RU2167266C2 - Technology of well construction - Google Patents

Abstract

FIELD: technology of well construction in geological structures; applicable in search and exploration of mineral deposits, particularly, hydrocarbon raw materials, in sinking of exploratory wells, producing wells and workings. SUBSTANCE: technology of well construction includes preparation of working area, installation of blowout preventer, pulling and running equipment. Blowout preventer is used with guide in the form of through cylinder forming wellhead and equipped with grips in which drilling apparatus is installed. Through cylinder has section of flexible yielding material. During sinking of well, its walls are lined with plasticized solution and low-melting substance sprayed on walls and treated with heat of working agent flowing from drilling apparatus. In tapping of producing formation, transducer registering presence of hydrocarbons and secured to apparatus body sends signal for shutoff of well cross-section. Control over well production rate is carried out by withdrawn hydrocarbons. In case of drop of well production rate, drilling apparatus is used again for drilling a side well into producing formation to increase area of fluid inflow. Simultaneously with sinking of side well, formation structure is subjected to acoustic treatment with flowing working agent due to regulation of process by working agent flow rate. EFFECT: reduced time, labor input, expenditures for well construction and its development for proper operation. 2 cl, 2 dwg

Description

 The invention relates to a technology for producing wells in geological structures for various purposes and can be used for drilling wells in hydrocarbon deposits.

 At present, the principal directions of the solutions of this technological program are known, the most representative of which can be considered the process of well formation, including preparatory work, arrangement of the wellhead, sinking of the well in rocks and fixing its walls, preparation of the well for operation.

 The closest technical solution from similar processes is the technology of well formation, including the preparation of the working site, the arrangement of the wellhead by installing a preventer, the sinking of rocks using a drilling apparatus, the fixing of the walls of the well, the opening of the reservoir / 1 /.

 At a certain efficiency, this method also has significant drawbacks in that all operations in it are performed separately with stopping cycles — this requires a significant investment of time and labor, leads to an increase in the cost of the process, requires the organization of processes for combining various basic operations, which at high the cost of each operation imposes the severity of costs on the cost of raw materials extracted.

 The technical result of this invention is to reduce labor costs and time for the entire process due to the sequential combination of all technological operations for the preparation of the process, the formation of wells and putting it into operation.

 The specified technical result in the invention is achieved due to the fact that in the well formation technology, including the preparation of the working site, the arrangement of the wellhead by installing a preventer, the sinking of the rocks using the drilling apparatus, the fixing of the borehole walls, the opening of the reservoir, the arrangement of the wellhead is carried out by installing a preventer with a guide in the form of a through cylinder, forming a wellhead, equipped with grippers in which the drilling apparatus is installed, and having a section of resilient of material, into the cavity between which and the wall of the preventer the working fluid is supplied, when a well is drilled using a drilling apparatus, its walls are fixed by supplying a plasticized solution and a low-melting substance is sprayed when the substance is exposed to temperature by the flow of a working agent flowing out of the specified drilling apparatus when opening this apparatus of the reservoir from the hydrocarbon registration sensor mounted on the body of this apparatus, sends a signal to block the cross section of the wellhead for by supplying a compressed working medium (liquid) to the specified cavity, while monitoring the flow rate of the well for discharged hydrocarbons, and with a decrease in flow rate, the area of hydrocarbon inflow to the well is increased due to the formation of a side well in the reservoir from the well section using the specified drilling apparatus, simultaneously with this penetration, acoustic effects are conducted on the formation structure.

 In this case, before the process of drilling a well beyond the preventer in the soil of the working platform at an angle to the axis of the well planned for drilling, an additional drilling apparatus is installed in the tubular guide, additionally equipped with an explosive charge, and this apparatus is turned on to shut off the section of the well in case of occurrence emergency or pre-emergency situation when driving a well.

The described well formation process is disclosed more fully by the example of its implementation and with reference to the technical means for its implementation, shown in the drawings, where
in FIG. 1 shows a general view of an apparatus for implementing well formation technology;
in FIG. 2 - installation option for driving several wells from one working platform;
in FIG. 3 and 4 - details of the guide of the preventer in FIG. 1.

 Initially, they are preparing a working site, including drainage, planning, supply of energy. After that, the preventer 1 is installed on the working site and equip the wellhead with it. The body and main structures of the preventer are mainly made of reinforced concrete. The preventer has a through cylinder 2, in which the grippers 3 are installed in the form of spring-loaded ball joints; in these grips, a drilling apparatus 4 is installed, which has a working body 5 and a node 6 with lower annular nozzles 7 and an upper annular nozzle 8.

 The through cylinder 2 is a guide for the drilling apparatus 4 and in its section 9 is made of thin, elastic-flexible material, for example, sheet spring steel; this resilient section covers the chamber 10, made in the body of the preventer (Fig. 1, 3, 4); this chamber has elastic membranes 11, the cavities between which are connected by a pipe 12 to a source 13 of compressed working medium driven by a control panel 14. This panel 14 also has a block 15 connected by a command line to the gripper drive 3; also has a block 16 connected by a communication line with the sensor 17, mounted on the housing of the drilling apparatus 4.

 This sensor 17 is a sensor for detecting the presence of hydrocarbons when the device 4 opens the reservoir.

 The preventer also has nozzles 18 for discharging the discovered hydrocarbon feedstock, which makes it possible to quickly organize its removal from the well cavity and its intended use.

 The entire installation is additionally equipped with a drilling apparatus 19 installed in a hollow tubular guide 20, in the soil of the working platform at an angle to the axis of the well being passed (Fig. 1). This additional drilling apparatus 19 is additionally equipped (to its main technical equipment) with an explosive charge 21 located in its upper part; this apparatus is designed to drill a well at an angle to the axis of a drilled well 22 in the event of an emergency or pre-emergency situation on a well 22, for example, when hydrocarbons suddenly enter the cavity of a drilled well 22, the apparatus 19 is put into operation.

The drilling of a well with a drilling apparatus 4 begins at the mouth with a traditional diameter (about 430 mm), then moving on to a diameter of about 330 mm, rock breakdown at the bottom is carried out using the drilling apparatus 4 and its working body 5 with the help of the working agent jets flowing under pressure; the walls of the drilled hole in the upper unstable horizons of sedimentary rocks are fixed with casing pipes, the beginning of which in the upper part is rigidly connected to the body of the preventer; further, the walls of the well to be drilled are fixed during the sinking and using the same drilling apparatus: plasticized cement mortar (or, based on a polymer binder) is applied from the annular nozzle 7 to the well walls, and then from the annular nozzle 8, the same walls are applied low-melting substance (for example, a melt of a mixture of polyethylene with polystyrene with a ratio of 3: 1 mh, respectively) at a melting point of about 130 ^o C; the temperature at the walls is maintained within 80-150 ^o C due to the expiring working agent from the working body 5 of the apparatus 4, this allows you to effectively and continuously fasten and monopolize the walls of the well, which are also additionally sealed and hardened by the overpressure maintained in the cavity of the well (about 50-200 kgf / cm ² ) from the working device 4. And when the device 4 opens the reservoir, the sensor 17 for registering hydrocarbons attached to it sends a signal to block the cross section of the wellhead; for this, a working fluid is supplied under pressure to the cavity between the wall of the preventer (Figs. 1.3 and 4); the fluid entering the cavity between the elastic membranes 11 (Fig. 1) compresses to the axis of the well (Figs. 3 and 4) a thin, elastic-flexible part 9 in the section of the guide cylinder and completely covers the section of the well in this section, preventing the release of hydrocarbons from the wellhead, - their tap is quickly organized through pipes 18 - for direct use.

 During the operation of the well, its production rate is monitored for discharged hydrocarbons, and with a decrease in production rate, the area of hydrocarbon inflow to the well is increased by forming a side well into the producing formation (Fig. 1) from the well section using the same drilling apparatus 4, while on the formation structure conduct acoustic impact either with the aid of an acoustic wave emitter mounted on the apparatus body, or with the help of the same working apparatus due to the pulsed supply of part of the jets from the working member 5 of the apparatus.

 In the event of an emergency or pre-emergency situation at the well 22, an additional apparatus 19 is put into operation, the well is passed with it at an angle to the axis of the well 22 and, when the apparatus 19 passes near the well bore 22, charge 21 is blown up and the shock wave from this explosion blocks the well 22 the depth of approach to it deviated wells and apparatus 19.

 Thus, the technical and technological advantages of the invention consist in organizing the continuity and sequence of all processes of well formation technology, thereby preventing cyclical and downtime in the technology, and increasing the overall technological culture of the entire process of preparation, drilling and commissioning of a well.

Sources of information
1. GREAT M. I. et al. Technique for drilling wells by combined methods. Moscow, Nedra, 1977, p. 50-53.1

Claims (2)

 1. The technology of well formation, including the preparation of the working platform, the arrangement of the wellhead by installing a preventer, the sinking of the rocks using the drilling apparatus, the fixing of the walls of the well, the opening of the reservoir, characterized in that the wellhead is installed by installing a preventer with a guide in the form of a through cylinder forming a wellhead, equipped with grippers in which the drilling apparatus is installed, and having a section of resiliently flexible material, into the cavity between which and the wall entors supply the working fluid, while drilling a well using a drilling apparatus, they fix their walls by supplying a plasticized solution and spraying a low-melting substance when the substance is exposed to temperature by the flow of a working agent flowing out of the specified drilling apparatus, when this device opens the reservoir from the hydrocarbon registration sensor, fixed to the device’s body, a signal is sent to block the cross section of the wellhead, while monitoring the flow rate of the well by the discharged hydrocarbon Odes and with a decrease in flow rate, a second specified apparatus is used, with which a side well is formed from the cross section of the well into the reservoir, increasing the area of inflow to the well, while the side well is being drilled onto the reservoir structure, the expiring working agent is acoustically controlled by adjusting its flow rate .  2. The technology according to p. 1, characterized in that before the process of drilling the well beyond the preventer, an additional drilling apparatus equipped with an explosive charge is installed in the tubular guide at an angle to the axis of the well planned to be drilled, this apparatus is turned on to shut the well in case emergency or pre-emergency situations.

Images