RU2762900C1 - Method for secondary penetration of a layer - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to the oil and gas industry, namely, to methods for secondary penetration of a borehole. The method includes preliminary creation of perforations in the borehole wall and the annulus cement ring and subsequent deepening of the perforation channels in the layer. Prior to preliminary penetration, an anchor equipped with a guiding head on top is installed in the borehole below the layer penetration interval. Preliminary creation of perforations is executed with a cumulative perforator, prior to lowering equipped with an orientation coupling configured to interact and be guided, when being lowered into the borehole, with the guiding head of the anchor, and preliminary shaped charges providing large holes and installed in pairs along the height of the perforator. The paired shaped charges are spaced by 180±5° along the perimeter of the perforator. After preliminary creation of holes in the borehole wall, the perforator is removed and the preliminary spent charges are replaced with deepening shaped charges ensuring deep penetration into the layer. The perforator is lowered until interaction of the guiding anchor head and perforator coupling in order to guide the perforator along the height and perimeter of the borehole and align the preliminary perforations with the deepening shaped charges.

EFFECT: time for penetration of the borehole walls is reduced.

1 cl, 1 dwg

Description

The invention relates to the oil and gas industry, and to the methods of secondary opening of a well in two stages.

There is a known method of secondary opening with a cumulative perforator (US patent No. 4756371, IPC E21B 37/00, E21B 43/114, E21B 43/117, publ. 12.07.1988), including lowering a cumulative perforator on a pipe string in at least one jetting cavity of a jet perforator , opening the casing string with cumulative shells through the jetting nozzles with the formation of multidirectional channels, the subsequent deepening of these channels with jetting jets from the jetting nozzles with their possible connection and flushing the corresponding multidirectional channels.

The disadvantages of this method are a narrow area of application associated with the limited effective operating interval (usually no more than 10 m) of the jetting action (due to the pressure drop in the jetting nozzles), that is, for longer intervals, installation and action with several tripping operations is required, which due to lowering on the pipe string, they require large non-production costs of time, at the same time low reliability, since the impact on the jet nozzles with cumulative shells and a jet jet quickly disables the entire jet chamber, which is very difficult in this method for manufacturing, repair and maintenance ...

Also known is a cumulative perforator (patent for PM RU No. 52442, IPC Е21В 43/117, publ. 03/27/2006 Bull. No. 9), containing at least one body, one module in the form of a frame for placing shaped charges in it, interconnected by a detonation chain in the form of a detonation cord, and is equipped with shaped charges, ensuring the production of large holes, and shaped charges, providing deep penetration into the formation, made in the same housings and placed in the sockets of the frame with holders of shaped charges, in a sequence set taking into account properties and characteristics of the formation.

This device implements a method of secondary opening of the formation, including lowering the perforator into the well and setting it at a given depth, after which an electrical impulse is applied during the descent on the cable, and during the descent on the tubing, the rod is lowered into the well to trigger the fuse or mechanical explosive head, respectively , as a result, the detonation chain and multidirectional shaped charges are triggered, providing large holes, and shaped charges that provide deep penetration into the formation, which pierce the casing, the fluid layer in the well, the casing, the cement layer and form channels in the rock, providing communication formation with a well, while shaped charges, providing large holes, pierce holes with a large diameter, but shallow depth, and shaped charges, providing deep penetration into the formation, pierce deep holes, but small diameter.

The disadvantages of this method is a narrow field of application due to the impossibility of using it in wells with double casing pipes (casing plus volley, casing plus inner liner, transition from the conductor to the casing, etc.), since the charges are multidirectional, and shaped charges that provide deep penetration into the formation are not effective for opening double pipes 2002.- 298 p .: ill. RSL OD, 71 03-5 / 142-8), and shaped charges that provide large holes, a priori, due to shallow penetration, cannot ensure high-quality opening of the formation.

The closest in technical essence is the method of secondary opening of the productive formation (patent RU No. 2205942, IPC Е21В 43/114, publ. liquid through a hydraulic perforator, lowered on pipes, with pumps from the surface of the well, characterized in that holes in the wall of the casing are created using a drilling perforator on the cable, then a hydraulic perforator with hard-alloy nozzles searches for perforations by supplying 25-30% of the volume of the working fluid, for whereby the readings of the flow rate and pressure of the working fluid are recorded, while the penetration or non-penetration of the jet into the perforation hole is judged by the change in the flow rate and pressure of the working fluid, after which the flow rate and pressure of the working fluid are increased to the design ones and the channel is further deepened by hydroperforation.

The disadvantages of this method are the complexity and high time costs for opening the formation associated with the opening of the casing with perforations with a drilling perforator, which requires the use of complex equipment and several installations with an offset in height and perimeter for each perforation hole, lowering the hydraulic perforator pipes on the string and combining jetting hard-alloy nozzles with perforations spaced along the height and perimeter of the well.

The technical objective of the proposed invention is to create a method for secondary opening of the formation, which makes it possible to reduce the time for opening the walls of the well and deep penetration into the formation of perforation channels due to the sequential installation of a cumulative perforator in the same place using an orientation anchor, which simplifies the installation and orientation of opening the walls of the well by cumulative charges that provide large holes to form these perforations, which are then deepened with shaped charges that provide deep penetration into the formation.

The technical problem is solved by the method of secondary opening of the formation, including the preliminary creation of perforations in the borehole wall and the annular cement ring and the subsequent deepening of the perforations in the formation.

What is new is that before the preliminary opening below the interval of opening the formation, an anchor is installed in the well, equipped with an orientation head on top, preliminary creation of perforations is performed with a cumulative perforator equipped with an orientation collar before running, installed with the possibility of interaction and orientation when running into the well with an orientation head of the anchor , and preliminary shaped charges, providing large holes and installed in pairs along the height of the perforator, and the paired shaped charges are spaced around the perimeter of the perimeter by 180º ± 5º, after preliminary creation of perforations in the borehole wall, the perforator is removed from the well and the preliminary spent charges are replaced with deepening shaped charges , providing deep penetration into the formation, the perforator is lowered before the interaction of the orientation head of the anchor and the perforator sleeve to orient the perforator along the height and perimeter with wells and alignment of preliminary perforations with deepening shaped charges for subsequent deepening of perforations in the formation.

It is also new that the anchor is equipped with a packer before running in order to isolate the inner space of the well after installation.

The drawing shows a diagram of the implementation of the method.

Structural elements and technological connections that do not affect the implementation of the method are not shown in the drawing or are shown conditionally.

The method of secondary opening of formation 1 includes the installation of an anchor 2 (shown conditionally), equipped with an orientation head 3 on top, below the interval of opening formation 1 in well 4 with at least one casing 5. A packer (not shown) with an anchor 2 is installed when protection against hydraulic hammer arising from cumulative perforation, the well zone below the installation of anchor 2. The author does not pretend to designs and methods for installing anchor 2 with and without a packer, since they are known from open sources (see patents PM RU No. 2397306, 2101461, on PM No. 69559, 66776, 154295, etc.). After that, a cumulative perforator 7 is lowered on a geophysical cable 6, equipped with an orientation sleeve 8 installed with the possibility of interaction and orientation when running into a well 4 with an orientation head 3 of the anchor 2. For the first run, the perforator 7 is supplied with preliminary cumulative charges 9 providing large holes 10 in the casing pipes 5 of the well 4 and installed in pairs along the height of the perforator 7. Tentative head 3 of the anchor 2 and the corresponding orientation sleeve 8 of the perforator 7 can be made of any design, for example, the tentative head 3 in the upper inlet cone having one or two protrusion or grooves on the lateral surface, and the orienting sleeve is a cone from below with one or two grooves or protrusions for the same orientation of the perforator 7 relative to the anchor 2 and, as a consequence, relative to the well 4 along the interval and inner perimeter; also orienting head 2 and coupling 8 can be as described in patents for PM RU 167387, 159875 or the like - the authors do not claim the design of orienting head 2 and coupling 8. After installing the perforator 7 with an orientation sleeve 8 on the orientation head 3 of the anchor 2, an electrical impulse is supplied through the geophysical cable 6, which activates preliminary cumulative charges 9, which burn large holes 10 in the casing pipes 5 of the well 4. Perforator 7 with an orientation sleeve 8 using a geophysical cable 6 is removed from the well 4 and the spent preliminary charges 9 are replaced with deepening shaped charges 11, providing deep penetration 12 into the formation 1. The perforator 7 is lowered into the well 4 until the interaction of the orientation collars 8 of the perforator 7 and the head 3 of the anchor 2 to orient the perforator 7 in height and the perimeter of the well 4 and the alignment of the preliminary perforation large holes 10 with deepening shaped charges 11. Since in the manufacture of the perforator 7, the paired shaped charges 9 and 11 are spaced around the perimeter of the perforator 7 at an angle of 180º ± 5º, then after the interaction of the orientation collars 8 of the perforator 7 and the head 3 anchors 2 the alignment of large holes 10 with deepening shaped charges 11 is practically guaranteed. After that, an electrical impulse is supplied through the geophysical cable 6, which activates deepening cumulative charges 11, which, passing through large holes 10 in the casing pipes 5 of the well 4, provide deep penetration 12 directly into the formation 1, ensuring guaranteed hydraulic communication of the formation 1 with the wellbore, regardless of the amount casing 5 in the interval of opening by the perforator 7 and the thickness of the cement stone 13 and 14 between the pipes 5 and the cement annulus of the well 4, respectively. The perforator 7 using the geophysical cable 6 is removed from the well 4 to the surface, the necessary downhole equipment (not shown) is lowered into the well 4, the wellhead (not shown) is installed at the wellhead (not shown) of the well 4 and the well is put into operation as an injection or extractive (the author does not claim this). If necessary, anchor 2 with or without a packer can be drilled or removed, depending on the design (the author does not pretend to be). The time spent on tripping operations of the perforator 7 and double cumulative impact for the secondary opening of reservoir 1 for the opening interval of 1120 - 1210 m in total amounted to 88 minutes, and for the interval 720 - 790 m 57 minutes, which is 7 - 8 times less. than in the closest analogue.

The proposed method of secondary opening of the formation allows to reduce the time for opening the walls of the well and deep penetration into the formation of perforation channels due to the sequential installation of a cumulative perforator in the same place using an approximate anchor, which simplifies the installation and orientation of opening the walls of the well with shaped charges that provide large holes. to form these perforations, which are then deepened with shaped charges that provide deep penetration into the formation.

Claims (2)

1. The method of secondary opening of the formation, including the preliminary creation of perforations in the borehole wall and the annular cement ring and the subsequent deepening of the perforation channels in the formation, characterized in that before preliminary opening below the interval of opening the formation in the well, an anchor is installed, equipped with an orientation head on top, preliminary creation perforation holes are produced with a shaped-charge perforator equipped with an orientation collar before launching, installed with the possibility of interaction and orientation during running into the well with an orientation head of the anchor, and preliminary shaped charges providing large holes and installed in pairs along the height of the perforator, and the paired shaped charges are spaced around the perimeter of the perforator by 180 ± 5 °, after preliminary creation of perforations in the borehole wall, the perforator is removed from the borehole and the preliminary spent charges are replaced with deepening cumulative The perforating charges providing deep penetration into the formation, the perforator is lowered before the interaction of the rough anchor head and the perforator collar to orient the perforator along the height and perimeter of the well and align the preliminary perforations with deepening shaped charges for further deepening the perforations in the formation. 2. The method of secondary opening of the formation according to claim 1, characterized in that the anchor is equipped with a packer before running in to isolate the inner space of the well after installation.

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