RU2801197C1 - Well completion method after workover - Google Patents

Abstract

FIELD: oil and gas.

SUBSTANCE: well completion method after a workover includes running a pipe string with a packer into the well, packing the packer, changing the fluid to a lighter fluid while maintaining pressure on the formation, and inducing inflow from the formation. Before lowering the pipe string, a circulation valve is installed in the pipe string to provide hydraulic communication between the tubular space and the annulus of the well, the fluid is replaced with a lightened liquid in the annulus of the well. After replacing the fluid with a lightened fluid, inflow is initiated by lowering the level of the lighter fluid in the tubular space of the well by simultaneously supplying the gas mixture to the tubing space and withdrawing the lightened fluid from the annulus in volumes from 5 to 10 m³ enabling independent completion of the well.

EFFECT: reduced downtime of the well by reducing the duration of well completion and reducing the impact of fluid on the productive formation.

1 cl, 1 dwg, 1 ex

Description

The invention relates to the field of oil and gas industry and can be used in the development of wells after overhauls at gas and gas condensate fields.

Known Method of well development, including lowering pipes into the well to a predetermined depth, replacing the fluid with a lighter fluid while maintaining a given pressure on the formation, causing inflow from the formation [RU 2215137, E21B 43/25, publ. September 10, 2004].

The disadvantage of this method is that in the said invention, the development of the well is carried out by lowering the tubing string or lowering the coiled tubing, followed by the supply of high-pressure gas, which is first directed into the tube space of the well being developed with the displacement of the lightened fluid to the surface or pushing it into the depths. formation, then into the annulus until the supplied gas reaches the shoe of the tubing string. This condition is feasible in the design of the well, in which there is no complex of underground equipment (KPO), the proposed technical solution makes it possible to develop a well with the presence of a packer system or KPO by supplying a limited amount of high-pressure gas sufficient to displace light liquid in a volume of at least 8 m ³ .

A well known method of well development, including lowering a pipe string with a packer into the well at a predetermined distance, packing the packer, replacing the fluid with a lighter fluid while maintaining a given pressure on the formation, calling inflow from the formation [RU 2235868, E21B 43/25, publ. October 27, 2003], taken as the closest analogue.

The disadvantage of this method is that the invention considers a well development method using a coiled tubing unit, namely, the well development is carried out by lowering a coiled tubing (CT) to the current bottomhole, followed by transferring the well from a clay solution to a light liquid, while while the claimed technical solution does not carry out and does not provide for running coiled tubing into the well due to the presence of a circulation valve in the complex of underground equipment, while the use of coiled tubing increases the duration and cost of work, while the claimed technical solution reduces the duration of development work and reduces the impact flushing fluid to the productive formation.

The purpose of the invention is to reduce the downtime of the well by reducing the time spent well development works after well repair, as well as reducing capital costs for their carrying out, including reducing the time for transportation of crew equipment of the coiled tubing crew, installation work, work of the coiled tubing unit, dismantling of crew equipment.

The technical result is reducing the duration of work on well development and reducing the impact of fluid on the reservoir, increasing the efficiency of well development, in addition to reducing the cost of work, due to the fact that they do not carry out, including the descent of coiled tubing into the well, ensuring the development of a well in gas and gas condensate fields without involving a coiled tubing unit.

The stated technical result is achieved by the fact that the well completion method after the repair includes running a pipe string with a packer to a predetermined depth into the well, packing the packer, replacing the fluid with a light fluid while maintaining a given pressure on the formation, inducing inflow from the formation, while installing a circulation valve into the pipe string to ensure hydraulic communication of the tubular space with the annulus of the well, the liquid is replaced with a lighter liquid in the annulus of the well, the level of the lightened liquid in the tubular space of the well is reduced, and the level is lowered by simultaneously supplying a gas mixture to the tubular space and withdrawing the lightened liquid from of the annular space in volumes that provide an independent exit of the well for development.

The drawing shows a diagram of the Installation for the implementation of the Method of development of wells after repair. The image shows the following symbols:

1. Nitrogen compressor unit;

2. Cementing unit;

3. Lightweight liquid;

4. Circulation valve;

5. Operational packer;

6. Killing liquid;

7. Gas mixture (nitrogen gas);

8. Christmas tree fittings;

9. Flow line;

10. Gas separator;

11. Flare line;

12. Container for collecting killing liquid;

13. Tank for collecting condensate during mining;

14. Product layer;

15. Perforations;

16. Lift column (tubing);

17. Choke chamber.

According to the technology for completing well workovers, including workovers, it is planned to transfer wells to a light or aerated liquid (diesel fuel, gas condensate, etc.) in order to prevent the formation of hydrates in the annulus of the well with the complex of underground equipment installed (hereinafter - KPO), in accordance with the "Safety Rules in the Oil and Gas Industry" (Approved by order of the Federal Service for Environmental, Technological and Nuclear Supervision of December 15, 2020 N 534, https://docs.cntd.ru/document/ 573230594). Further development of the well occurs without complications by "self-draining", subject to the condition that the formation pressure is higher than the hydraulic column of the injected light fluid.

Basically, this condition is observed during repairs, including during initial overhauls, as the fields are exploited, a gradual decrease in reservoir pressure occurs, and in order to bring the wells to development, it is necessary to fulfill the condition under which the pressure of the liquid column in the pipe space will be lower than hydrostatic (P _reservoir > Р _hydrostat ).

The method of development of wells after the repair is carried out as follows (see drawing).

In a well, for example, gas; gas condensate. carry out the descent of the production string 16, for example, a string of pipes, lift or tubing (tubing), with the packer 5 to a given depth. A circulation valve 4 is installed in the lift pipe complex 16, which provides hydraulic communication between the pipe space and the annulus of the well in the open position. After that, the packer 5 is packed. The fluid is replaced with a lightweight fluid 3 using a cementing unit 2 in the annulus of the well and maintaining the specified pressure on the formation, while the replacement is carried out after completion of work on the well repair, for example, workover, and before development wells in order to prevent freezing of the liquid in the annulus of the well. The predetermined pressure on the formation in the process of replacing fluid with light fluid 3 is determined based on the hydrostatic pressure of the fluid column and the excess pressure at the wellhead.

The liquid is, for example, a washing liquid, a slurry.

The light liquid 3 is, for example, an aerated liquid, condensate, diesel fuel.

For example, the replacement of the flushing fluid with light fluid 3 in the form of gas condensate is carried out by means of, for example, a cementing unit 2, while collecting the killing fluid 6 into a container for collecting the killing fluid 12.

Upon completion of the replacement of the killing fluid 6 in the annulus of the well with the lightened fluid 3, its level is lowered in the wellbore (in the pipe space).

The decrease in the liquid level in the tubular space of the well is carried out by simultaneously supplying a gas mixture 7, for example, a nitrogen mixture, into the tubular space of the well using, for example, a compressor unit 1, and withdrawing a light liquid 3 through, for example, a cementing unit 2 into a condensate collection tank 13, from the annulus and in volumes from 5 m ³ to 10 m ³ , providing an independent exit of the well for development.

For example, compressor unit 1 supplies gas mixture 7 to the pipe space, lightweight liquid 3 from the pipe space flows through the circulation valve 4 into the annulus, from which light liquid 3 is taken in volumes from 5 m ³ to 10 m ³ , while gas supply mixture 7 into the pipe space and the selection of lightweight fluid 3 from the annulus is carried out simultaneously, with the condition that the bottomhole pressure must be less than or equal to the formation pressure.

Reducing the level of lightweight fluid 3 in the tubular space allows you to reduce the pressure of the light fluid column 3 on the productive formation 14 (depending on the angle of inclination of the well and the selected volume of light fluid 3 from the annulus), providing the necessary condition (P _layer > P _hydrostat ) under which the well begins to enter the development independently, causing inflow from the reservoir 14 through the perforations 15, and thus allows you to proceed to the development and development of the well immediately after the completion of the perforation.

After selection from the annulus volumes of lightweight liquid 3, providing an independent output of the well for development, the circulation valve 4 is closed using a cable hoist.

Upon completion of work on the selection of light liquid 3 and closing of the circulation valve 4, the valve on the X-mas tree 8 is opened to the flare barn along the flare line 11 to the gas separator 10 and further to the flow line 9, while the output of the well to the development mode is regulated using a choke chamber 17, providing a drawdown on the reservoir 14, not exceeding the maximum allowable.

An example of a specific implementation of the method

After the completion of the workover of well No. 1204, a tubing string 16 was lowered in the form of a 114 mm tubing with a packer 5 and a circulation valve 4 to a depth of 1580 m into the well, packer 5 was packed and the well was switched to a lighter fluid in a volume of 38 m ³ ( the volume of the well to the place of installation of the circulation valve 4) minus the volume of tubing 16 equal to 3.6 m ³ the liquid level in the well was at the wellhead, the pressure at the wellhead is zero (P _set = 0 atm).

At the end of the workover of the well, the killing fluid 6 was replaced in the form of a flushing fluid with a lightweight fluid 3, collecting the flushing fluid in a container 12, maintaining pressure on the reservoir 1 for the well to independently exit for development, and causing inflow from the reservoir 14 through the perforations 15. Lightweight the liquid was diesel fuel.

The nitrogen compressor unit 1 was connected and by simultaneously supplying the gas mixture 7 in the form of a nitrogen mixture into the tubing space 16 in a volume equivalent to the volume of diesel fuel in the tubing space 16 with simultaneous withdrawal of diesel fuel through the annulus of the well by means of a cementing unit 2 into the collection tank diesel fuel (condensate) 13. 10 m ³ of diesel fuel were withdrawn along the annulus of the well, reducing the level of diesel fuel in the tubing space of tubing 16 to approximately 1250 m from the wellhead, providing an independent exit of the well for development.

Using a cable lift, the circulation valve 4 was closed in the tubing space of the tubing 16, when the pressure was P _set =10 MPa.

The well was opened to the flare line 11 with a 10 mm diameter choke installed, the excess pressure was released, and the gas well immediately went into production, having stabilized the pressure at the wellhead in the region of 6.0 MPa.

The independent development of the well was carried out without the use of a coiled tubing unit.

The claimed method made it possible to reduce the downtime of the well by reducing the time of work on well development (reducing the time for transportation of crew equipment of the coiled tubing team, installation work, installation of the coiled tubing unit, operation of the coiled tubing unit for well development, dismantling of the coiled tubing unit, dismantling of crew equipment) and reducing the time fluid impact on the reservoir, increasing the efficiency of well development, as well as reducing capital costs for work, due to the fact that they do not carry out, including the descent of coiled tubing into the well, ensuring the development of a well in gas and gas condensate fields without involving a coiled tubing unit.

Claims (1)

A method for well development after a workover, which includes running a pipe string with a packer into the well, packing the packer, replacing the fluid with a light fluid while maintaining pressure on the formation, inducing inflow from the formation, characterized in that before running the pipe string, a circulation valve is installed in the pipe string to ensure hydraulic communication between the tubular space and the annulus of the well, the fluid is replaced with a lighter fluid in the annulus of the well, after replacing the fluid with a lighter fluid, inflow is caused by lowering the level of the lighter fluid in the well annulus due to the simultaneous supply of a gas mixture into the tubular space and selection of lightweight liquid from the annulus in volumes from 5 to 10 m ³ , providing an independent exit of the well for development.