NO20110190A1 - Device for plugging - Google Patents

Abstract

It is referred to as a tool (10) for handling wells through a formation, and which is to be taken out of operation by means of a closure plug of a hardenable mass such as concrete, where in the well there is a casing cemented against the wall of the borehole with a concrete, and it is characterized in that the tool comprises an assembled unit (10) of the following three sections: a perforating lance (32) comprising a plurality of explosive charges for detonating a hole in the pipe and into the outer concrete layer, a cleaning unit (34) for mechanical cleaning of the inner wall of the pipe in the perforated area, and a flushing unit (36) for loosening, dissolving and flushing the cured cementing mass between the pipe wall and the borehole wall. There is also mentioned a special construction of a perforating gun, as well as a method for plugging a well to be taken out of use.

Description

The present invention relates to a tool for handling wells through a formation, and which is to be taken out of operation by the arrangement of a plug made of a hardenable mass such as concrete, where in the well there is a casing that is cemented against the wall of the borehole with a concrete, as defined in the introduction of requirement 1.

The invention also relates to a special construction of a perforating gun for creating perforations in a pipe in a formation, and comprising an elongated lance equipped with a number of explosive charges around a circumference and along the length of the lance, as well as means for detonating the explosive charges.

In addition, the invention relates to a method as stated in the introduction to claim 12 for shutting off a well including a casing through a formation by establishing a plug of a hardenable mass, whereby a section of the casing through the well is perforated, and a curable mass which is caused to flow out through the perforations and make contact with the walls of the original borehole.

The invention relates to tools that are used in connection with plugging wells that are to be taken out of service.

When production of hydrocarbons is established from a porous HC-containing field in the bedrock, a well is drilled into the formation, and a casing pipe (production pipe) is placed in the well, which is secured and stabilized in relation to the walls of the original borehole by spraying concrete between the pipe outer wall and the borehole wall.

When such a production well is to be taken out of production, it is completely plugged with a concrete plug so that there is no risk of future leaks. The plugging of such a well consists of spraying down a plug mass of hardenable concrete. The requirement for such a plug is that the sprayed concrete must make direct contact with the porous formation.

Therefore, it is common for the production pipe (casing) to be perforated, the pipe cleaned inside and an acidic cleaning liquid flushed out to dissolve the concrete.

This three-part operation takes place by lowering a perforating tool which is equipped with a number of directed explosive charges. When these are fired, a set of holes is blasted in the pipe to wash out and partially dissolve the original concrete so that the new, fresh concrete can make good direct contact with the rock formation during the establishment of the plug.

After the perforating gun has been fired, it is common to clean the inside of the pipe by lowering a cleaning tool that grinds loose protruding pieces of metal and slivers from the inside of the pipe, and which are formed as a result of the blasting.

The cleaning tool can be a brush that brushes, rubs or grinds the inside of the pipe.

When the pipe has been ground and cleaned, a flushing tool is lowered with an upper and lower gasket set that seals against the pipe inner wall. Between these gasket sets, a cleaning liquid is flushed out, often containing an acid, which can flush loose pieces of concrete or directly chemically dissolve the concrete. These concrete pieces and remains will then be carried with the liquid flow upwards in the annulus between the pipe in which the tool hangs from the surface and the interior of the casing.

It is an aim of the invention to produce a device which can combine the three functions in one and the same device, i.e. without the operating string or pipe having to be pulled up to the surface to change tools every time a well is to be plugged again.

It is also an object to produce a new construction of a perforating gun, in order to improve the cleaning of the concrete from the annulus between the casing and the borehole wall.

The tool according to the invention is characterized by the fact that it comprises an assembled unit (10) of the following three sections: a perforating lance (32) comprising a number of explosive charges for, upon detonation, forming a series of holes in the pipe and out into the outer concrete layer, a cleaning unit ( 34) for mechanical cleaning of the inner wall of the pipe in the perforated area, and a flushing unit (36) for loosening, dissolving and flushing away the hardened cementing mass between the pipe outer wall and the borehole wall.

Preferably, the unit is mounted to the end of an operating string or a pipe (30) which is lowered into the well from an installation on the surface (100).

Preferably, the perforating lance (32) is arranged at the bottom of the unit (10), the flushing unit (36) is mounted to the operating string, while the cleaning unit (34) is inserted between the lance (32) and the flushing unit (36).

Preferably, the perforating lance (32) is arranged to be detached from the rest of the assembly after the explosive charges have been detonated/fired.

Preferably, the perforating lance (32) comprises a number of charges around and along the circumference.

Preferably, the explosive charges in connection with the perforating lance (32) are designed with different explosive strengths in the different sections (A, B, C) of the lance. Alternatively, an upper (A) section of the perforating gun/lance (32) is designed with higher explosive power in the explosive charges than in the rest of the charges.

The upper (A) and lower (C) sections of the perforating gun/lance (32) are designed with higher explosive power in the charges than those in the middle section.

The perforating cannon according to the invention is characterized by the fact that the explosive charges in connection with the perforating lance (32) are designed with different explosive strength in different sections (A, B, C) of the lance.

Preferably, an upper (A) section of the perforating gun/lance (32) is designed with more powerful explosive power in the explosive charges (33a) in the rest of the charges down the length of the lance. Alternatively, an upper (A) and lower (C) section of the perforating gun/lance (32) can be designed with more powerful explosive power in the charges (33a and 33c) than correspondingly for those in the middle section (33b).

Method according to the invention is characterized by the fact that a three-part tool is used consisting of a lower part comprising a perforation gun (32) to form said perforations, a middle cleaning part (34) to clean the inside of the pipe (20) and an upper flushing section (36) in order to use a flushing fluid to flush away and dissolve concrete residues in the space between the pipe (20) and the borehole wall, the following steps are carried out in sequence, a) the tool (10) connected to an operating string (30) is lowered through the pipe to the perforating gun (32) is in a position where the pipe is to be perforated,

b) the explosive charges (33) are detonated to establish perforations (35) in the tube,

c) the tool (10) is guided up and down in the perforated area by means of

the cleaning part to scrub-clean the pipe inner wall,

d) the tool (10) is positioned so that the flushing section (36) in the pipe is placed adjacent to a set of perforation holes, and so that a number of perforation holes around

the circumference is located above the flushing section (36) and forms a fluid connection from the annulus between the pipe (20) and the well wall, and into the annulus (12) between the operating string (30),

e) flushing liquid is pumped out through the perforations to loosen pieces of concrete and dissolve the concrete in the space outside the pipe (20) so that this is fed back through

the upper perforations and into the pipe (20) above the flushing section (36), and

f) the tool is removed and a hardenable mass is lowered to fill a given section of the pipe (20) and the space between the outside of the pipe and the borehole wall,

with which the well is plugged again when the mass has hardened.

Preferably, a tool as stated in claims 1-8 is used.

According to a preferred embodiment, a tool is used as stated in claims 1-8, and the perforating gun has a construction as stated in claims 9-11.

The invention shall be explained in more detail with reference to the following figures in which: Figure 1 shows a tool according to the invention 10 mounted to a string or pipe 30 which extends down through a formation 14 from an installation 100, a platform 100 at sea or the like. The sea surface is shown at 18 and the seabed at 16. The construction according to the invention can of course also be used in connection with an HC extraction plant on land.

A casing (production pipe) 20 is inserted into the borehole or well and this is cemented with concrete 22 to the walls of the borehole.

The tool 10 according to the invention is also shown in the figure. It is composed of the three parts, the perforating gun 32, the scrubbing/cleaning unit 34 and the flushing device 36 seen from below.

According to the invention, the washing/flushing device 36 is located at the top of the combination, and is connected at the top of the tool 10 to the lower end of the pipe/string 30. Between the pipe/string 30 and the inside of the casing 20, there is an annular space 12 that washes away concrete pieces and other impurities can be brought up through during the cleaning/rinsing.

Directly below the flushing unit 36, the scrubbing/cleaning unit 34 is attached, and below there again the perforating gun 32 is mounted. They therefore form a three-part tool with all functions in one piece.

Figure 2 shows an enlarged cross-section of the device according to the invention.

The perforating cannon 32

This consists of a cylindrical column or sleeve that projects downwards below the scrubbing/cleaning unit and where a number of dedicated explosive charges / explosives 33 are inserted around the periphery and in several rows on the surface, in a previously known manner, i.e. that the charge goes off horizontally or in an inclined direction radially outwards towards the pipe to blow holes in the pipe wall. The explosive charges are connected to a trigger unit, for example via a detonator line which runs from the surface through the tube 30. The charges are caused to explode together, and they are turned radially outwards, and each one of the charges blasts a hole 35 in the metal in the casing 20, so that a fluid connection is formed radially outward to the concrete outside the pipe. The size of the individual holes can be regulated using the individual charges' 33 explosive strength.

Scrubbing/cleaning unit 34.

This cleaning unit comprises brushes or grooves 35 on the radially outward facing head surface. The diameter of the head is adapted to the tube's 20 inner diameter. After blasting, there will be metal debris with sharp edges protruding inward from the pipe surfaces around these openings. The brushes 35 should loosen and remove such sharp edges. The cleaning brushes around the perimeter can be designed so that they can be pulled radially inside the tool construction when they are not in use, and are stretched out to contact the inner pipe wall when cleaning is to proceed.

In order to adapt the tool to different inner diameters of the casing 20, the brushes can be extendable and retractable in the radial direction. They scratch the inner wall exclusively by moving the entire device up and down as shown by arrow P in figure 2.

Washing/Sprinkling unit 36.

This consists of two dome-shaped bellows (e.g. made of rubber) 36a and 36b which are mounted to the tool string/tube 30 at a short distance from each other. They form a seal against the inner wall of the tube 20. Between them, they form a flushing unit ring space 38. In this space, the tube 30 is perforated with holes 40 for spraying liquid (water - acid) into the space 38 and which is supplied with pressure from the surface through the interior of the tube 30. A liquid thick in the space 38 and the liquid pushes out through the blasted and cleaned perforations 35, and loosens and washes away pieces of concrete in the space 22 between the casing and the borehole wall.

This flushing unit 36 is thus located at the top of the structure, and below this is the brush unit 34, and below that again is the perforation gun 32.

Figure 3 shows a first step in the process. The tool 10 of the three parts is set for firing the explosive landings. A firing is carried out and holes 35 are formed in the tube. The holes 35 extend out through the pipe 20 and the blasting also causes holes to form more or less into the concrete cover 22 radially outside and which are desired to be loosened and removed as much as possible.

After the blasting has been carried out, the tool is moved up and down so that the brushes 35 can clean the inner surface of the pipe along the holes at the bottom of figure 3.

Figure 4 shows an important feature of the invention. The perforating gun 32 is, by means of a trigger mechanism not further detailed, detached from the rest of the tool and falls into the well. After the cannon 32 has been released, the entire tool is lowered further downwards so that the flushing part 36 comes in line with the holes 35.

Now the flushing starts by pumping water/acid down through the pipe 30 shown by the arrows 42. The annular space 38 between the two sealing caps 36a, 36b is filled with liquid and with pressure the liquid is forced out through the holes 35 and out into the concrete part you want to remove. Acid in the water will contribute to the chemical dissolution of the concrete. The water pressure out through the holes will further cause parts of the concrete cover to be torn up into larger and smaller pieces. Arrows P1 show how the liquid continues to flow upwards and back radially inwards through the holes/openings above the sealing cap. Flushed liquid can then be carried further upwards through 12 the annulus between the pipe 30 and the inner wall of the casing.

After most of the concrete casing has been removed, the structure is ready for the injection of concrete to form a plug in the well. This concrete fills up inside the casing and will flow out through the holes and also fill up the backspace between the casing outer wall and the walls of the original borehole.

Preferred execution of perforating cannon / - lance.

According to a preferred embodiment which is outlined in figure 5, the lance-shaped perforating cannon is equipped with sections of different strengths of explosive charges. These sections are marked A, B and C in Figure 5. Basically, the directed charges are designed to provide optimal hole diameter in the casing in the well plus a piece out into the existing concrete casing that you want to be able to flush away or to dissolve chemical with acid content in the liquid.

By increasing the power of the explosive charges in the upper A and lower C sections compared to in the middle section B, this will give holes with larger diameters A and C and thus a better and higher circulation effect and pressure profile of the flushing fluid during the circulation sequence. The back pressure during the washing sequence will be reduced so that the pumping rate can be increased. Referring to the flow pattern shown by arrows P1 and P2 in Figure 4, loose concrete pieces will flow upwards into the space between the pipe outer wall and then flow through the upper holes and back into the annulus 12 between the pipe 12 and the inside of the casing. The fact that the holes in the upper pipe section a have a larger diameter than further down means that larger loose pieces of concrete can be cleaned out, pass through the holes at the top and thus back to the annulus 12 for further removal. A perforating lance of this type can have a length of 5 to 50 metres, and can be divided into the sections A,BC as mentioned above in terms of explosive power in the individual charges.

After the charges in the perforating gun/lance have been fired, it is preferred to detach the lance from the rest of the tool

A sealing plug 150, see Figure 1, can be placed at the bottom of the pipe and forms the bottom of the pipe which is now to be filled with concrete. This can happen by removing the bottom of the weighing eye and pumping the concrete from the surface down through the pipe 30 to fill it, and to flow into the space below and outside the tool. The concrete will flow out through the perforations 35 and partially fill the concrete-cleaned space between the pipe outer wall and the rock formation in the borehole. In this way, concrete has been formed in direct contact with the rock formation 14.

Claims (14)

1. Tool for handling wells through a formation, and which is to be taken out of service by the installation of a plug made of a hardenable mass such as concrete, where in the well there is a casing that is cemented against the wall of the borehole with a concrete, characterized in that the tool comprises an assembled unit (10) of the following three sections: a perforating lance (32) comprising a number of explosive charges to form a series of holes in the pipe and out into the outer concrete layer upon detonation, a cleaning unit (34) for mechanically cleaning the pipe's inner wall in the perforated area, and a flushing unit (36) for loosening, dissolving and flushing away the hardened cementing mass between the pipe outer wall and the borehole wall. 2. Tool in accordance with claim 1, characterized in that the unit is mounted on the end of an operating string or a pipe (30) which is lowered into the well from an installation on the surface (100). 3. Tool in accordance with claim 1, characterized in that the perforation lance (32) is arranged at the bottom of the unit (10), the flushing unit (36) is mounted to the operating string, while the cleaning unit (34) is inserted between the lance (32) and the flushing unit ( 36). 4. Tool in accordance with claim 1, characterized in that the perforating lance (32) is arranged to be detached from the rest of the unit after the explosive charges have been detonated/fired. 5. Tool in accordance with claim 1, characterized in that the perforating lance (32) comprises a number of charges around and along the circumference. 6. Tool in accordance with claim 1, characterized in that the explosive charges in connection with the perforating lance (32) are designed with different explosive strengths in the different sections (A, B, C) of the lance. 7. Tool in accordance with claim 1, characterized in that an upper (A) section of the perforating gun/lance (32) is designed with stronger explosive power in the explosive charges in the rest of the charges. 8. Tool in accordance with claim 1, characterized in that an upper (A) and lower (C) section of the perforating gun/lance (32) is designed with higher explosive power in the charges than those in the middle section. 9. Perforating gun for producing perforations in a pipe in a formation, and comprising an elongated lance equipped with a number of explosive charges around a circumference and along the length of the lance, as well as means for detonating the explosive charges, characterized in that the explosive charges are connected to the perforating lance (32) is designed with different blast strength in different sections (A,B,C) of the lance. 10. Perforating cannon in accordance with claim 9, characterized in that an upper (A) section of the perforating cannon/lance (32) is designed with stronger explosive power in the explosive charges (33a) in the rest of the charges downwards along the lance. 11. Perforating cannon in accordance with claims 9-10, characterized in that an upper (A) and lower (C) section of the perforating cannon/lance (32) is designed with a stronger explosive force in the charges (33a and 33c) than correspondingly for those in the middle section (33b). 12. Method for shutting off a well including a casing pipe through a formation by establishing a plug of a hardenable mass, whereby a section of the casing pipe through the well is perforated, and a hardenable water is passed down through the pipe which is made to flow out through the perforations and form contact with the walls of the original borehole, characterized in that a three-part tool is used consisting of a lower part comprising a perforation gun (32) to form said perforations, a middle cleaning part (34) to clean the pipe (20) internally as well as an upper flushing section (36) to flush with a flushing fluid and dissolve concrete residues in the space between the pipe (20) and the borehole wall, the following steps are carried out in order, a) the tool (10) connected to an operating string (30) is lowered through the pipe until the perforating gun (32) is in a position where the pipe is to be perforated, b) the explosive charges (33) are detonated to establish perforations (35) in the pipe, c) work the eye (10) is moved up and down in the perforated area in order to use the cleaning part to scrub and clean the pipe inner wall, d) the tool (10) is positioned so that the flushing section (36) in the pipe is placed adjacent to a set of perforation holes, and so that a number of perforation holes around the perimeter are located above the flushing section (36) and form a fluid connection from the annulus between the pipe (20) and the well wall, and into the annulus (12) between the operating string (30), e) flushing fluid is pumped out through the perforations to loosen concrete pieces and dissolve the concrete in the space outside the pipe (20) so that it is fed back through the upper perforations and into the pipe (20) above the flushing section (36), and f) the tool is removed and a hardenable mass is lowered to fill a given section of the pipe (20) and the space between the outside of the pipe and the borehole wall, with which the well is plugged again when the mass has hardened. 13. Method in accordance with claim 12, characterized in that a tool is used as specified in claims 1-8. 14. Method in accordance with claims 12-13, characterized in that a tool is used as stated in claims 1-8, and that the perforating gun has a construction as stated in claims 9-11.