RU199437U1 - PROTECTIVE CENTRALIZER - Google Patents

Abstract

The utility model relates to petroleum engineering and can be used in hydrocarbon production, in directional, deviated, horizontal and complex-profile wells. The technical result achieved during the implementation of the claimed utility model consists in reducing the eccentric position of the tubing string and increasing the operational characteristics of the device due to the absence of tubing displacement, which reduces damage to the tubing pipe and cable line during tripping operations. A protective centralizer with a cable channel, characterized in that it contains a housing, inside which the cable channel runs longitudinally to it and along its entire length, a clamping half-coupler made of at least two parts, which are installed mirror-like and adjacent to each other, are hinged on one side with the body, and on the other hand are made with the possibility of attachment to each other by means of a detachable fastening connection to form an internal cavity for placing the tubing pipe, while the body and the clamping half-coupler are made with ribs on the outer surface, which are equipped with rollers located in pairs in the center of the ribs and even along the circumference of the protective centralizer, while on the outer surface of the body and the clamping half-coupler, longitudinal bypass channels are formed between the ribs. 1 wp cl, 4 dwg

Description

The utility model relates to petroleum engineering, in particular, to a protective roller centralizer / roller protector of cable lines (RPKL), and can be used in the production of hydrocarbons in deviated, deviated, horizontal and complex-profile wells.

Currently, the main type of production wells are vertically-horizontal branched wells with a complex profile, with horizontal and complex-profile sections within oil and gas reservoirs. Such wells are built in order to maximize oil recovery and production rate. Also, the most important modern direction is the restoration of idle or low-rate wells by drilling in additional directional and horizontal sections. Such methods of hydrocarbon extraction can significantly increase the flow rate and the coefficient of oil recovery from the reservoir, and the qualified application of the methods can significantly improve the quality of exploration work and reduce the cost of them, many times the production of hydrocarbons by the borehole method. The solution of the most complex technical problems in the implementation of this method is problematic without the use of special equipment.

One of the main problems is the running and lifting of the tubing string and the submersible pump into the horizontal section of the well.

When carrying out trips in horizontal sections of a well with a long duration (for example, more than 1000 meters), tubing pipes, 8 to 10 meters long, sag under their own weight. In this case, the contact area of the tubing pipes with the casing increases. The friction forces of the tubing against the casing become so great that they make further running impossible - the weight of the vertical pipes is not enough for further movement. The so-called "unloading" of the tubing string takes place. All this significantly complicates tripping in wells with a horizontal section. This complication can lead to the occurrence of stuck pipes due to adhesion of the tubing string to the wall of the production casing of the well, sand drift during operation, which will make it difficult or even impossible to retrieve the tubing string and with downhole equipment to the surface.

This circumstance also often leads to damage to cable lines - the cable is stripped and damaged when it gets between the tubing and the casing of the well, and increased wear and damage of the tubing string is caused by its eccentric location in the well.

Similar solutions are currently known.

So, from the description to the patent of the Russian Federation No. 124302, 08/13/2012, a centralizer for fastening an electric cable on the body of a tubing is known, containing a housing with a cable channel and a cover made in the form of at least one clamping half-coupler and forming, when connected to casing an internal cavity for placing the tubing.

The disadvantage of this device is that it does not sufficiently reduce the friction forces and the eccentricity of the tubing string in the horizontal sections of the well.

From the description of the patent EP 1246996 B1, a friction reduction device during tripping operations in a well is known. The device contains a body with at least one clamping half-coupler (the body consists of half-parts), which is pivotally connected to the body on one side, and on the other side is attached to the body by means of a detachable fastening connection, while the body and the clamping half couplings are equipped with rollers. The device has one or more channels for the passage of liquid. This source can be taken as a prototype.

Various devices are also known for centering and reducing the longitudinal friction of drill pipes, casing and tubing pipes in a well (patent documents: WO 2012138813, 11.10.2012; EP 0778914, 18.06.1997; EP 1029146, 23.08.2000; EP 0824629, 25.02 .1998.

The disadvantage of these devices is that all of the above devices do not sufficiently reduce the eccentric location of the tubing string, which leads to increased wear and damage to the tubing string.

The technical result achieved during the implementation of the claimed utility model consists in reducing the eccentric position of the tubing string and increasing the operational characteristics of the device due to the absence of tubing displacement, which reduces damage to the tubing pipe and cable line during round-trip operations.

The specified technical result is achieved in that the protective centralizer with a cable channel contains a housing, inside which the cable channel runs longitudinally to it and along its entire length, a clamping half-coupler made of at least two parts, which are installed mirrored and adjacent to each other, on one side are hingedly connected to the body, and on the other they are made with the possibility of attachment to each other by means of a detachable fastening connection to form an inner cavity for placing the tubing pipe, while the body and the clamping half-coupler are made with ribs on the outer surface, which are equipped with rollers located in pairs in the center of the ribs and uniformly around the circumference of the protective centralizer, while on the outer surface of the housing and the clamping half-coupler between the ribs, longitudinal bypass channels are formed.

Moreover, the protective centralizer with a cable channel can be made of steel or cast iron, which increases the operational characteristics of the device.

At the same time, the execution of the cable channel longitudinally to the body and along its entire length, as well as the body and the clamping half-coupler with ribs on the outer surface, which are equipped with rollers located in pairs in the center of the ribs and evenly around the circumference of the protective centralizer, and the implementation on the outer surface of the body and the clamping half-coupler between the ribs of the longitudinal bypass channels leads to a decrease in the eccentric position of the tubing strings, which, in turn, reduces wear and damage to the tubing string and improves the performance of the protective centralizer.

The cable channel runs inside the housing longitudinally and along its entire length, which allows the cable to be placed inside the protective centralizer without displacement of the tubing string relative to the central axis of the protective centralizer, which, in turn, reduces eccentricity and increases the operational characteristics of the device.

The cable line is hidden in the body and runs evenly along the entire length, simplifies its location in the device, prevents bends during installation and operation of the declared device and the tightness of fastening, as well as the reliability of fastening the cable line together with the tubing pipe and increases the operational characteristics of the device.

The arrangement of the rollers in pairs in the center of the ribs and evenly around the circumference of the protective centralizer improves the centering of the tubing string in the well and increases the operational characteristics of the device.

Also, the arrangement of the rollers in pairs in the center of the ribs and evenly around the circumference of the protective centralizer increases the reliability, maneuverability and centering of tubing pipes and downhole equipment in deviated, curved, horizontal and complex-profile wells and, as a result, increases protection against damage during tripping operations, which increases operational device characteristics.

The arrangement of longitudinal bypass channels between these ribs evenly around the circumference of the protective centralizer also leads to an improvement in the centering of the tubing string in the well and serves to reduce the eccentric position of the tubing string and increases the operational characteristics of the device, due to the absence of displacement it reduces damage to the tubing pipe and cable line during tripping operations.

The clamping half-coupler consists of at least two parts, which are installed mirror-like and adjacent to each other, thus at least one (two, three, four and more) clamping half-couplers are formed, which increases the reliability of the cable line and tubing pipe, as well as their protection from damage.

The essence of the utility model is illustrated by drawings, where:

figure 1 shows a general view of a protective centralizer with a cable channel during tripping operations in a well with closed parts of the clamping half-coupler;

figure 2 is a general view of a protective centralizer with a cable channel during round-trip operations in a well with open parts of the clamping half-coupler;

figure 3 is a general view of a protective centralizer with a cable channel during tripping operations in a well, mounted on a pipe together with a submersible cable line;

figure 4 is a general view of a protective centralizer with a cable channel during tripping operations in a well, mounted on a pipe together with a submerged cable line (in a cross-section of a pipe and a cable line).

A protective centralizer with a cable channel during tripping operations in a well (Figures 1-4) is a body 1 containing at least one clamping half-coupler 2, which, when connected to the body, forms an internal cavity 9 to accommodate tubing 7 and a cable channel 10 for placing in it a cable line 8. In this case, the clamping half-yoke 2 is made of at least two parts, which are installed mirror-like and adjacent to each other and are attached to the housing 1 on one side by means of a hinged joint 4, and on the other hand are made with the possibility of attachment to each other by means of a detachable fastening connection 3. In this case, the body 1 and the clamping half-coupler 2 are made with ribs (the position is not shown in the drawing) on the outer surface, which are equipped with rollers 5 located in pairs in the center of the ribs and evenly around the circumference of the protective centralizer, while the outer surface of the body 1 and the clamping half-coupler 2 between the ribs formed longitudinal bypass channels 11. Ro Faces 5 are fixed on axles 6.

The installation of a protective centralizer with a cable channel during tripping operations in the well on the tubing pipe is carried out as follows.

Disconnect the parts of the clamping half-coupler 2 from each other by unscrewing the detachable connection 3, while the parts of the clamping half-coupler 2, hinged to the body 1, are not disconnected (figure 2). The body 1 is installed on the tubing 7 pipe, placing the tubing 7 in the cavity 9, and parts of the half-coupler 2 are fastened to each other by means of a bolted detachable connection 3. The cable line 8 is pressed against the tubing 7 pipe using the cable channel 10 (figure 3).

The central axis of the tubing 7 pipe coincides with the central axis of the outer dimension of the mounted protective centralizer with a cable channel during tripping operations in the well, while the rollers 5 protrude relative to the body 1 and (parts) of the clamping half-coupler 2, thereby reducing the eccentricity of the tubing string and reducing the friction coefficient ... Longitudinal bypass channels 11 for fluid passage are located between the rollers 5 (Figure 4).

A protective centralizer with a cable channel in the well is pulled together when installing a detachable bolted connection so that the tubing pipe and cable lines remain inside this device.

Thus, a protective centralizer with a cable channel is mounted in the well on the tubing body and cable lines.

The protective centralizer with a cable channel in the well of the proposed design is designed for multiple use.

Claims (2)

1. Protective centralizer with a cable channel, characterized in that it contains a housing, inside which the cable channel passes longitudinally to it and along its entire length, a clamping half-coupler made of two parts, which are installed mirror-like and adjacent to each other, on one side are hingedly connected to casing, and on the other hand, made with the possibility of attachment to each other by means of a detachable fastening connection to form an inner cavity for accommodating the tubing pipe, while the casing and the clamping half-coupler are made with ribs on the outer surface, which are equipped with rollers located in pairs in the center of the ribs and evenly along the circumference of the protective centralizer, while on the outer surface of the body and the clamping half-coupler between the ribs, longitudinal bypass channels are formed. 2. Protective centralizer with a cable channel according to claim 1, characterized in that it is made of steel or cast iron.

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