RU185927U1 - DEVICE FOR DRILLING LONG HORIZONTAL WELLS - Google Patents

Abstract

The utility model relates to the oil and gas industry and is designed for drilling oil and gas wells with long horizontal ends, in particular, it can be used in the layout of the bottom of the drill string (BHA). The purpose of the utility model is to develop a device that will increase the technical and economic performance of drilling, by prevention of sticking of the drill string by creating the optimal load on the bit, i.e. development of the bottom element of the drill string and the expansion of functionality that will allow you to drill long horizontal sections of the wellbore, and eliminate the shortfall of the drilling tool to the design depth of the bottomhole. The technical result is a change in the static friction force on the sliding friction force, which significantly reduces the resistance to movement of the drilling tool. This goal is achieved in that the device comprises a cylindrical body with integrated rollers, some of which are kami support located at a certain distance from each other. Built-in rollers are in contact with the walls of the borehole, rotate and give forward movement to the entire layout of the bottom of the drill string. The rotation of the built-in rollers is due to the passage of the flow of the flushing fluid and the sliding friction force in the cylindrical body. The control unit allows you to record the spatial parameters of the well, the parameters of the drilling mode (axial load, flow rate of flushing fluid, rotational speed of the rock cutting tool, etc.).

Description

The utility model relates to the oil and gas industry and is intended for drilling oil and gas wells with long horizontal ends, in particular, it can be used in the layout of the bottom of the drill string (BHA).

Prerequisites for creating a utility model.

Analysis of the current level of technology in this field showed the following.

Today, most of the oil reserves are hard to recover, which have to be developed using horizontal wells, due to the maximum possible coverage of permeable sections of the reservoir. As you know, in the horizontal part of the borehole the layout of the bottom of the drill string lies on the bottom wall, which leads to a sticking of the layout and inhibition of the movement of the drilling tools, and at a certain moment the friction force increases so that the movement of the drilling tools stops. When drilling horizontal sections, collapses, screes are possible, and sludge settles, which leads to dune formation, contributing to the creation of emergency situations. Thus, insufficient axial load is created on the rock cutting tool - the bit, which in turn reduces the mechanical drilling speed, additional time is spent on posting a horizontal section or re-drilling the wellbore, i.e. carrying out repeated work, in connection with which the construction period of the well increases.

A well-known tractor (RF patent No. 2354801, IPC ЕВВ 23/00, dated May 10, 2009), including a housing, mechanisms for pressing or pressing wheels against the walls of the well, wheels pressed against the walls of the well and equipped with mechanisms that block the rotation of the wheels.

The reasons that impede the achievement of the required technical result by this device is the complexity of the design and operation and the high probability of failure of the retractable devices.

The closest analogue of the claimed technical solution is a device for delivering devices to a horizontal well (RF patent No. 2236549, IPC ЕВВ 23/14, 09/20/2004), which contains a cylindrical body, an electric motor, a pump, a hydraulic motor, wedging supports, an activator of wedging supports wheels. This device allows you to transport geophysical instruments in the horizontal part of the wellbore.

The disadvantage of this device is that this device is not applicable for drilling a well, as the equipment descends into the wellbore on a wireline cable.

The purpose of the utility model is to develop a device that will increase the technical and economic performance of drilling by preventing the sticking of the drill string by creating the optimal load on the rock cutting tool - a bit, i.e. development of an element of the bottom of the drill string and the expansion of functionality that will allow you to drill long horizontal sections of the wellbore, and eliminate the shortfall of the drilling tool to the design depth of the bottom.

The technical result is a change in the static friction force on the sliding friction force, because of this, the resistance to movement of the drilling tool is significantly reduced.

This goal is achieved in that the device for drilling long horizontal wells contains a cylindrical body with integrated rollers, some of which are pivots located at a certain distance from each other. Built-in rollers contact and interact with the walls of the borehole, rotate and give forward movement to the entire layout of the bottom of the drill string. The rotation of the built-in rollers occurs due to the passage of the flow of the flushing fluid and the sliding friction force in the cylindrical body, providing fastening in the rock with the possibility of pushing the drilling tool. The control unit includes built-in sensors for measuring spatial parameters and parameters of the drilling mode, which allows you to record the spatial parameters of the well, parameters of the drilling mode (axial load on the bit, flow rate of flushing fluid, rotational speed of the rock cutting tool, etc.), with the possibility of transmitting parameters hydraulic communication channel to the surface.

The inventive utility model is illustrated using the accompanying drawings, where

- FIG. 1 shows a device for drilling long horizontal wells;

FIG. 2 shows a device for drilling long horizontal wells, front view.

A device for drilling long horizontal wells (Fig. 1, Fig. 2) comprises a cylindrical body 1, a control unit 2, integrated rollers 3, an internal thread 4 and an external thread 5.

A device for drilling long horizontal wells works as follows.

At the drilling site, the assembly of the bottom of the drill string is performed, consisting of a rock cutting tool, a downhole screw motor, support-centering devices, which include a device for drilling long horizontal wells. This device is fixed in the layout of the bottom of the drill string using threaded connections - internal 4 and external 5 threads. After assembly, the BHA is lowered to the bottom of the well for drilling an extended horizontal section. To start the device include drilling pumps and create a circulation of flushing fluid, providing the necessary pressure to activate the device, as a result of which the built-in rollers 3 go into working position. Changing the resting friction force to the sliding friction force significantly reduces the resistance to movement of the drilling tool. The flow of flushing fluid passes through a cylindrical body 1, in which the built-in rollers 3 rotate, and thus, the flow of flushing fluid drives the entire layout of the bottom of the drill string. The control unit 2 serves to read the parameters of the spatial position of the well and drilling modes: flow of flushing fluid at the bottom, rotational speed of the rock cutting tool, axial load on the bit. All parameters are transmitted via a hydraulic communication channel to the surface, where the received data is controlled if necessary.

The advantage of the utility model is its relative cheapness due to the fact that the device does not require additional electric communication lines, cables, since it is an autonomous system. The descent and lifting of equipment into the well is made by a single arrangement to the calculated depth.

The use of a device for drilling long horizontal wells increases the functionality, due to the fact that it allows to eliminate or minimize emergency situations associated with the drilling of horizontal sections, in which complications are possible, and the absence of the need for an over-bit module reduces the cost of the design, as well as this the device ensures that the drilling tool reaches the design face in horizontal sections.

Together, this helps to reduce energy costs, reduce well construction time, increase the efficiency and reliability of drilling, which ensures high technical and economic indicators.

Claims (1)

A device for drilling long horizontal wells, consisting of a cylindrical body and rollers, characterized in that it contains integrated rollers, some of which are pivots located at a certain distance from each other, and a control unit, while the built-in rollers are made with the possibility of contact and interaction with the walls of the wellbore, rotation due to the passage of the flow of flushing fluid and sliding friction, fixing in the rock with the possibility of pushing the drilling tool, and in the control unit includes built-in sensors for measuring spatial parameters and parameters of the drilling mode — axial load on the bit, flow rate of flushing fluid at the bottom, rotational speed of the rock cutting tool with the ability to transfer parameters via a hydraulic communication channel to the surface.

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