SU787611A1 - Method of driving and casing a multibottom well - Google Patents

Description

(54) METHOD OF CARRYING OUT AND FASTENING BY A MULTIPLE-BORE WELL

This invention relates to well drilling technology, in particular, to methods for drilling multilateral oil and gas wells.

A known method for posting a multilateral well is to drill additional shafts from an inclined section of the main hole in the direction opposite to its slope, and in the sequence from bottom to top, starting from the first lower hole 1.

However, this method does not solve the problems of well mounting in unstable rocks.

There is a known method of conducting and fixing multilateral wells, including drilling the main and additional shafts and attaching additional shafts of casing strings, and the main trunk - casing strings with windows for communicating with the shanks of the additional shafts. In this case, the casing string of the additional barrel is descended from the surface orientedly, and the contacting surfaces of the shank of the additional barrel and the window of the casing string of the main barrel are leaded 2.

The disadvantage of the method lies in the complexity of its implementation due to the necessity of observing the accuracy of orientation during the descent of pipes for mounting additional shafts, and the difficulties that arise when cementing the casing of the main trunk in the presence of windows.

The purpose of the invention is to simplify the technology of conducting and fixing a multilateral well.

This goal is achieved by the fact that the main bore is deepened after the next additional bore is attached, with a part of the shank of the casing of the additional bore being placed in the main bore and drilled when the last one is dredged.

The drawing shows a multilateral well drilled by the proposed method.

The essence of the method is as follows.

The main wellbore 1 is drilled to the depth of the designed branching of the first additional trunk 2. Then, using known diverters, the first additional trunk 2 is drilled, mainly

the diameter is the same with the main barrel 1, to the design depth, and they are cased with a casing string with a shank 3 with a partial overlap of the projected branching location and annular cementing of the upper part of the casing string with a shank 3.

Works on geophysical research and branch testing. Then, using known diverters, they drill the main barrel 1 in the direction opposite to the inclination of the additional barrel, and deepen it with simultaneous cutting of the upper part of the tail 3 with a rock-destroying tool in the interval of complete branching of the main 1 and additional 2 barrels. In this case, an inlet 4 is fixed to the first additional barrel 2 fixed with a skew-cut pipe with a cement ring. The main shaft 1 is deepened to the designed branch point of the second additional barrel 5, the second additional barrel 5 with a shank 6 and partial overlapping of the site is planted and surrounded. projecting a second branching of the additional trunk and cementing the top of the casing string with the shank 6.

At the end of the research, the main trunk 1 is drilled and deepened to the depth of the projected branching of the next additional trunk with the upper part of the tail 6 being cut by a rock destructive tool along the full branching of the main 1 and the second additional 5 boreholes, forming the inlet 7 fixed by a pipe in the second additional trunk, etc.

At the end of the well bore wiring, the main bore 1 is cased with the production casing 8. Before the production casing 8 is lowered, the inputs 4 and 7 to the additional casing are washed from the sludge. The communication between the main 1 and additional 2 and 5 shafts is carried out through perforated windows 9 in the places of the inputs 4 and 7 into the additional shafts. The casing shafts 3 and 6 of the additional boreholes are made of easily drilled material (for example, alloy D16-T), the rest of the casing consists of standard casing.

Due to the fastening of the entrances to the additional trunks, the rocks forming the walls of the trunks do not collapse, which makes it possible to drill a multilateral well in unstable rocks without complications using the well-known technology and tool for the inclined drill; 1 and

The final complete fixation of the locations of the branches of the additional trunks with the main trunk in contact with each other pipes allows to maintain the stability of the trunks and their longer operation during the operation of the well. When using the proposed method, it is possible to distort the boreholes by the most optimal profile m, according to the shape of the opening structure, since the choice of branch sites does not depend on the bucket or the presence of a stable interval in the section, which increases the efficiency of directional drilling.

 In addition, it is possible to carry out additional trunks of the same diameter as the main barrel, which practically does not limit the number of trunks while simultaneously using 5 only one size of drilling tool elements (bits, deflectors, downhole motors, orientation devices, etc.) and casing colonies ,.

Claims (2)

Invention Formula ® A method for conducting and fixing a multilateral well, including drilling the main and additional shafts and attaching additional shafts with casing strings, and the main stem - casing with windows for communicating with the casing strings of additional shafts, characterized in that, in order to simplify the technology conducting and securing the well, the main trunk is deepened after the attachment of the next additional bore, with a part of the shank of the casing of the additional bore being placed in the main vnom hole and drilled out during the last recess. Sources of information taken into account in the examination 5 1. USSR author's certificate No. 150449, cl. Е 21 В 7/00, 01.06.61. 2. USSR author's certificate No. 192114, cl. Е 21 В 7/08, 18.09.61.