when the overhaul system is attached. A second line, called the annulus line, is also arranged in well overhaul systems. This annulus line normally starts as a hose from the upper side (top side) and is led further into the emergency disconnect package, before taking various paths through the system and into the valve tree. There are different crossing points from this line into the production well, leading to different circulation paths for different work operations, including flushing of hydrocarbons from the riser. In a horizontal valve tree, it is not necessary to place plugs in this line in the valve tree since there are valves that can perform this function. It is therefore not a problem that there is no access in a straight line to the annulus drilling in the valve tree for tools used to plug the well.

However, the situation is different with a vertical valve tree. Some vertical valve three systems require plugs to be inserted and removed from the annulus borehole.

A solution to this is to use a two-pass well overhaul system with a two-pass riser, with bores that match the size and spacing of the bores in the vertical valve tree. However, this requires an overhaul system designed specifically for the vertical valve tree configuration, and it will also require a large two-barrel riser.

Publication US 2010025044 relates to a system for performing well overhaul operations on a subsea well. This comprises an emergency cut-out package and a lower riser package which is arranged on a valve tree at the top of a well. The system also describes an adapter for connection between the valve tree and lower riser package. The system is further intended for connection to a monobore lower riser package for connection to a horizontal valve tree, not a two-bore lower riser package for connection to a vertical riser.

It is also not mentioned that the connecting link can have different configurations depending on the type of Christmas tree the overhaul equipment is attached to.

The present invention aims to create a standardized overhaul system with a replaceable lower part to achieve a universal overhaul system. This includes a standardized monoboring emergency shutdown package. This is arranged over a two-barrel lower riser package which includes an active borehole selector. The geometry of the lower is optimized to cover a wide variety of vertical valve tree types, with the only valve tree specific equipment being the valve tree adapter (XTAC). The advantage this invention provides is that it forms a well overhaul system where it is possible to carry out an intervention on most of the vertical valve trees available on the market. Although not optimal, the same invention can be adapted to perform intervention on horizontal valve trees as well. This provides a particular advantage for use in fields containing a variety of valve tree types and manufacturers, since it is possible to purchase one piece of equipment to perform all the operations.

The main purpose of the invention is to provide a subsea well overhaul system which mainly has monoboring, but which is at the same time universal in the way that it can be easily adapted to different bore sizes and distances for vertical valve trees, and is also adapted to be used on horizontal valve trees.

SUMMARY OF THE INVENTION

The invention provides a system for performing well overhaul operations on a subsea well comprising a monobore emergency disconnect package and a lower riser package which is arranged between the emergency disconnect package and a valve tree, the valve tree being arranged at the top of a well. Said system has a main bore extending through the system from a riser connected over the emergency disconnect package, said main bore branching into the lower riser package in a two-run arrangement comprising a production well and an annulus, said production well and annulus extending down the well under the valve stem. The system is distinctive in that the valve tree adapter has a lower interface to the valve tree and an upper interface to the lower riser pack, the lower interface is optimized to fit a majority of configurations of the bores in the valve tree and the adapter is replaceable to adapt to a wide range of possible arrangements of the production bore and annulus bore in the valve tree.

The present invention provides a system for performing well overhaul operations on a subsea well comprising a monobore emergency disconnect package and a lower riser package arranged between the emergency disconnect package and the valve tree, arranged on top of the well. Said system has a main bore extending through the system from a riser connected above the monobore emergency disconnect package, said main bore is branched in the lower riser package into a two barrel arrangement comprising a production well and an annulus bore, said production bore and annulus extending down into the well below the valve tree . The invention is distinctive in that the lower riser package has a cavity in the annulus bore, the cavity having a width greater than the remaining annulus bore, a diagonal line from an inlet of the cavity to an outlet of the cavity having a length that is adapted/suitable to the length of rigid parts of tools that are lowered into the annulus bore in the well.

Preferably, the system comprises several properties which are defined in the independent claims 2-24, 26-28.

It is an object of the present invention to adapt a monobore well workover system to work with a majority of variations of vertical valve trees (XT) and also horizontal valve trees (XT) During well workover operations with a monobore emergency disconnect package and lower riser package, the annulus line does not follow a straight line and only allows circulation of fluid. When one wishes to use a monobore system for use on a vertical valve tree, to overcome these problems, it is possible to use a monobore emergency shut-off package and a two-pass lower riser package (LRP) (with bore spacing matching the bore spacing in that valve tree (XT) with an active borehole selector in between An active borehole selector allows well cable tools to be redirected from the main borehole in the Emergency Disconnect Package (EDP), to either the main or annulus borehole in the lower riser package, with a path/path/road that is straight enough for to allow navigation of the well cable tool.

It is another purpose of the present invention to provide a section in the annulus bore that is passable for well cable, the tool that is used to insert/remove plugs in the annulus bore.

It is another object of the present invention to provide a well overhaul system that is universal for use on all types of valve trees XT, where the only valve tree specific need is a valve tree adapter that is replaceable and specific to each valve tree configuration.

It is yet another object of the present invention to provide a well overhaul system with a bore selector incorporated, and which is relatively compact.

It is yet another object of the present invention to provide a well overhaul system where the valves and well selector can form different flow paths through the annulus well, the production well and the main well

Several other objects and advantages of the present invention will become apparent to one skilled in the art when a more detailed description is provided below.

BRIEF DESCRIPTION OF THE FIGURES

The present description will now be explained in more detail by means of examples, with reference to the accompanying drawings, where: Figure 1 is a schematic representation of a monobore well overhaul system for a horizontal valve tree according to prior art. Figure 2 is a schematic representation of a universal well overhaul system according to the present invention, attached to a vertical valve tree, with a bore selector incorporated in the lower riser package. Figure 3 is a schematic representation of another preferred embodiment of the universal well overhaul system of the present invention, attached to a vertical valve tree (VXT), with the bore selector as a bolted on assembly as part of the lower riser package

LRP.

Figure 4 is a schematic representation of the universal well overhaul system according to the invention in Figure 2, where the important features are highlighted. Figure 5-7b is a section of the top of the lower riser package and shows various possible annulus circulation paths in the system. Figure 8 is a section of the top of the lower riser package (LRP) according to the present invention with a well cable tool being redirected into the annulus bore and where the main bore is closed by the bore selector. Figure 9 is a section of the top of the lower riser package (LRP) according to the present invention with the bore selector arranged in the opposite direction than in Figure 8 and where the annulus barrel is in a closed state. Figure 10 is a section of a two-run lower riser package with a larger cavity in the lower annular area. Figure 11 is a schematic representation of the tool that installs plugs, the tool is redirected in the annulus of the vertical valve tree, to place the plug in the annulus in the pipe hanger below the vertical valve tree. Figure 12 is a section of the lower area of the lower riser package and the top of the valve tree adapter, where the valve tree adapter (XTAC) incorporates seals and bore distances to fit a particular valve tree type. Figure 13- Figure 15 are sections of different vertical valve tree configurations with different valve tree adapters that are used to match the different configurations. Figure 16 is a schematic representation of the universal well overhaul system according to another preferred embodiment of the present invention where the well overhaul system is used on a horizontal valve tree.

DETAILED DESCRIPTION

Reference is now made to the drawings, where like reference numbers denote corresponding structure in all the figures.

Figure 1 shows a typical setup for a horizontal valve tree 5 with a monobore well overhaul system 8.1 this setup extends a monobore riser 1 from the rig (only the lower part of the riser is shown in the figure) down to a monobore emergency disconnect package (EDP) 2 located above a lower riser pack (LRP) 3. The lower riser pack 3 is connected to the horizontal valve tree 5 through a valve tree adapter 4, which is an addition bolted to the underside of the lower riser pack (LRP) 3. The valve tree 5 is in the lower the end connected to a wellhead 7. The emergency disconnect package 2, the lower riser package 3 and the valve tree adapter 4, the riser 1 and equipment arranged topside (not shown) are included in the monobore well overhaul system.

The system is referred to as monodrilling because of a single, straight production well 9 that runs down through the center of the system. The horizontal valve tree 5 has a horizontal production outlet 15 where the production flow is directed. This outlet 15 is closed during the well overhaul process by means of valves 16. When the well overhaul system 8 is connected to the valve tree 5, plugs (not shown) can be inserted into the tubing hanger 6 by means of tools which are introduced into the production well 9. The tools which is used to introduce plugs requires a relatively straight access line.

An annulus line 10 is arranged next to the production well 9 in the well overhaul system 8. The annulus line 10 starts as a hose (not shown) from the upper side (top side) and enters the emergency disconnect package 2 at the top part 14 before taking a varied path down through the well overhaul system 8 and into the valve tree 5. There are several crossing points 11 from this line into the production well 9, forming a circulation path that can be used for various operations. The line 10 and the crossing points 11 can, for example, be used for flushing hydrocarbons in the riser 1.

Figure 2 shows an apparatus 20 for performing well workover operations on a subsea well having a vertical valve tree 25. In this setup there is a monobore riser 28 that extends from the rig down to a monobore emergency cut-out package 21. The emergency cut-out package 21 is standard and essentially the same as before known technique. The riser 28 and the emergency release package 21 have a main bore 29 which extends through the center of the riser 28 and the emergency release package 21. Below the emergency release package 21, a lower riser package 23 is arranged which is connected to the emergency release package 21 through a high-angle release coupling. This is adapted to release the emergency disconnect package 21 from the lower riser package 23. The upper portion 43 of the lower riser package 23 has a standard contact surface/interface to a standard monobore emergency disconnect package (EDP) and riser arrangement. The flexible hose is connected to the annulus line 30 at an inlet point 44. On the inside of the lower riser package 23, a main bore 29 extends to a preferred distance from the top of the lower riser package 23 where the main bore 29 is divided into two bores; a production bore 35 and an annulus bore 36. The internal geometry of the lower riser package coil (spool) according to the invention is designed to allow a straight approach to the production bore 35 and an angled but relatively straight approach to the annulus bore 36. At the top point 34 of the division between the production bore 35 and the annulus bore 36, a switch or a bore selector 22 is arranged. The bore selector 22 is a device that allows choosing between the bores. This device could potentially take a number of different forms. One form is that the bore selector 22 is shaped like a guide rail with one end connected to the vertex 34 and the opposite end 38 extending upwards and leaning against an inner wall 37 defining the main bore 29. The bore selector 22 can be moved from one side of the inner wall 37 which covers the production bore 35 to the other side of the wall 37 which covers the annulus bore 36. This technique is well known to a person skilled in the art.

When the bore selector 22 is selected to cover the production bore 35, it is possible to perform work operations in the annulus bore 36, such as inserting and removing plugs. Likewise, when the annulus bore 36 is covered by the bore selector 22, tools can be inserted into the production bore 35.

In the production bore 35 and the annulus bore 36 below the bore selector 22, a number of valves 33a-e are arranged to create different circulation paths in the system.

Alternative valve arrangements and the number of valves than what is described below are possible to achieve the same functionality. The annulus line 30 is arranged next to the main bore 29 1 the emergency disconnect package 21 and then routed around the bore selector 22 and is led to the annulus bore 36 between the upper annulus valve 33b and a lower annulus valve 33c (annulus isolation valve). This will be described in more detail in figures 5-7. Below the valves 33a-e, a part 31 is arranged in the annulus bore with a larger diameter. This is described in more detail in connection with figures 8-10.

The barrier philosophy in lower riser package 23 is maintained with dual blocks of valves 33d and 33e, but also 33b and 33c below bore selector 22. Cutting capability can be maintained by using cutting sluice valves and/or sealing cutting valve (not shown).

Below the lower riser package 23, a valve tree adapter (XTAC) 24 is arranged with coupling seals 39 and a drilling distance to be adapted to different valve tree types 25. Figure 2 shows a conventional vertical valve tree 25. The valve tree 25 is connected to a well holder 27 and to a pipe suspension 26 in a conventional manner. Figure 3 shows a possible embodiment of the arrangement shown in Figure 2 with the difference that the bore selector 22 is incorporated into the lower riser package 23 as a separate assembly which is mounted by being bolted on. The bore selector 22 is arranged in a separate part 41 and bolted with bolts 42 to the top of the lower riser package 23. Figure 4 shows the arrangement according to the present invention where new aspects of the invention are highlighted. The following figures will describe these features in more detail. Feature A deals with the annulus circulation path that extends outside the bore selector. This is described in more detail in figures 5-7. Feature B deals with the geometry of the annulus drilling and is described in more detail in Figures 8-11. Feature C is an exchangeable valve tree adapter (XTAC) 24 and drilling geometry in the lower riser package 23, which means that the well control equipment is universal. This feature is described in more detail in figures 12-15.

Figure 5 shows a circulation path through the well overhaul equipment. A fluid is 50 is led into the annulus line 30 in the emergency disconnection pack 21 and is circulated downwards through the annulus path 30. The fluid is further led into the annulus bore 36 in the lower riser pack 23. The fluid is circulated further down the annulus bore 36. An upper annulus bore valve 33b is closed by this circulation process to prevent the fluid from flowing into the production well 35.

An annulus line valve 33a and a lower annulus bore valve 33c are in the open position.

Figure 6 shows a circulation path downwards through the production well 35. The fluid is led into the annulus line 50 in the lower emergency disconnect package 21 at the inlet point 44 and is circulated downwards through the annulus line 50. The fluid is further led from the annulus line into the annulus bore 36 through a outlet point 53. The lower annulus valve 33c is closed, which causes the fluid to circulate upwards in the annulus borehole 36 through the bore selector 22. A main borehole valve 53 in the main borehole 29 is closed and the fluid continues to circulate down the production borehole 35. Through this flow line, the annulus line is the valve 33a, the annulus wellbore valve 33b, an upper production wellbore valve 33d and a lower production wellbore valve 33e open. The bore selector 22 is in the closed position above the annulus bore 36. The bore selector 22 does not have fluid/gas sealing properties, which means that the fluid 50 can be guided around the bore selector 22.

In Figure 7, the fluid follows the same path to the annulus bore 36 as in Figures 5 and 6.1 in this figure, the upper annulus valve 33b is closed so that the fluid is directed downwards into the annulus bore 36. There is a crossing line (not shown in the figure) which is arranged in either valve tree or below somewhere in the completion piping (completion tubing). The upper production valve 33d, the lower production valve 33e and the main borehole valve 53 are open so that the fluid is allowed to be circulated up through the production borehole 35 and further up into the main borehole 29.1 in this figure the borehole selector 22 is closed over the production borehole 35.

Another possibility for circulating the fluid upwards in the main borehole 29 is when the lower annulus drilling valve 33c and the upper production drilling valve 33d are closed. The annulus line valve 33a and the lower annulus bore valve 332c are open. The bore selector 22 is in a position where it closes over the annulus bore 36. This possible circulation path is shown in Figure 7b.

In the following figures 8-11, the features relating to the geometry of the annulus drilling are described in more detail. In some vertical valve trees, plugs are required to be inserted or plugs removed from the annular bore 36. The tools 60 normally consist of many links 60a between rigid-length parts 60b which enable the tool to be inserted into the annular bore 36. The tool 60 is guided down by means of its own weight.

Due to the nature of the cable tool used to insert/remove these plugs, a relatively straight path is usually required. The annulus path in the lower riser package 23 is shaped as a path with several breaks (dogleg) down through the annulus bore 36 right after the bore selector 22. Further down where the bores converge, a larger cavity 31 can be seen.

The entire geometry of the annulus path is optimized to provide the necessary space for the tool 60 to access the valve tree 25. The tool requires some space in the lower riser package to pass through the kinks, due to the minimum rigid length constraints imposed by the cable tool . Figure 9 shows a section of the bore selector where the bore selector is in a closed position above the annular space bore 36. Figure 10 shows the cavity 31 of the annular space bore located below the valves 33a-33e. The upper and lower production borehole valves 33d and 33e have actuators that can take up space in the lower riser package 23 main block and limit the possible size of the bore. Below the valves 33d and 33e, it is possible to increase the width of the annulus bore such as the cavity 31, to give the cable tool 60 the necessary space to navigate along the annulus bore 36. Figure 11 shows the arrangement with the tool for inserting or removing plugs in the annulus bore redirected into the annulus drilling of the lower riser package 23. The tool can be used for other work operations also in the well 32.

The manufacturing process to obtain a larger cavity 31 is carried out so that the cavity is manufactured from below. An angled surface is then formed by back-filling the cavity in one process. This is shown in Figure 12. The angled surface is illustrated by the shaded area in Figure 12.

Forming this cavity can also be achieved using various other methods, which can be deduced by one skilled in the art.

Figures 13-15 show a third aspect of the present invention.

It is desirable for operators to be able to use the same well overhaul system to perform interventions on vertical valve trees from different suppliers. There are many varieties of vertical trees with different diameters on the production bore, but also the distance between annulus drilling and production bore varies from different valve trees and suppliers.

Figures 13-15 show that the geometry of valve tree adapter (XTAC) 65;71 ;75 can be tailored to fit all vertical valve tree configurations. Figure 16 shows that valve tree adapter) 65;71 ;75 can also be specially designed to fit a horizontal valve tree configuration.

This means that valve tree adapter (XTAC) 65; 71 ;75 is the only part of the system that needs to be specific and adapted to the valve tree 70; 74; 78. It further appears that the geometry of the lower riser pack bores and the sealing arrangement from the lower riser pack 23 against the valve tree adapter remains constant. The geometry of the main and annulus bore above the valve tree adapter is optimized to cover the largest possible number of bore diameters and distance between the bores.

Figure 13 shows a valve tree adapter 65 configured to be connected to a valve tree 70 having a 6" diameter production bore and a 2" diameter annulus bore. A common sealing contact surface with metal seals 66 is used between the lower riser pack 23 and the valve tree adapter 65. The production bore 67a in the valve tree adapter 65 is funnel-shaped or narrowed to fit the production bore 68b in the valve tree 70.

The annulus bore 68a in the valve tree adapter 65 is similarly narrowed to fit the annulus bore 68b in the valve tree 70.

The connection between the valve tree adapter 65 and the valve tree 70 is sealed by two cylindrical stinger seals 69a, 69b, one in the production bore 71, the other in the annulus bore 72 in the valve tree adapter 65, i.e. the seals (stinger seal) 69a, 69b extend from each bore 71, 72 in the valve tree adapter 65 and extends into the bores 67a, 67b in the valve tree.

Figure 14 shows another embodiment of the valve tree 78. The production bore 73b in the valve tree is in this embodiment 5". This results in another funnel-shaped production bore 73a in the valve tree adapter 76. The same applies to the annular bores 74a, 74b.

In Figure 15, the production bore 77b in the valve tree 80 has a diameter of 4". The funnel-shaped production bore 77b in the valve tree adapter 78 is not symmetrical in this embodiment of the invention to fit the diameter and location of the production bore 77b in the valve tree 80. The annulus bore 78a of the valve tree adapter 79 is similarly narrowed to fit the annulus bore 78b in the valve tree 80.

These configurations are only examples of different configurations of valve tree adapter 65; 76; 79. Other suitable configurations to match the different diameters and spacings between the production bore 67; 73B; 77b and the annulus bore 68b; 74b; 78b in the valve tree 65; 75;

80 are possible embodiments of the invention.

The stinger seals 69a, 69b are adapted to match the various configurations of the production well 67b; 73b; 77b and the annulus bore 68b; 74b; 78b in the valve tree 65; 78; 80.

Figure 16 shows the arrangement according to the present invention, connected to a horizontal valve tree 86 to show that the arrangement is suitable for this type of valve tree as well.

In this embodiment, there is a large stinger seal (not shown) for the production bore which, as with the vertical valve tree, penetrates the production bore 83 of the valve tree 82 to form a seal. Another, larger seal is provided concentrically around this stinger seal, but which is much shallower, for guiding an annulus line 84 in the valve tree.

The invention will not normally be necessary for interfaces to horizontal valve trees, but where an oil field consists of a number of vertical valve trees as well as horizontal valve trees, it will be commercially attractive to have a system that has the interface that can fit all types of valve trees. The system will, as shown in figure 16, only need a specific valve tree adapter 85 to connect between the lower riser package 23 and the horizontal valve tree 86.

Claims (28)

1. A system for performing well overhaul operations (workover) on a subsea well comprising a monobore emergency disconnect package (21) and a lower riser package (23) arranged between the emergency disconnect package package) (21) and a valve tree (Christmas tree) (25) which is arranged on top of a well (well), said system having a main bore (29) extending through the system from a riser (riser) (28) which is connected via the single-bore emergency disconnect package (21), said main bore (29) is branched in the lower riser package (23) in a two-part drilling arrangement comprising a production bore (production bore) (35) and an annulus bore ) (36), said production bore (35) and annulus bore (36) extend down to a production bore (35'; 67b; 73b; 77b) and an annulus bore (36'; 68b; 74; 78b) in the valve tree (25 that the system also includes a valve tree adapter (24; 65 ; 76; 81) which has a production borehole (71; 81; 83) and an annulus borehole (72; 82; 84), said production borehole (71; 81; 83) has an upper boundary surface aligned with the production borehole (35; 67a; 73a; 77a) ) in the lower riser package (23) and a lower interface aligned with the production bore (35; 67b; 73b; 77b) in the valve tree (25; 70; 75; 80; 82), said annular bore (72; 82; 84) has an upper interface aligned with the annular bore (36; 68a; 74a, 78a) in the lower riser package (23) and a lower interface aligned with the annular bore (36' 68b ;74b; 78b) in the valve tree (25;70;75;80;82), characterized in that said production bore (35';67b; 73b; 77b) and annulus bore (25; 70; 75; 80; 82) in the valve tree adapter ( 24; 65; 76; 81) is adapted to be straight, funnel-shaped or tapered towards the lower interface to form a transition to connect the production well (35'; 67b; 73b; 77b) and the annulus well (36'; 68b; 74b ; 78b) in the valve tree (25; 70; 75; 80; 82) with respectively the production bore (35; 67a; 73a; 77a) and the annulus bore (36; 68a; 74a; 78a) in the lower riser package (23), said valve tree adapter (24; 65; 76; 81) is interchangeable to fit specific valve trees (25; 70; 75; 80; 82). 2. A system for performing well workover operations on a subsea well according to claim 1, wherein the production bore (81) and the annulus bore (82) in the Christmas tree adapter (76) are both tapered. 3. A system for performing well workover operations on a subsea well according to krawl, wherein the production bore in the valve tree adapter (79) is skew conical and the annulus bore (84) in the valve tree adapter (79) is conical. 4. A system for performing well workover operations on a subsea well according to Kravl, wherein the production bore (83) and the annulus bore in the valve tree adapter (79) are both obliquely tapered. 5. A system for performing well workover operations on a subsea well according to claim 1, wherein the production bore (71) in the valve tree adapter (65) is substantially straight and the annulus bore (72) in the valve tree adapter (65) is conical. 6. A system for performing well workover operations on a subsea well according to claims 1-5, wherein the production bore (71) and the annulus bore in the valve tread adapter (65) are substantially cylindrical. 7. A system for performing well overhaul operations on a subsea well according to one of the preceding claims, wherein the connection between the lower part of the valve tree adapter (24; 65; 76; 79) and the valve tree (25; 70; 75; 80) are sealed using stinger seals (69). 8. A system for performing well workover operations on a subsea well according to any one of claims 1-7, wherein the interface between the valve tree adapter (24; 65; 76; 81) and the lower riser lever (23) has a sealing arrangement (66) which is constant in all embodiments of the valve stem adapter (24; 65; 76; 81). 9. A system for performing well overhaul operations on a subsea well according to one of the preceding claims, wherein said lower riser package (23) has a cavity (31) in the annulus bore (36), said cavity having a width greater than the remaining annulus bore (36), a diagonal line from an inlet of the cavity (31a) to an outlet of the cavity (31b) has a length optimized to the length of rigid parts of the tool (60) so that these rigid parts (60) can access the annular bore in the well (32) ). 10. A system for performing well overhaul operations on a subsea well according to claim 9, wherein the cavity (31) is located below an upper annulus drilling valve (33b) and a lower annulus drilling valve (33c). 11. A system for performing well overhaul operations on an underwater well according to one of claims 9-10, in which the tool is adapted to perform work operations in the well (32). 12. A system for performing well workover operations on a subsea well according to any one of claims 9-11, wherein the tool (60) is a tool for inserting plugs or removing plugs. 13. A system for carrying out well overhaul operations on an underwater well according to one of claims 1-12, in which a bore selector (bore selector) (22) is arranged below the emergency shutdown package (21) and adapted to provide access to production drilling (35) or annulus drilling (36) respectively , depending on the position of the bore selector (22). 14. A system for performing well overhaul operations on a subsea well according to claim 13, wherein the well selector is integrated in the lower riser package (23). 15. A system for performing well overhaul operations on an underwater well, according to claim 13 or 14, in which the bore selector is incorporated in a bore selector unit (41), said bore selector unit (41) is connected to the lower riser package (23) below the emergency disconnect package (21). 16. A system for performing well overhaul operations on an underwater well according to any one of claims 13-15, in which valves (33a-e) are arranged below the well selector (22). 17. A system for performing well overhaul operations on an underwater well according to any one of claims 13-16, in which an upper annulus bore valve (33b) and a lower annulus bore valve (33c) are arranged in the annulus (36) ) below the bore selector in the lower riser package (23). 18. A system for performing well overhaul operations on a subsea well according to any one of claims 13-17, wherein an upper production valve (33d) and a lower production valve (33e) are arranged in the production well (35) below the well selector (22) in the lower the riser package (23). 19. A system for performing well overhaul operations on an underwater well according to any one of claims 13-18, in which a main drilling valve (53) is arranged above the drilling selector (22). 20. A system for performing well workover operations on a subsea well according to any one of claims 13-19, wherein the well selector (22) allows fluid to pass between the main bore (29), annulus bore (36) and production bore (35) in any position of the well selector ( 22). 21. A system for performing well workover operations on a subsea well according to any one of claims 16-20, wherein the well selector (22) is arranged above the valves (33a-e) in the lower riser package (23). 22. A system for performing well workover operations on a subsea well according to any one of claims 17-21, wherein an annulus line (30) extends from an inlet port (44) in the emergency disconnect package (21) through the emergency disconnect package (21), said annulus line (30) is routed on the outside of the bore selector (22) and led through an outlet port (53) in the annulus line (30) to annulus bore (36) between upper annulus valve (33b) and lower annulus valve (33c). 23. A system for performing well overhaul operations on an underwater well according to claim 16, in which an annulus line valve 33a is arranged in the annulus line (30) in the lower riser package (23). 24. A system for performing well overhaul operations on an underwater well according to one of claims 17-23, in which a flow path to the well through the annulus bore (36) occurs when the upper annulus valve (33b) is closed. 25. A system for performing well workover operations on a subsea well according to any one of claims 18-24, wherein a flow path to the well through the production well (35) occurs when the lower annulus valve (33c) and the main well valve (53) are closed. 26. A system for performing well workover operations on a subsea well according to any one of claims 17-25 wherein a flow path up through main bore (29) through annulus bore (36) and production bore (35) occurs when the upper annulus bore valve (33b) is closed and there is a flow connection between annulus well (36) and production well (35). 27. A system for performing well overhaul operations on a subsea well according to one of claims 18-26, in which a flow path up through the main bore (29) occurs when the upper annulus drilling valve (33b) and the upper production drilling valve (33d) are closed. 28. A system for performing well workover operations on a subsea well according to one of the preceding claims, wherein the valve tree adapter (24; 65; 76; 81) has a stinger seal (69) and a distance between the bores to fit a special valve tree (25; 70; 75) ; 80; 82).