EA002465B1 - Method for creating secondary sidetracks in a well system - Google Patents

Abstract

1. A method for creating a secondary sidetrack in a well system for production of hydrocarbon fluids and gases from a hydrocarbon formation, which well system comprises a main wellbore and a primary sidetrack which debouches into the primary wellbore, the method comprising inserting an unexpanded expandable liner into the primary sidetrack and radially expanding the liner, characterized in that an opening is created in the wall of the expanded liner in the primary sidetrack and that a secondary sidetrack is drilled into the hydrocarbon bearing formation through said opening. 2. The method according to claim 1, wherein the expandable liner is formed by a coiled tubing through which drilling fluid is pumped towards a downhole drilling assembly which is used to drill the primary sidetrack and which coiled tubing is radially expanded after the primary sidetrack has been drilled. 3. The method according to claim 1 or 2, wherein the secondary sidetrack is drilled with a drilling assembly which is connected to a coiled tubing, which tubing is expanded after the secondary sidetrack has been drilled to form a lining in the secondary sidetrack. 4. The method according to claim 1 or 2, wherein the secondary sidetrack is lined along at least part of its length with an expandable slotted liner which is expanded inside the secondary sidetrack such that a series of staggered slots in the liner open up into diamond shaped apertures. 5. The method according to claim 4, wherein an expandable sandscreen is arranged around the expandable slotted liner in the zone where hydrocarbon fluids flow into the well system. 6. The method according to claim 1, wherein an unexpandable liner is inserted into the secondary sidetrack which liner is perforated in the zone where hydrocarbon fluids flow into the well system. 7. The method according to claim 1, wherein the capillary sidetrack is uncased along at least part of its length. 8. The method according to claim 1, wherein a plurality of primary sidetracks debouch into the primary wellbore and wherein a plurality of secondary sidetracks debouch into at least one of the primary sidetracks. 9. A well system comprising at least one primary sidetrack and at least one secondary sidetrack wherein the primary sidetrack comprises an expanded expandable liner which comprises an opening into which a secondary sidetrack debouches. 10. The well system of claim 9, wherein the expanded liner in the primary sidetrack has an internal width which is substantially equal to the internal width of a casing in the primary wellbore. 11. The well system of claim 10, wherein one or more tertiary sidetracks debouch into at least one secondary sidetrack so that a root-like multilateral well system is created.

Description

The present invention relates to a method for sinking secondary sidetracks in a well system that comprises a main well from which one or more sidetracks branches.

Such a well system is known from the publication of International Application \ UO 98/49424.

The difficulty that arises when sinking such a well system is that a conventional well has a telescopic structure, which is a consequence of the fact that at various stages of the drilling process a casing is introduced into the main well, and subsequent sections of the casing must have a smaller outer diameter, than the inner diameter of the previously installed sections of the casing, as well as the fact that the liner, which is installed in the primary wellbore, must have an external diameter significantly smaller than the internal ith diameter of the casing of the main well at the branch point, so that the liner can be smoothly inserted from the main well bore into the primary lateral well bore.

As a result, the shank of the primary sidetrack must have such a small diameter that it becomes technically difficult to perform, and drilling secondary sidetracks from the primary sidetrack becomes economically disadvantageous.

An object of the present invention is an efficient and economical method of sinking one or more sidetracks in a well system.

SUMMARY OF THE INVENTION

The present invention is directed to a method for sinking secondary sidetracks in a well system for producing hydrocarbon fluids and gases, which comprises a main wellbore and a primary sidetrack that branches off from the main wellbore, the method comprising:

introducing an expandable liner in an unexpanded state into the primary lateral trunk;

radial extension of the shank;

drilling holes in the wall of the extended shank;

drilling a secondary sidetrack in a hydrocarbon formation through said hole.

Preferably, the expandable shank is a steel shank that expands when the expansion mandrel, which has a tapered wear-resistant outer surface and / or rollers, is pulled or pushed through this shank.

The extended liner has a sufficiently large inner diameter that allows further drilling and / or insertion of equipment into the primary sidetrack to drill one or more secondary sidetracks, which also have an internal width large enough to allow the wellbore to serve as branches through which hydrocarbon fluid or gases can flow into the well system.

Thus, the method in accordance with the present invention allows the creation of a root-shaped well system that provides optimal drainage of hydrocarbon fluids and gases from a hydrocarbon-bearing formation, even if the formation has low permeability.

In a preferred embodiment of the method according to the invention, the expandable liner is formed from a twisted pipe through which drilling fluid is pumped towards the drilling unit located at the bottom of the well, which is used to drill the primary side wellbore, and this twisted pipe is radially expanded after completion of penetration of the primary lateral trunk.

The secondary sidetrack can also be drilled using a twisted pipe that expands so that an extended shank is formed after the drilling is completed. Alternatively, the secondary sidetrack may be provided with a shank using an expandable shank with slots, these slots being zigzagged and opening when the shank expands to form diamond-shaped holes. Such an expandable shank with slots is known from U.S. Patent No. 5,666,012. Such a shank with slots can be installed in the inflow area of the secondary side barrel using an expandable sand screen, such as a sand screen, described in PCT International Patent Application / EP96 / 04887.

In stable formations of the oil layer, the secondary sidetrack can be made without a casing, at the same time, if the formation of the oil layer is very unstable, the secondary sidetrack may have a liner, without first installing the casing, which can be an expanded or unexpanded liner, perforations in which they are performed by the method of lumbago using a perforating gun, which is known in the art.

The present invention also relates to the root system of the well, which was created in accordance with the present invention and which contains the main wellbore, from which one or more primary sidetracks are branched, containing an expandable liner in an expanded form and one or more secondary sidetracks, which 3 extend into the primary lateral trunk or into the lateral trunks through one or more holes in the wall of the expanded shank or shanks.

It should be understood that the use of expandable pipes in a multilateral well system allows the use of pipes in the primary or parent well and in the primary and secondary sidetracks or branches of the well substantially equal to the internal width of the well so that a multi-well system with the same bore diameter is created. In such a wellbore system with the same bore size, it becomes possible to drill tertiary sidetracks extending from the secondary sidetracks, and this sidetracking process can be repeated again and again so that a truly root-like well system is created.

Brief Description of the Drawings

Preferred embodiments of the method and system in accordance with the present invention will be described with reference to the drawings, in which:

FIG. 1 is a schematic longitudinal sectional view of a well system in accordance with the present invention;

FIG. 2 is a schematic longitudinal sectional view of a well system in accordance with the present invention that comprises a primary sidetrack from which two secondary sidetracks branch.

Detailed Description of Preferred Embodiments

In FIG. 1 shows a well system 1 in accordance with the present invention, which comprises a vertical main wellbore 2 extending from a wellhead 3 located on or near the surface 4 of the earth into the underground formation 5. Three primary sidetracks 6 branch off from the main wellbore 2 wells. The secondary side trunk 7 branches off from each primary side trunk 6 through an opening 8 in the wall of the expanded expandable steel shank 9, only one section of which is shown in the region of each hole 8.

The use of expandable shanks 9 allows for maximum internal dimensions of the shank 9. Moreover, if the well of each sidetrack has a width of approximately 10 cm, the expanded shank may have an internal width of approximately seven to eight centimeters.

This size of the internal width is minimal, allowing you to enter the drilling unit into the primary sidetrack 6, which can be used to drill the secondary sidetracks 7 of sufficient width necessary for hydrocarbon fluids or gases to flow in sufficient quantities through the secondary sidetracks 7 into the primary side trunks.

It is also preferable that the main wellbore 2 be formed with an casing in the form of an expandable steel casing that reinforces the walls of the well during the expansion process, in the same way as the expandable liner 9 reinforces the borehole of the primary sidetrack 6.

This allows you to further increase the internal width of the shank 9 and the secondary side trunks 7.

The primary and secondary sidetracks 6 and 7 extend into the formation 10, which carries hydrocarbon liquid or gas, which are shown as shaded areas in the figure.

It should be understood that the depicted well system forms a root-shaped configuration of the well, which provides optimal drainage of hydrocarbon fluids and gases from formation 10, carrying hydrocarbon fluids and gases.

In FIG. 2 shows a vertical primary wellbore 20, to the side of which a primary lateral wellbore 21 was drilled horizontally.

The primary sidewall 21 has a shank made in the form of an expandable steel shank 22. Preferably, the shank 22 is formed from a twisted pipe that was used when drilling to supply drilling fluid to a drill bit (not shown) and for a hydraulic downhole motor (not shown) placed inside the well that is used to rotate the drill bit.

After completion of drilling, the twisted pipe expands so that reinforcement of the walls of the well is formed from it, which subsequently serves as the steel liner of the primary side well 21.

Further, near the bottom 24 of the primary lateral wellbore 21, inside the liner 22, a shoe 22A of size 4.5 inches (approximately 12 cm) and a plug 23 are installed.

Then, a diverter 25 is inserted and fixed inside the liner 22 and an eye 27 having an internal width of approximately 7 cm is provided, with the extended liner 22 having an internal width of approximately 10 cm. Then a drill assembly (not shown) is inserted through the eye 27 and deflected by the downhole diverter 25 so so that he begins to drill a hole 29 in the wall of the liner 22 and then drill a secondary sidetrack 30 inside the formation 31 carrying a hydrocarbon liquid or gas.

In the depicted example, a conventional steel shank 31 A was introduced into the secondary sidetrack 30 of the well, which has an external diameter of approximately 7 cm and which was made with perforations in the zone of well inflow using a perforating gun (not shown).

After the first secondary lateral wellbore 30 is drilled, a second downhole deflector 32 is inserted and secured inside the expanded liner 22 close to the start of the curved portion of the transverse primary lateral wellbore 21, after which another secondary lateral 33 is drilled, which completes in the same manner as described with respect to the first secondary side wellbore 30.

After entering the steel shank 34 into the second secondary side wellbore, either a hole is drilled in the wall of the shank 34 (not shown) and through the borehole diverter 32, or an existing passage for liquid and gases in the borehole borehole is used, and the passage for liquid and gas in the plug 35 used to pass hydrocarbon fluid and gases from the first secondary sidetrack 30 and through the primary sidetrack 21 to the main wellbore 20.

Claims (11)

1. A method of sinking a secondary side wellbore in a well system for producing hydrocarbon fluid and gases from a hydrocarbon formation, wherein the well system comprises a main wellbore and a primary side wellbore that branches off from the main wellbore, the method comprising introducing an unexpanded expandable the shank in the primary lateral wellbore and the radial expansion of this shank, characterized in that in the wall of the expanded shank of the primary wellbore with create a hole and the secondary lateral wellbore is drilled in a formation carrying hydrocarbons through this hole. 2. The method according to p. 1, characterized in that the expandable liner is formed using a twisted pipe through which drilling fluid is pumped towards a drilling unit installed inside the well, which is used to drill the primary lateral wellbore, and this twisted pipe is radially expanded after drilling a primary lateral wellbore. 3. The method according to claim 1 or 2, characterized in that the secondary sidetrack is drilled with a drill assembly that is connected to a twisted pipe, and this pipe is expanded after the secondary sidetrack has been passed to form a shank in this secondary side trunk. 4. The method according to p. 1 or 2, characterized in that the barrel is secured in the secondary sidetrack along at least part of its length with the help of an expandable shank with grooves, which are expanded inside the secondary sidetrack so that it forms in the shank a sequence of zigzag slots opening with the formation of diamond-shaped holes. 5. The method according to claim 4, characterized in that the expandable screen of sand is installed around the expandable liner, made with grooves, in the area where hydrocarbon fluids and gases flow into the well system. 6. The method according to claim 1, characterized in that the unexpanded liner is introduced into the secondary sidetrack and the liner is perforated in the zone where hydrocarbon fluids or gases flow into the well system. 7. The method according to claim 1, characterized in that the capillary lateral wellbore is performed without casing along at least a portion of its length. 8. The method according to claim 1, characterized in that a plurality of primary sidetracks are branched from the primary wellbore and a plurality of secondary sidetracks are branched from at least one primary sidetrack. 9. A well system comprising at least one primary lateral wellbore and at least one secondary lateral wellbore in which the primary lateral wellbore comprises an unexpanded expandable liner having an opening from which the secondary lateral wellbore branches . 10. The well system according to claim 9, characterized in that the expanded liner in the primary lateral wellbore has an internal width that is substantially equal to the inner width of the casing of the primary wellbore. 11. The well system according to claim 10, characterized in that one or more tertiary lateral wellbores branches off from at least one secondary wellbore so that a root-shaped well system is created.