RU2281369C2 - Well construction method - Google Patents

Abstract

FIELD: oil production industry, particularly for well construction.

SUBSTANCE: method involves drilling hole from under conductor string to productive formation roof; lowering and cementing protective string; performing primary productive formation exposing along with bottom-hole pressure control; lowering liner and cementing thereof; performing secondary productive formation exposing. Protective string comprises stage cementing collar. Protective string is cemented from string bottom to collar installation depth. Circulation collar orifices are opened. Upper protective string part is flushed. Bottom-hole pressure control is carried out by creating hydraulic resistance by supplying flushing liquid from well head from space defined by conductor string and protective string into space between protective string and drilling pipes and then in reverse direction to well head along with feeding flushing liquid injected through drilling pipes with flushing liquid supply rate regulation. The flushing liquid is supplied via circulation orifices of the collar.

EFFECT: increased efficiency.

Description

The invention relates to the oil and gas industry, and in particular to methods for constructing wells.

A well-known method of constructing a well, including drilling from under the conductor to the top of the reservoir, lowering into the roof and cementing to the mouth of the technical column, lowering the inside of the technical additional column to form a secondary annulus to control bottomhole pressure by creating hydraulic resistance from flushing fluid with the wellhead into the secondary annulus and back to the wellhead from the space between the additional string and drill pipes together with myvochnoy fluid pumped through the drill pipe [pressure control reservoir at the opening with high pressure. R. Graham, P. Shermer. Oil and gas technology, No. 4, 2002].

The disadvantage of this method is its large metal consumption, associated with the need to lower an additional column to control bottomhole pressure.

The closest technical solution, taken as a prototype, is a method of well completion, including drilling from under the conductor to the top of the reservoir, lowering into the roof and cementing to the mouth of the technical column, using depression for the initial opening of the reservoir, lowering, cementing the “liner” and secondary opening [RF patent No. 2140521, IPC E 21 B 33/13, 33/138, 1997].

The disadvantage of this method is that in order to obtain the required depression, bottomhole pressure is controlled from the wellhead, which increases the risk of breakdown of blowout equipment and can lead to pipe rupture.

The objective of the invention is to increase the efficiency of the method of constructing a well by increasing manufacturability by eliminating the need to use blowout preventers to control bottomhole pressure.

The problem is solved in that in a method of constructing a well, including drilling from under the conductor, lowering to the top of the reservoir and cementing the technical string, controlling bottomhole pressure when opening the reservoir, lowering, cementing the “liner” and re-opening the reservoir, according to the invention include the step cementing sleeve into the technical column, cement it from the shoe to the depth of the sleeve installation, then open the circulation holes in the said sleeve and the upper part of the technical column is washed to the mouth from the cement slurry residues, and the bottomhole pressure is controlled by the creation of hydraulic resistance from the supply of flushing fluid from the wellhead, with the feed rate being regulated from the space between the conductor and the technical column to the space between the technical column and drill pipes through circulation coupling holes and back to the mouth along with flushing fluid pumped through the drill pipe.

The essence of the invention lies in the fact that to control the bottomhole pressure use the top is not cemented part of the technical column from the mouth to the circulation holes in the coupling. In the process of further construction of the well, additional hydraulic resistances are created to control the bottomhole pressure and control their supply of flushing fluid from the wellhead from the space between the conductor and the technical string to the space between the technical string and drill pipes through the circulation holes of the coupling and back to the wellhead with the flushing fluid, pumped through drill pipes.

The method is implemented as follows. After the conductor is lowered and cemented, the well is drilled to the top of the reservoir and the technical string is lowered into the roof with the inclusion of step cementing couplings. Cement mortar is prepared and forced through the technical column in the interval from the shoe of the column to the depth of installation of the coupling. By increasing the pressure inside the column, the circulation openings in the step cementing clutch are opened, the upper part of the technical column is washed out of excess cement and the circulation holes in the clutch are left open. Open the reservoir with bottomhole pressure control. For washing, during the opening of the reservoir, drilling fluid is pumped from the mouth through the drill pipe string, which flows to the mouth through the annular space between the drill pipes, the walls of the well and then between the drill pipes and the technical string. With speed control, flushing fluid is fed from the mouth through the space between the conductor and the technical string into the space between the technical string and drill pipes through the coupling’s circulation holes and back to the mouth, which together with the flushing fluid injected through the drill pipes, creates adjustable hydraulic resistances and downhole pressure control . After the initial opening of the reservoir, descent, cementing the “shank" and then the secondary opening of the reservoir are carried out.

The effectiveness of using the method is achieved by improving manufacturability by eliminating the need for blowout equipment to control bottomhole pressure.

Claims (1)

A method of constructing a well, including drilling from a conductor to the top of the reservoir, lowering and cementing the technical string, first opening the reservoir with bottomhole pressure control, lowering and cementing the liner and re-opening the reservoir, characterized in that they include a step cementing sleeve technical column, cement it from the shoe to the depth of installation of the coupling, while the circulation holes of the coupling are left open and washed the upper part of the technical the bottom of the drill string to the wellhead, and the bottomhole pressure controls the creation of hydraulic resistance from flushing fluid from the wellhead, with the control of the feed rate, from the space between the conductor and the technical string to the space between the technical string and drill pipes through the circulation openings of the coupling and back to the wellhead drilling fluid pumped through drill pipes.