EP3553273A1

EP3553273A1 - Downhole straddle system

Info

Publication number: EP3553273A1
Application number: EP18166738.7A
Authority: EP
Inventors: Johnny BÅRDSEN; Frode STRØMSVIK
Original assignee: Welltec Oilfield Solutions AG
Current assignee: Welltec Oilfield Solutions AG
Priority date: 2018-04-11
Filing date: 2018-04-11
Publication date: 2019-10-16

Abstract

The present invention relates to a downhole straddle system for sealing off a damaged zone in a well tubular metal structure in a well having a top, comprising: a straddle assembly having a first end, a second end closest to the top, an inner face, a first hydraulic expandable annular barrier and a second hydraulic expandable annular barrier, a downhole tool assembly having a hydraulic operated deployment tool for releasable connecting the downhole tool assembly to the second end of the straddle assembly, the downhole tool assembly further comprising a first sealing unit arranged above the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier and configured to seal against the inner face of the straddle assembly, and a closing unit configured to close the first end of the straddle assembly, wherein the downhole tool assembly further comprising a sealing device arranged above the deployment tool and the first sealing unit, the sealing device has an annular sealing element having a first outer diameter in a first condition and a second outer diameter being larger than the first outer diameter in a second condition for sealing against an inner face of the well tubular metal structure, the sealing device comprises a fluid channel configured to fluidly connect an inside of the straddle assembly with the well tubular metal structure above the sealing device when being in the second condition for expanding the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier. Finally, the invention relates to a downhole well system and a repairing method.

Description

The present invention relates to a downhole straddle system for sealing off a damaged zone in a well tubular metal structure in a well having a top, comprising a straddle assembly having a first end, a second end closest to the top, an inner face, a first hydraulic expandable annular barrier and a second hydraulic expandable annular barrier and a downhole tool assembly having a hydraulic operated deployment tool for releasable connecting the downhole tool assembly to the second end of the straddle assembly, the downhole tool assembly further comprising a first sealing unit arranged above the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier and configured to seal against the inner face of the straddle assembly. Finally, the invention relates to a downhole well system and a repairing method.
When a well starts producing too much water, a straddle is set for sealing off the water producing zone. The water production may come from a water break through in the production zone, i.e. the water enters through perforations or productions valves. The water production may also come from an otherwise damaged zone i.e. a leak or deterioration in the wall of the production casing/liner. Leaks or deteriorations may also occur in the production casing above the main packer, and many straddles are therefore set inside the production casing above the main packer in order to maintain well integrity. Known straddles are set by means of drill pipe or coiled tubing where the straddle is connected to the end of the tubing or pipe and the pressure for setting the straddle is applied through the coiled tubing or drill pipe extending from surface.
It is an object of the present invention to wholly or partly overcome the above disadvantages and drawbacks of the prior art. More specifically, it is an object to provide an improved downhole straddle system for sealing off a damaged zone in a well tubular metal structure in a well at a lower cost and/or during a shorter time period.
The above objects, together with numerous other objects, advantages and features, which will become evident from the below description, are accomplished by a solution in accordance with the present invention by a downhole straddle system for sealing off a damaged zone in a well tubular metal structure in a well having a top, comprising:

a straddle assembly having a first end, a second end closest to the top, an inner face, a first hydraulic expandable annular barrier and a second hydraulic expandable annular barrier,
a downhole tool assembly having a hydraulic operated deployment tool for releasable connecting the downhole tool assembly to the second end of the straddle assembly, the downhole tool assembly further comprising a first sealing unit arranged above the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier and configured to seal against the inner face of the straddle assembly, and
a closing unit configured to close the first end of the straddle assembly,

In one embodiment, the sealing device may seal against the inner face of the well tubular metal structure above the straddle assembly towards the top in the second condition.
In another embodiment, the sealing device may be electrically operated through a wireline such as an electric line.
In addition, the sealing device may be electrically operated and powered by a battery connected to the sealing device.
Also, the sealing device may be set electrically through a wireline.
Further, the deployment tool may be configured to be released above a certain pressure or by a fluid flow.
By fluid flow is meant a certain flow through the hydraulic operated deployment tool that activates the release of the deployment tool engagement with the straddle assembly.
The deployment tool may comprise a tubular base part and a surrounding tubular piston, the tubular base part and the tubular piston define an expandable space and the tubular base part has an opening providing fluid communication between an inside of the tubular base part and the expandable space.
Moreover, the tubular piston may be connected with retractable engagement elements, the tubular base part comprises at least one indentation for receiving the retractable engagement elements.
Further, the inner face of the straddle assembly may comprise at the second end a groove for engagement with the engagement elements.
Said engagement elements may have a projection for engagement with the groove of the straddle assembly.
Also, the deployment tool may comprise a shear unit connecting the tubular base part and the tubular piston so that when shearing the shear unit the tubular piston is allowed to move in relation the tubular base part.
Furthermore, the deployment tool may comprise a spring circumferenting the tubular base part.
Additionally, the closing unit may be a plug, a shear ball seat or a rupture disc arranged in the first end of the straddle assembly.
Also, the plug may be a glass plug.
The shear ball seat may be a movable ball seat which is movable from a first position to a second position when a shear pin is sheared opening for fluid communication between the inside of the tool and the well tubular metal structure through a tool opening.
Moreover, the downhole tool assembly may comprise the closing unit, the downhole tool assembly may comprise a tubular section extending below the first sealing unit, the closing unit may comprise a closed end of the tubular section and a second sealing unit arranged below the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier.
Furthermore, the tubular section may have at least one opening between the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier.
Additionally, the straddle assembly may comprise at least one centraliser.
Further, the inner face of the straddle assembly may comprise a polished section for abutment against the sealing unit for enhancing the seal there between.
The sealing device may comprise an electric motor for operating the sealing element between the first outer diameter and the second outer diameter.
In addition, the electric motor may be powered by a battery.
Also, the deployment tool may comprise engagement elements for engaging the inner face of the straddle assembly at the second end.
The first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier may each comprise an expandable metal sleeve.
Said expandable metal sleeves may each have an outer sleeve face configured to abut the inner face of the well tubular metals structure, the outer sleeve faces comprise a seal.
Moreover, the deployment tool may comprise a fail safe arrangement configured to maintain the engagement elements in engagement with the straddle assembly in a first position and at a predetermined pressure move to a second position in which the engagement elements are allowed to retract from engagement with the straddle assembly.
Further, the fail safe arrangement may comprise a breakable element.
The fail safe arrangement may comprise a tubular piston movable from the first position to the second position of the deployment tool when influenced by a pressure above a certain pressure.
The downhole well system may further comprise:

a well tubular metal structure having a top and a damaged zone,
a downhole straddle system as described above configured to be arranged opposite the damaged zone for arranging a straddle assembly over the damaged zone, and
a pump arranged at the top of the well tubular metal structure configured to pressurise the well tubular metal structure.

Also, a repairing method according to the present invention may comprise:

detecting a damaged zone of a well tubular metal structure,
arranging a downhole straddle system opposite the damaged zone,
activating the annular sealing element of the sealing device,
pressurising the well tubular metal structure above the sealing device,
expanding the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier via the fluid channel of the sealing device for isolating the damaged zone,
deactivating the annular sealing element of the sealing device,
releasing the deployment tool from the straddle assembly, and
removing the downhole tool assembly from the well tubular metal structure.

Additionally, the sealing device may be electrically operated through a wireline such as an electric line.
Further, in the repairing method according to the present invention the well tubular metal structure may be pressurised above a certain pressure whereby the deployment tool is released from the straddle assembly.
The invention and its many advantages will be described in more detail below with reference to the accompanying schematic drawings, which for the purpose of illustration show some non-limiting embodiments and in which

Fig. 1 shows a partly cross-sectional view of a downhole straddle system having an un-set straddle assembly,
Fig. 2 shows a partly cross-sectional view of the downhole straddle system of Fig. 1 in which the straddle assembly has been set,
Fig. 3A shows a partly cross-sectional view of a straddle assembly,
Fig. 3B shows a partly cross-sectional view of a downhole tool assembly,
Fig. 4A shows a partly cross-sectional view of another straddle assembly,
Fig. 4B shows a partly cross-sectional view of another downhole tool assembly,
Fig. 5A shows a cross-sectional view of a hydraulic operated deployment tool being in engagement with the straddle assembly,
Fig. 5B shows the hydraulic operated deployment tool of Fig. 5A in which the hydraulic pressure has activated the tool so that the tool is free to move away from the straddle assembly,
Fig. 5B shows the hydraulic operated deployment tool of Fig. 5A in which the tool is disengaged from the straddle assembly, and
Fig. 6 shows a partly cross-sectional view of another downhole tool assembly.

All the figures are highly schematic and not necessarily to scale, and they show only those parts which are necessary in order to elucidate the invention, other parts being omitted or merely suggested.
Fig. 1 shows a downhole straddle system 100 for sealing off a damaged zone 7 in a well tubular metal structure 1 in a well 2. The well tubular metal structure extends from a top 3 of the well or is hung off from another well tubular metal structure closer to the top. The downhole straddle system 100 comprises a straddle assembly 10 having a first end 11, a second end 12 closest to the top, an inner face 14, a first hydraulic expandable annular barrier 15, 15A and a second hydraulic expandable annular barrier 15, 15B. The hydraulic expandable annular barriers are arranged and expanded on each side of the damaged zone 7 in order to seal against the inner face 4 of the well tubular metal structure, and by straddling over the zone by the tubular part 72 between the hydraulic expandable annular barriers the damaged zone is sealed off. The downhole straddle system 100 further comprises a downhole tool assembly 20 for setting the straddle assembly opposite the damaged zone. The downhole tool assembly 20 has a hydraulic operated deployment tool 21 for releasable connecting the downhole tool assembly to the second end of the straddle assembly. The downhole tool assembly further comprises a first sealing unit 22 for sealing against the inner face 14 of the straddle assembly. The first sealing unit 22 is arranged above both the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier. The downhole straddle system 100 further comprises a closing unit 30 configured to close the first end of the straddle assembly and together with the first sealing unit 22 isolate an annular space 73 between the tool assembly 20 and the straddle assembly in order to expand the annular barriers. The downhole tool assembly 20 further comprising a sealing device 23 arranged above the deployment tool 21 and the first sealing unit. The sealing device 23 has an annular sealing element 24 having a first outer diameter OD1, as shown in Fig. 1, in a first condition and a second outer diameter OD2, as shown in Fig. 2, in a second condition. The second outer diameter OD2 is larger than the first outer diameter for sealing against an inner face 4 of the well tubular metal structure above the straddle assembly towards the top in the second condition. The sealing device 23 comprises a fluid channel 25 configured to fluidly connect an inside 17 of the straddle assembly with the well tubular metal structure above the sealing device when the sealing device 23 is in the second condition for expanding the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier.
The downhole tool assembly 20 is lowered and operated via a wireline 5 and the sealing device is electrically operated through the wireline 5, such as an electric line. The sealing device is set electrically through a wireline. The sealing device is also electrically released but another sealing device may be retrieved by a pulling tool or similar tool pulling or pushing in the top of the downhole tool assembly 20.
In prior art operations, straddles are set by means of coiled tubing or drill pipe which takes longer time to perform and thus the wireline operated downhole tool assembly makes it possible to arranged and set the straddle at a significantly shorter time saving cost, and the production can continue after a shorter repairing time than with known systems.
The downhole tool assembly 20 is lowered via the wireline 5, such as a slickline, and the sealing device is electrically operated through a battery in the tool assembly. The sealing device is set electrically and activated, e.g. by a timer or a pull in the slickline. The sealing device is also electrically released but another sealing device may be retrieved by a pulling tool or a similar tool pulling or pushing in the top of the downhole tool assembly 20.
The first hydraulic expandable annular barrier 15, 15A and second hydraulic expandable annular barrier 15, 15B may be any kind of packer. In Figs. 1 and 2, the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier each comprise an expandable metal sleeve 16. The expandable metal sleeves each have an outer sleeve face 37 configured to abut the inner face 4 of the well tubular metals structure, and the outer sleeve faces comprise a seal 18 for enhancing the sealing ability of the annular barriers.
In Fig. 3A, the closing unit is a plug 30A, such as a glass plug, arranged in the first end of the straddle assembly. In Fig. 4A, the closing unit is a rupture disc 30C arranged in the first end of the straddle assembly, and in Fig. 6, the closing unit is a shear ball seat 30B arranged in the first end of the straddle assembly. The shear ball seat is a movable ball seat 63 which is movable from a first position to a second position when a shear pin 64 is sheared opening for fluid communication between the inside of the tool and the well tubular metal structure through a tool opening 66.
In Figs. 1 and 2, the downhole tool assembly comprises the closing unit. The downhole tool assembly comprises a tubular section 26 extending below the first sealing unit. The closing unit comprises a closed end 30D of the tubular section and a second sealing unit 22B arranged below the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier. In this way, the closed end 30D of the tubular section and a second sealing unit 22B isolate an annular space 73 between the tool assembly 20 and the straddle assembly in order to expand the annular barriers. The tubular section has at least one opening 27 between the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier.
The straddle assembly may also comprise at least one centraliser 44 as shown in Fig. 1 for centralising the straddle assembly and thus the annular barriers before being expanded. The centralisers 44 also protect the seals of the annular barriers while submerging the straddle assembly and the tool down the well tubular metal structure. The inner face of the straddle assembly may comprise a polished section 45 for abutment against the sealing unit for enhancing the seal there between.
In Figs. 3A and 4A, the first end of the straddle assembly is closed either by a plug or a shear disc. In order to expand the annular barriers of the straddle assembly of Figs. 3A and 4A, the downhole tool assembly 20 as shown in Figs. 3B and 4B only comprises the hydraulic operated deployment tool 21, the first sealing unit 22 and the sealing device 23 and the tool assembly can be shorter and less complex than compared to the tool assembly of Figs. 1 and 2 where the tool assembly also needs to provide the closing unit.
In Figs. 5A-5B, the deployment tool comprises a tubular base part 51 and a surrounding tubular piston 52. The tubular base part and the tubular piston define an expandable space 53 and the tubular base part has an opening 54 providing fluid communication between an inside 55 of the tubular base part and the expandable space. The tubular piston is connected with retractable engagement elements 56, and the tubular base part comprises at least one indentation 57 for receiving the retractable engagement elements. The inner face of the straddle assembly comprises at the second end a groove 58 for engagement with the engagement elements. The engagement elements have a projection 59 for engagement with the groove of the straddle assembly. The deployment tool comprises a shear unit 61 connecting the tubular base part and the tubular piston so that when shearing the shear unit the tubular piston is allowed to move in relation to the tubular base part. The deployment tool comprises a spring 62 circumferenting the tubular base part.
The deployment tool comprises a fail safe arrangement 41 configured to maintain the engagement elements in engagement with the straddle assembly in a first position and at a predetermined pressure move to a second position in which the engagement elements are allowed to retract from engagement with the straddle assembly. The fail safe arrangement comprises a breakable element 61 which at the predetermined pressure breaks, allowing the engagement elements to move out of engagement with the straddle assembly. The fail safe arrangement further comprises the tubular piston 52 movable from the first position to the second position of the deployment tool when influenced by a pressure above the certain pressure in order to break the breakable element 61.
In Fig. 6, the deployment tool is configured to release above a certain pressure or by a fluid flow. By fluid flow is meant a certain flow through the hydraulic operated deployment tool which activates the release of the deployment tool engagement with the straddle assembly.
The sealing device 23 of Fig. 6 comprises an electric motor 28 for operating the sealing element 24 between the first outer diameter and the second outer diameter. The electric motor may be powered by a battery or through the wireline, such as an electric line.
The invention further relates to a downhole well system 200 comprising the well tubular metal structure 1 and the downhole straddle system 100 configured to be arranged opposite the damaged zone for arranging the straddle assembly 10 over the damaged zone. The downhole well system 200 further comprises a pump 50 arranged at the top of the well tubular metal structure configured to pressurise the well tubular metal structure.
The well tubular metal structure is thus repaired by detecting a damaged zone 7 of the well tubular metal structure 1, arranging a downhole straddle system 100 opposite the damaged zone, activating the annular sealing element 24 of the sealing device 23, then pressurising the well tubular metal structure above the sealing device and thereby expanding the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier via the fluid channel 25 of the sealing device for isolating the damaged zone. Subsequently, the annular sealing element of the sealing device is deactivated, the deployment tool is released from the straddle assembly, and the downhole tool assembly is then removed from the well tubular metal structure. The well tubular metal structure may be pressurised above a certain pressure whereby the deployment tool is released from the straddle assembly. The pressure either generates a flow through activating the release or directly moves the piston for releasing the straddle assembly.
In order to release the sealing device, a stroking or pulling tool may pull or push in the top of the tool assembly in order to release the tool. A stroking tool is a tool providing an axial force. The stroking tool comprises an electrical motor for driving a pump. The pump pumps fluid into a piston housing to move a piston acting therein. The piston is arranged on the stroker shaft. The pump may pump fluid into the piston housing on one side and simultaneously suck fluid out on the other side of the piston.
By fluid or well fluid is meant any kind of fluid that may be present in oil or gas wells downhole, such as natural gas, oil, oil mud, crude oil, water, etc. By gas is meant any kind of gas composition present in a well, completion, or open hole, and by oil is meant any kind of oil composition, such as crude oil, an oil-containing fluid, etc. Gas, oil, and water fluids may thus all comprise other elements or substances than gas, oil, and/or water, respectively.
By an annular barrier is meant an annular barrier comprising a tubular metal part mounted as part of the well tubular metal structure and an expandable metal sleeve surrounding and connected to the tubular part defining an annular barrier space.
By a casing or well tubular metal structure is meant any kind of pipe, tubing, tubular, liner, string etc. used downhole in relation to oil or natural gas production.
In the event that the tool is not submergible all the way into the casing, a downhole tractor can be used to push the tool all the way into position in the well. The downhole tractor may have projectable arms having wheels, wherein the wheels contact the inner surface of the casing for propelling the tractor and the tool forward in the casing. A downhole tractor is any kind of driving tool capable of pushing or pulling tools in a well downhole, such as a Well Tractor®.
Although the invention has been described in the above in connection with preferred embodiments of the invention, it will be evident for a person skilled in the art that several modifications are conceivable without departing from the invention as defined by the following claims.

Claims

A downhole straddle system (100) for sealing off a damaged zone (7) in a well tubular metal structure (1) in a well (2) having a top (3), comprising:
- a straddle assembly (10) having a first end (11), a second end (12) closest to the top, an inner face (14), a first hydraulic expandable annular barrier (15, 15A) and a second hydraulic expandable annular barrier (15, 15B),

- a downhole tool assembly (20) having a hydraulic operated deployment tool (21) for releasable connecting the downhole tool assembly to the second end of the straddle assembly, the downhole tool assembly further comprising a first sealing unit (22) arranged above the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier and configured to seal against the inner face of the straddle assembly, and

- a closing unit (30) configured to close the first end of the straddle assembly,
wherein the downhole tool assembly further comprising a sealing device (23) arranged above the deployment tool and the first sealing unit, the sealing device has an annular sealing element (24) having a first outer diameter (OD1) in a first condition and a second outer diameter (OD2) being larger than the first outer diameter in a second condition for sealing against an inner face (4) of the well tubular metal structure, the sealing device comprises a fluid channel (25) configured to fluidly connect an inside (17) of the straddle assembly with the well tubular metal structure above the sealing device when being in the second condition for expanding the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier.
A downhole straddle system according to claim 1, wherein the sealing device is electrically operated through a wireline (5) such as an electric line.
A downhole straddle system according to any of the preceding claims, wherein the closing unit is a plug (30A), a shear ball seat (30B) or a rupture disc (30C) arranged in the first end of the straddle assembly.
A downhole straddle system according to any of the claims 1-3, wherein the downhole tool assembly comprises the closing unit, the downhole tool assembly comprises a tubular section (26) extending below the first sealing unit, the closing unit comprises a closed end (30D) of the tubular section and a second sealing unit (22B) arranged below the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier.
A downhole straddle system according to claim 4, wherein the tubular section has at least one opening (27) between the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier.
A downhole straddle system according to any of the preceding claims, wherein the sealing device comprises an electric motor (28) for operating the sealing element between the first outer diameter and the second outer diameter.
A downhole straddle system according to any of the preceding claims, wherein the deployment tool comprises engagement elements (56) for engaging the inner face of the straddle assembly at the second end.
A downhole straddle system according to any of the preceding claims, wherein the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier each comprises an expandable metal sleeve (16).
A downhole straddle system according to claim 7, wherein the deployment tool comprises a fail safe arrangement (41) configured to maintain the engagement elements in engagement with the straddle assembly in a first position and at a predetermined pressure move to a second position in which the engagement elements are allowed to retract from engagement with the straddle assembly.
A downhole straddle system according to claim 9, wherein the fail safe arrangement comprises a breakable element (61).
A downhole straddle system according to claim 9 and/or 10, wherein the fail safe arrangement comprises a tubular piston (52) movable from the first position to the second position of the deployment tool when influenced by a pressure above a certain pressure.
A downhole well system (200) comprising:
- a well tubular metal structure (1) having a top (3) and a damaged zone (7),

- a downhole straddle system (100) according to any of the preceding claims configured to be arranged opposite the damaged zone for arranging a straddle assembly (10) over the damaged zone, and

- a pump (50) arranged at the top of the well tubular metal structure configured to pressurise the well tubular metal structure.
A repairing method, comprising:
- detecting a damaged zone (7) of a well tubular metal structure (1),

- arranging a downhole straddle system (100) according to any of claims 1-11 opposite the damaged zone,

- activating the annular sealing element (24) of the sealing device (23),

- pressurising the well tubular metal structure above the sealing device,

- expanding the first hydraulic expandable annular barrier and the second hydraulic expandable annular barrier via the fluid channel (25) of the sealing device for isolating the damaged zone,

- deactivating the annular sealing element of the sealing device,

- releasing the deployment tool from the straddle assembly, and

- removing the downhole tool assembly from the well tubular metal structure.
A repairing method according to claim 13, whereby the sealing device is electrically operated through a wireline (5) such as an electric line.
A repairing method according to any of claims 13-14, whereby the well tubular metal structure is pressurised above a certain pressure whereby the deployment tool is released from the straddle assembly.