TH41223A3 - Method for creating a secondary intersection in a well system. - Google Patents

Abstract

DC60, the methodology has revealed the creation of a number of or more secondary junctions. In an oil well and / or gas well assembly consisting of one or more primary wells and primary junctions. It will construct a multi-faceted pond structure similar to rooting, a method of using a secondary in an expandable pond in the primary junction. In order to create a secondary piece in With a sufficient internal width That will insert the equipment used to penetrate the intersection and can work in the primary intersection to drill and create a path Complete secondary separation The method has revealed the creation of a number or more of secondary intersections. In an oil well and / or gas well assembly consisting of one or more primary wells and primary junctions. It will construct a multi-faceted pond structure similar to rooting, a method of using a secondary in an expandable pond in the primary junction. In order to create a secondary piece in With a sufficient internal width That will insert the equipment used to penetrate the intersection and can work in the primary intersection to drill and create a path Complete secondary separation

Claims (3)

1. Method for establishing a secondary junction in a well system (1) for the production of hydrocarbon fluids. From the hydrocarbon layer (31), the well system (1) consists of the main well (2, 20) and the primary junction (6) that is connected from the main well (2, 20). Secondary in which it is expandable while not expanding (9, 22) into the primary intersection (6) and radially expanding the inner part (9, 22). The expanded secondary (9, 22) provides a steel sump casing. That would make an opening (8) in the wall of the secondary in the expanded (9, 22) in the primary junction (6), and that the secondary junction (7, 30, 33) was obtained. Penetration into the layer that is positioned Of hydrocarbons (31) through the opening mentioned 2. Method to claim 1, where both the primary well (2, 20) and the primary junction (6) are assembled with a secondary in place. Expanded (9, 22), which provides a steel sump casing, which is concealed by pushing or pulling the expansion core. Which has been arranged as well External surfaces resist wear, cones and / or rollers to pass them. 3. Method according to claim 1, where the expandable inner piece (9,22) will be formed by tubing. A coiled form where the drilling fluid is pumped directly to the borehole assembly below Which is used to penetrate the primary (6) intersection and the coiled tubing can be expanded radially. After drilling the primary intersection (6) is complete 4. Method of claim 1 or item 3, any one Where the secondary junction (7, 30, 33) is drilled with a drill assembly which has been connected to the coiled tube. Where the pipe has been The expansion was completed after drilling the secondary junction (7, 30, 33) to form Secondary line in the secondary intersection 5. Method of claim item 1 or item 3, any one Where the secondary junction (7, 30, 33) is padded along the length cross section with an expansive inner groove (31, 34), which expands within the secondary junction resulting in A series of choppy furrows In the sub-inside reveals an opening with a rhombus shape 6. Method of claim 5, where the expandable sand barriers are arranged around An expansion groove (31, 34) in an area where hydrocarbon fluid flows into the pond system 7. Method according to claim 1, where the non-expandable substrate (31, 34) is Been put into The secondary junction (30, 33) in which the secondary in (31, 34) is pore-porous in the fluid region. Hydrocarbons flow into the well system (1) 8. Method according to claim 1, where the secondary junction (30, 33) will be sheathed off accordingly. At least, line segment of length 9. Method according to claim 1, where a number of primary intersections (6) extend from the primary well (2) and where a number of secondary intersections ( At least one junction 1 0. A well system consisting of at least one primary (6) junction and a secondary junction (30). , 33) at least one junction where the primary junction (6) includes Expandable inner piece (9) which provides a steel casing and which consists of an opening which extends to the secondary (30, 33) 1. 1. The well system according to claim 10, where the expanded substrate (9) in the primary junction (6) has an internal width equal to the inner width of the casing in the primary well (2, 20). Significantly 1 2. Pond system according to claim 11, where one or more tertiary intersections Continuing beyond at least one of the secondary junctions (7, 30, 33), which will form a system. A multi-sided pond similar to rooting 1 3. The well system of claim 10, where both the main well (2, 20) and the primary intersection are assembled. Included with the enlarged substrate (9, 22) that provides an encapsulated steel sump casing.