RU97103568A - METHOD AND DEVICE FOR CREATING BRANCHED WELLS FROM THE ORIGINAL WELL, BRANCHING THE BUSH FOR THIS DEVICE AND METHOD OF INSTALLING IT IN THE WELL - Google Patents

Claims (32)

1. A branching sleeve for deployment in a wellbore, comprising a plurality of outlet openings, a branching chamber having an open first end of a cylindrical shape and a second end for sealingly connecting its first end to a casing in the wellbore, and elements of outlet openings, each of which connected in such a way as to be integral with the second end of the branching chamber, and communicated with the branching chamber, characterized in that in the retracted position for insertion into the wellbore each of the elements of the outlet openings is located completely inside the imaginary cylinder, coaxial with the first end of the branching chamber, and has the same radius as this end, in the expanded position, at least one of the elements of the outlet openings is located from the branching chamber outside the imaginary cylinder.  2. The sleeve according to claim 1, characterized in that in the expanded position, each of the elements of the outlet openings is located along an arcuate path from a branching chamber outside an imaginary cylinder.  3. The sleeve according to claim 1, characterized in that at least one of the elements of the outlet openings in the retracted position has a non-circular radial cross-sectional shape and at least one of these elements in the expanded position has a circular radial cross-sectional shape.  4. The sleeve according to claim 1, characterized in that each of the elements of the outlet openings in the retracted position has a non-circular radial cross-sectional shape and at least one of these elements in the expanded position has a circular radial cross-sectional shape.  5. The sleeve according to claim 1, characterized in that the elements of the outlet openings are made of material that can be plastically deformed due to cold forming.  6. The sleeve according to claim 5, characterized in that the material is alloy steel with an austenitic structure.  7. The sleeve according to claim 6, characterized in that the material is a nickel alloy.  8. The sleeve according to claim 1, characterized in that the elements of the outlet openings have the same radial cross-sectional area.  9. The sleeve according to claim 1, characterized in that at least one of the elements of the outlet openings has a radial cross-sectional area larger than at least any other of these elements.  10. The sleeve according to claim 1, characterized in that the elements of the outlet openings include five outlet openings, one of which has a radial cross-sectional area smaller than the area of four of these elements.  11. The sleeve according to claim 1, characterized in that it has a stand located axially outside the second end of the branching chamber, and a support located at a distal end of the stand from the center.  12. A sleeve according to claim 1, characterized in that the central supporting region is formed at the second end of the branching chamber between the integral connections of the outlet openings with the second end, and there is an elongated pillar located from the central supporting region, which extends axially above the outlet openings, and a support located at a distant end of the rack.  13. A rack for installing a branching sleeve in a wellbore having a cylindrical first end and a second end and outlet holes connected to the second end of the branching chamber and located in a retracted position completely inside an imaginary cylinder coaxial with the cylindrical first end of the branching chamber and having a radius of equal to the radius of this end, characterized in that they connect the first end of the branching chamber of the sleeve with the lower end of the casing string, lower the casing string and bushings in the wave of the well to the position of the node where the branched wellbore should be created, lower the forming tool through the casing string into the branching chamber of the sleeve, orient the forming tool inside the sleeve in order to insert it into at least one of the elements of the outlet holes to the second end of the branching cameras and expand at least one of the elements of the outlet holes with this tool until at least one of these elements comes out of the connection at the second end of the branching cameras outward from an imaginary cylinder.  14. The method according to p. 13, in which at least one of the elements of the multiple outlet openings in the retracted position has a non-circular radial cross-sectional shape, characterized in that the expansion step includes expanding at least one of the elements of the outlet openings with a forming tool until then until at least one of the elements of the outlet will not have a round shape of a radial cross section.  15. The method according to p. 14, characterized in that the expansion stage also includes expanding the elements of the outlet holes with a forming tool until each of the elements of the outlet holes has a circular radial cross-sectional shape and leaves the connection with the second end of the branching chamber along an arcuate trajectory outward from an imaginary cylinder.  16. The method according to p. 15, characterized in that the expansion of the elements of the outlet with the forming tool is performed simultaneously.  17. The method according to p. 13, characterized in that the expansion includes many stages of expansion of the sleeve, the first of which begins at the junction of at least one of the elements of the outlet holes in the branching chamber, and many additional stages of expansion of the sleeve are performed at a correspondingly greater distance from the junction of at least one of the elements of the outlet openings in the branching chamber.  18. A device for creating branched wells from a source well, comprising a branching sleeve including a branching chamber having a first end, a second end and multiple outlet openings attached to the second end of the branching chamber and located in a retracted position completely inside an imaginary cylinder coaxial with the first the end of the branching chamber and having the same radius as this end, characterized in that it contains a node for energy supply and control of the ascending well th downhole assembly, an electric wire means connected between the energy supply and control unit and the operation unit for supplying electric energy and electrical communication signals between them, the operation unit including a forming mechanism for introducing into the outlet element of the outlet hole of the sleeve for expanding at least one of the elements of the outlet openings in such a way that it passes along an arched path from the branching chamber to the outside of the imaginary cylinder.  19. The device according to p. 18, characterized in that the operating unit includes means for fixing it in a predetermined axial position inside the branching sleeve and means for radially orienting the forming mechanism, ensuring alignment of the mechanism with the selected element of the branching outlet of the sleeve.  20. The device according to p. 19, characterized in that the operating unit also includes a hydraulic pump for pumping hydraulic fluid under pressure, a head including hydraulic fluid lines connected to the hydraulic pump, and the forming mechanism includes a hydraulically driven shaped gasket and a connecting rod located between shaped gasket and head for supplying hydraulic fluid under pressure to the shaped gasket.  21. The device according to p. 20, characterized in that the forming mechanism includes a piston to accelerate the movement of shaped gaskets from the outside to the element of the outlet.  22. The device according to p. 20, characterized in that the shaped gasket includes an inclined inner surface, and the forming mechanism includes rollers attached to the connecting rod to interact with the inclined inner surface to accelerate the movement of the shaped gasket from the outside to the outlet hole element.  23. The device according to p. 22, characterized in that it includes an expanding working body having a cylinder attached to the shaped gasket using a rotary connecting rod, and a piston attached to the rollers using a rod.  24. The device according to p. 23, characterized in that it also includes a moving working body, including a piston, which is connected and hydraulically connected to the cylinder of the expanding working body.  25. A method of creating branched wells from a source well, characterized in that a branching sleeve having a branching chamber and outlet openings is lowered into the original casing through the original well to the branching location, the branching sleeve is oriented until its outlet openings are located in a predetermined position, and expand and form at least one of the outlet holes until then, until it expands above the diameter of the branching chamber and reaches a round shape.  26. The method according to p. 25, characterized in that the expansion and formation is carried out in the outlet holes until each of these holes expands along an arcuate path above the diameter of the branching chamber.  27. The method according to p. 26, characterized in that each of the outlet openings is closed with a plug, a branched wellbore is formed through a selected one of the multiple outlet openings, a round insert is installed into the branched wellbore and the end of the insert is sealed with one of the outlet openings.  28. The method according to p. 27, characterized in that the sealing of the end of the liner with the corresponding selected hole is carried out using a hanging packer liner.  29. The method according to p. 27, characterized in that a branched wellbore is formed through the outlet openings, a round insert is installed in each of the outlet openings and the end of each of the inserts is sealed with the corresponding end of one of the outlet openings.  30. The method according to p. 29, characterized in that they install a pipeline with branches of a downhole well in a branching chamber, complete each branched wellbore and control the production of a branched well in the original well with a branch pipe.  31. The method according to p. 27, characterized in that they slow down the formation of a branched borehole through at least one of the outlet holes and thereby reserve the outlet hole for further development of the well.  32. The method according to p. 29, characterized in that the heated fluid is pumped into at least one of the branched wells to enhance flow from the reservoir and hydrocarbon fluid is extracted from another branched wellbore from the reservoir into which the heated fluid was pumped.