RU2562639C1 - Method of secondary drilling of productive formations - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: method includes transportation of the rock-drilling machine into a well bottomhole, its fixing, perforation of walls of a casing string, unfixing of the rock-drilling machine and its lifting to the surface. The rock-drilling machine transported into the perforation zone with tubing, before fixing it is aligned by rotation of the tubing string so that at the initial stage of formation oil production the working bodies of the rock-drilling machine to arrange in the vertical plane towards the top of productive formation. Then, as the inactive hydrocarbons the near top zone of productive formation are being exhausted, the perforated zones in bottomhole part of the casing string are blocked by means of the permanent packer, the rock-drilling machine is transported into the bottomhole zone interfaced to the packed section, the rock-drilling machine is oriented by rotation of the tubing string so that at the subsequent stage of the formation oil production the working bodies of the rock-drilling machine to be in the horizontal plane of the productive formation, providing an arrangement of the perforated channels in the area characterised by presence of more mobile hydrocarbons. When performing operations of aligning of working bodies of the rock-drilling machine the angle of position of working bodies of the rock-drilling machine is monitored in the plane, perpendicular to longitudinal axis of the well.

EFFECT: increase of coefficient of oil recovery by orienting of working bodies of the rock-drilling machine in the vertical and horizontal planes.

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Description

The invention relates to the oil industry, in particular to a method for the secondary opening of productive formations by perforation.

A known device and method for the secondary opening of productive formations (patent RU No. 2183259, IPC E21B 43/117 of 06.22.2000), including deep cumulative perforation with simultaneous cleaning of perforation channels and a device consisting of a shell cumulative perforator, one or two depression chambers used for effective cleaning of perforation channels and stimulation of oil and gas inflow from the perforated interval, while the upper depression chamber has a volume up to 15 or more times the volume of the perforator, and a ball Pan-contact for electrical circuit electroexplosive highway and at the same time the role of the receiving valve and the lower chamber has the ability to open with a time delay.

The disadvantages of the proposed method and device are the low level of safety due to the use of electrical initiating systems, the rather high laboriousness of assembling the device at the well, the formation of a network of cracks in the cement stone under high pressure, clogging of perforation channels by reflows of the mother rock of the formation, and the difficulty in implementing the orientation method perforator in the well, which entails significant material and technical costs.

A known method of the secondary opening of the reservoir by slotted sandblasting perforation (patent RU No. 2282714, IPC E21B 043/114, E21B 043/22 from 05/30/2005), including wave acoustic logging with digital recording of the full wave signal and determining the location and number of cuts of sandblasting perforations along the height of the reservoir. The composition of the equipment of the bottom of the pipe string is introduced from the bottom up: a sandblasting punch, a crimping unit with a socket for a ball being dropped, a pipe string with a measuring tape attached to the first sleeve with cut marks and a reference pipe. The equipped pipe string is lowered into the well until the perforator reaches the level of the first bottom cut from the bottom. By supplying abrasive fluid to the perforator, a slit hydro-sandblasting perforation of the first cut is made in two modes. Perforation in the first mode is carried out at a working pressure of up to 20 MPa for a duration of up to 25 minutes, and without interruption in time, perforation is performed in the second mode at a working pressure of up to 30 MPa for a duration of up to 20 minutes. Similar operations are performed during perforation of each intended cut. After the final cut is completed, the perforation channels of the hydraulic nozzles of the perforator are closed and its valve mechanism is opened. They clean the slotted channels from sand. The hammer is lowered to the bottom. Wash the well to clean produced water.

The disadvantages of the proposed method include a large investment of time for preparatory and final work and for cutting holes, as well as the small depth of the channels formed in the sandblasting perforation in the reservoir, which does not allow for reliable opening of the reservoir.

A known method of the secondary opening of the reservoir (patent RU No. 2205942, IPC E21B 43/114 of 04/28/2001), including the preliminary creation of holes in the wall of the casing and cement ring using a drilling punch, the search for perforations and their subsequent perforation with a hydraulic perforator deepening into the reservoir.

The disadvantages of the proposed method are the difficulty of ensuring in practice the penetration of the jet into the perforation hole, the duration of the perforation process, as well as the high material costs associated with the technical equipment for perforating the casing string and the reservoir used in this method of re-opening the reservoir.

The closest adopted for the prototype is a method of opening productive formations with a perforating drill (patent RU No. 2482266, IPC E21B 43/11 of September 16, 2011), including transporting a drilling perforator to the bottom of the casing, fixing it, perforating the walls of the casing, unlocking the drilling punch and removing it to the surface, while before each turn the punch is lifted to the surface, turned to a predetermined angle and its position relative to the cable lug is fixed, and then the assembly is lowered into the well and then drill the next channel, offset from the previous channel by a given angle.

The disadvantages of this method of opening a productive formation include the lack of the possibility of its use when opening horizontally directed wells, as well as a decrease in well productivity due to the remaining hydrocarbons in the side part of the reservoir.

The proposed method solves the problem of increasing the volume of oil production by increasing the oil recovery coefficient.

The technical result is an increase in the oil recovery coefficient by orienting the working bodies of the perforator in vertical and horizontal planes.

The problem is solved, and the technical result is achieved by the method of secondary opening of the productive formations, including transporting the perforator into the bottom of the well, fixing it, perforating the walls of the casing, fixing the perforator and removing it to the surface, according to the invention, a perforator transported to the perforation zone on the tubing , before fixing, they are oriented by turning the tubing string so that at the initial stage of reservoir oil production the punch guns were in a vertical plane toward the top of the reservoir, then, as slow-moving hydrocarbons are produced in the cover zone of the reservoir, the perforated zones are blocked in the bottomhole part of the casing using an unrecoverable packer, the perforator is transported to the bottomhole region associated with the sealed section orient the punch by turning the tubing string so that at the next stage of the reservoir oil production Chie punch bodies are in a horizontal plane producing formation, providing location perforated channels in the region characterized by the presence of the more mobile of hydrocarbons, wherein when performing working operations orienting perforating gun bodies monitor angle position of working organs of the punch in a plane perpendicular to the longitudinal axis of the borehole.

In addition, according to the invention, the angle of the working bodies of the punch can be controlled using biaxial sensors that measure gravity projections on the sensitivity axis, oriented orthogonally to each other and located in a plane perpendicular to the longitudinal axis of the punch body.

In the proposed method for the secondary opening of productive formations at the initial stage of reservoir oil production, due to the possibility of orienting the working bodies of the perforator, slow-moving hydrocarbons are produced in the bedside zone, which is characterized by more viscous oils. Perforation of channels in the area characterized by the presence of more mobile hydrocarbons is carried out only after the production of inactive hydrocarbons in the near-well zone of the reservoir, thereby eliminating the decrease in well productivity due to the remaining hydrocarbons in the near-side part of the formation, which ultimately leads to an increase in the oil recovery coefficient.

An example of a specific implementation of the method.

The method can be implemented as follows.

The perforator on the tubing is lowered into the bottom of the casing well with a depth of not more than 5 km. The maximum temperature in the well is not more than 125 ° C. Orientation and positioning of the working bodies of the perforator at the initial stage of reservoir oil production is carried out in a vertical plane towards the top of the reservoir using the turns of the tubing string from the wellhead.

At the end of the perforation in the near-well zone of the reservoir, low-mobility hydrocarbons are produced in the perforated zone, thus eliminating the possibility of reducing well productivity due to the remaining hydrocarbons in the near-side formation and increasing the oil recovery coefficient. Next, block the perforated zones in the bottom of the casing using a non-recoverable packer. Then the perforator is transported to the bottomhole area associated with the sealed area, after which the perforator is oriented by turning the tubing string from the wellhead so that at the next stage of reservoir oil production the perforator working bodies are in the horizontal plane of the reservoir. Orientation of the working bodies of the perforator in the horizontal plane of the reservoir ensures the location of the perforated channels in the region characterized by the presence of more mobile hydrocarbons. At the end of the perforation, the perforator is removed from the well and more mobile hydrocarbons are produced.

When implementing the method of secondary opening of productive formations, orientation is carried out by turning the tubing string from the mouth and simultaneously controlling the angle of the working bodies of the punch using biaxial sensors (for example, Analog Devices ADXL203 accelerometers) that measure gravity projections on the sensitivity axis oriented orthogonally to each other and located in a plane perpendicular to the longitudinal axis of the perforator body.

Thus, the proposed method for the secondary opening of reservoirs can increase the oil recovery coefficient and contributes to a more rational development of the productive capacity of the well stock. The advantage of the proposed method is its effectiveness in secondary drilling in difficult geological and technical conditions, including the development of deposits with low-power carbonate reservoirs, fields with viscous and high viscosity oils.

Claims (2)

1. The method of secondary opening of productive formations, including transporting a perforator into the bottom of the well, fixing it, perforating the walls of the casing, unlocking the perforator and removing it to the surface, characterized in that the perforator transported to the perforation zone on the tubing is oriented before fixation by rotating the tubing string so that at the initial stage of reservoir oil production, the working bodies of the perforator are in a vertical plane in the direction to the top of the producing formation, then, as slow-moving hydrocarbons are produced in the underfloor zone of the producing formation, the perforated zones in the bottomhole part of the casing are blocked using an unrecoverable packer, the perforator is transported to the bottomhole area associated with the sealed section, the perforator is oriented by turning the compressor pipes so that at the next stage of reservoir oil production, the working bodies of the perforator are in the horizontal plane of the su- reservoir, providing location perforated channels in the region characterized by the presence of the more mobile of hydrocarbons, wherein when performing operations orientation working bodies perforator monitor angle position of working organs of the punch in a plane perpendicular to the longitudinal axis of the borehole. 2. The method according to p. 1, characterized in that the angle of the position of the working bodies of the punch is carried out using biaxial sensors that measure gravity projections on the sensitivity axis, oriented orthogonally to each other and located in a plane perpendicular to the longitudinal axis of the punch body.