RU178932U1 - Centralizer for perforator - Google Patents

Abstract

The centralizer for a perforating-explosive apparatus belongs to the field of geophysical research in wells, it is used to center cumulative perforators and complex apparatuses with external solid propellant charges (TTZ), lowered by geophysical cables into oil and gas wells. The technical result of the proposed technical solution is to make the centralizer rotate with protrusions in runners, from a material with a reinforcement of the cut, comprising 2/3 of the breaking strength of the armored geophysical ca bleaching, which ensures undocking of the apparatus from centralizers in case of sticking and prevents breakage of the geophysical cable with the apparatus leaving in the well, as well as more accurate axial movement of the apparatus along the well during descent / ascent and in the perforation interval, more uniform distribution of the abrasive load on the narrow protrusions of the runners along the entire surface of the rotating centralizer. This improves the protective properties of the centralizer as a means of protecting against the abrasion of external solid propellant charges in complex devices, which put tionary effect on the characteristics of penetration of the shaped charges. 4 ill.

Description

The centralizer for a perforating-explosive apparatus belongs to the field of geophysical research in wells; it is used to center cumulative perforators and complex apparatuses with external solid propellant charges (TTZ), lowered by geophysical cables into oil and gas wells.

Known devices for centering downhole tools of lever and spring types (Zeltsman P.A. Design of equipment for geophysical research of wells. M .: Nedra, 1968).

Such devices are structurally complex and are prone to failure due to destruction during an explosion.

The design of the centralizer according to the patent RU No. 2162514 “Method of perforation and treatment of the bottomhole zone of the well and a device for its implementation” dated March 30, 2000, published January 27, 2001, IPC E21B 43/117, E21B 43/18, E21B 43/25, E21B 43 / 26 (2000.01), in which the device is equipped with centralizers, excluding the movement of the perforation chamber relative to the casing, under explosive loading.

This design has an increased complexity of assembly.

The design of the punch centralizer is known in the form of retaining-restrictive screws protruding beyond the generatrix of the housing over a distance exceeding the maximum size of burrs resulting from the explosion of cumulative charges, according to patent RU No. 84059 U1 "Small-sized case shaped-charge cumulative perforating gun" dated 02.03.2009, published on June 27, 2009 , IPC E21B 43/116 (2006.01), in which the articulation of the sections of the casing between each other through the adapter is performed without thread on the casing, by means of retaining screws.

This design allows you to only center the perforator in the well, but does not help to reduce the friction of the perforator against the wall of the well.

The closest technical solution is the "Centralizer for cumulative punch" according to patent RU No. 96174, dated 24.03.2010, published: 07/20/2010, IPC E21B 43/117 (2006.01) characterized in that it is made in the form of a sleeve with longitudinal petals, the outer surface, and in the bore of the sleeve there is a thrust shoulder.

This device has the potential to create an emergency, because after the perforator (perforator-generator) is activated, paraffins, asphaltenes, and other agents are separated from the walls of the well, collector particles can be carried out from overlying intervals, which can lead to jamming of the device and cable breakage during lifting. The centralizer on the housing after twisting the adapter is fixed, becomes stationary, which also contributes to jamming.

The objective of the proposed technical solution is the unhindered passage of the assembly of the perforation system in the well, as well as the ability to undock the apparatus from the centralizers in case of sticking.

The problem is solved by a centralizer for a perforated explosive device, made in the form of a sleeve, in the hole of which a shoulder is made, while the sleeve is placed on the device with the possibility of rotation around the axis of the device; protrusions in the form of runners are placed on the outer surface of the sleeve; the centralizer is made of easily drilled material, for example, of an aluminum alloy satisfying the ratio

nτS≤ P _p , (1)

where τ is the allowable stress on the slice of the material of the centralizer;

S is the sum of the cross-sectional areas of the parts of the centralizer shoulder;

R _p - tensile strength termination geophysical cable;

n is the safety factor.

Placement on the apparatus with the possibility of rotation around the axis of the apparatus of the hub of the centralizer, made of easily drilled material, for example, of aluminum alloy, with protrusions in the form of runners and with a collar with a selected cross section that provides an allowable shear stress, less than the tensile strength of the geophysical cable, which allows you to undock the device from the centralizers in case of sticking, and prevents breakage of the geophysical cable with the device leaving in the well, while providing more accurate axial advancement ata in the well during the descent / ascent, a more uniform distribution of abrasive load on the protuberances of the runners over the entire surface of the rotating centralizer, which improves its protective properties as a means of protection against abrasion exterior solid charge in complex machines and has a positive effect on the characteristics of penetration of the shaped charges.

The centralizer for a perforated explosive device is shown in the drawings, where:

- in FIG. 1 shows a perspective view of a centralizer,

- in FIG. 2 shows a perspective view of a centralizer installed on the apparatus,

- in FIG. 3 shows a section through a fixation point mounted on a centralizer apparatus,

- in FIG. 4 shows a diagram of undocking the centralizer from the apparatus,

In FIG. 1,2,3,4, sleeve 1 is shown, protrusions 2 in the form of hollows, shoulder 3, adapter 4 of the apparatus, housing 5 of the apparatus, clearances 6.

The centralizer for the perforated explosive device is made as follows.

The centralizer is made in the form of a sleeve 1 of a cylindrical shape with an internal hole, in the hole of which is made of several beads 3 evenly distributed around the circumference.

The sleeve 1 is placed between the housing 5 and the adapter 4 of the apparatus, with the possibility of rotation around the axis of the apparatus due to the gaps 6.

When twisting the connected elements of the apparatus - the housing 5 and the adapter 4, a groove is formed in which the collar 3 of the centralizer with gaps 6 is placed, which enable the centralizer to rotate around the axis of the apparatus, which is important to improve the passage and removal of the apparatus, as well as to ensure uniform wear of the rubbing contact surfaces protrusions 2 in the form of runners, providing accurate axial advancement of the apparatus in the well during descent / ascent.

In analogs, when the centralizer is rigidly fixed in deep wells, the process of intensive abrasion of the protrusions during the descent process does not provide the required centering of the apparatus, which entails a decrease in the value of penetration of cumulative charges, and also leads to a mechanical effect on solid fuel charges of complex impact apparatuses.

In the proposed technical solution, in order to minimize deviation from the axis of the lowered perforating apparatus during descent / ascent and positioning on the perforation interval on the outer surface of the sleeve 1, several protrusions 2 in the form of skids are evenly distributed in order to optimize the contact area of the abraded skids with the walls of the casing.

To prevent jamming of the apparatus and breakage of the armored geophysical cable, when lifting the apparatus from the well, the collar with collar 3 is made of easily drilled material, for example, aluminum alloy, with a shear force of the protruding parts, less than the breaking strength of the cable used, satisfying the ratio:

nτS≤ P _p , (1)

where τ is the allowable stress on the slice of the material of the centralizer;

S is the cross-sectional area of the shoulder (the sum of the cross-sectional areas of the stop parts) of the centralizer;

R _p - tensile strength termination geophysical cable;

n is the safety factor.

The fulfillment of the ratio according to formula (1) in the case of sticking, will provide the possibility of cutting the shoulder 3 when tensioning the geophysical cable by an amount less than the gap of termination of the geophysical cable in the cable lug, will allow you to remove the apparatus, which is important for assessing the completeness of the charges, and eliminates the abandonment foreign objects, and can ensure the safety of expensive devices included in the assembly (autonomous pressure gauge, etc.).

The centralizer for the perforated explosive device works as follows.

A centralizer is installed on the body 5 of the equipped perforator or complex impact apparatus, on the opposite side of which an adapter 4 is screwed. When the apparatus is lowered into the well for the treatment interval, due to the gap centralizer 6 formed between the adapter 4, the body 5 and the shoulder 3, the centralizer rotates freely the housing 5 of the apparatus, which more evenly distributes the abrasive load on the protrusions 2 in the form of runners, and contributes to the easier overcoming difficult passable sections of the well.

The reduced wear of the runners of the protrusions 2 provides a more accurate centering of the punch or apparatus in the interval, which has a positive effect on the characteristics of penetration of cumulative charges, and also allows you to maintain the integrity of the external solid fuel charges, if applied.

After perforating and blasting operations in the required perforation interval, especially in the old well stock, it is possible to shed scale and various deposits from the walls of the well, which can lead to the accumulation of these deposits on the upper part of the apparatus and subsequent sticking. The gaps 6 formed by the shoulder 3, the adapter 4 and the housing 5 of the apparatus allow the centralizer to rotate freely in its seat, which positively affects the release and removal of the apparatus.

In exceptional cases, when the volume of accumulated deposits and other sludge on the upper part of the apparatus leads to a sticking that cannot be eliminated by the standard pacing operation - tensioning / releasing the geophysical cable, the geophysical cable creates such a tension of the geophysical cable that will cut the shoulder 3 of the stuck centralizer, releasing apparatus and its free extraction to the surface.

The remains of the centralizer - the sleeve 1 with the protrusions 2 in the well can be easily eliminated by drilling, the speed of which is positively influenced by the performance of the material from aluminum alloy.

The production of Promperforator LLC manufactured and tested in borehole conditions a batch with centralizers in the form of bushings made of material with a permissible shear stress of 40 MPa.

So, for a device with a diameter of 73 mm, the cross-sectional area of the shoulder was S = p * 74 * 10 ^-3 * 4 * 10 ^-3 = 600 * 10 ^-6 m ² and the shear force 600 * 40 = 24 kN, which is 2/3 of breaking strength (37 kN) of termination of an armored geophysical cable, i.e. safety factor is 1.5.

The technical result of the proposed technical solution is that the centralizer is rotated, with protrusions in the form of runners, made of a material with a shear reinforcement of 2/3 of the breaking strength of the armored geophysical cable, which ensures that the device is undocked from the centralizers in case of sticking, and prevents the geophysical cable from breaking leaving the apparatus in the well, as well as more accurate axial advancement of the apparatus in the well during the descent / ascent and in the perforation interval, a more uniform distribution The abrasion load on the narrow protrusions of the runners on the entire surface of the rotating centralizer, which improves its protective properties, as a means of protecting against abrasion of external solid propellant charges in complex apparatuses, and has a positive effect on the characteristics of penetration of cumulative charges.

Claims (6)

A centralizer for a perforated explosive device made in the form of a sleeve, in the opening of which a shoulder is made, characterized in that the sleeve for installing it on the device is made to rotate around the axis of the device, while protrusions in the form of runners are placed on the outer surface of the sleeve, the shoulder is made shear, and the sleeve is made of easily drilled material, for example, of aluminum alloy, satisfying the ratio nτS≤ P _p , where τ is the allowable stress on the slice of the material of the centralizer; S is the sum of the cross-sectional areas of the parts of the centralizer shoulder; R _p - tensile strength termination geophysical cable; n is the safety factor.

Images