RU2188309C2 - Method and device for regulation of temperature and pressure in well - Google Patents

Abstract

FIELD: oil producing industry, particularly, methods of well operation control. SUBSTANCE: method includes bypassing of excessive gas from annular space to internal cavity of tubing string when gas pressure exceeds preset value. Temperature and pressure conditions in well are regulated from surface by bypassing of gas from annular space to internal cavity of tubing string, or by bypassing of hot oil from tubing string to well annular space. Regulation is effected by means of valve with sliding device. It is actuated by reversing electric motor, and it is installed on tubing string below boundary of low-temperature effect but above dynamic level. Device for regulation includes body with valve secured to tubing string. It is made in the form of cylinder with two rows of radial channels and circular seals on external surface, seat in lower part with through channel communicating annular space with tubing string cavity, and slide valve for entering seat. Valve has a rod which is connected with slide valve by thread for its motion in vertical plane. Rod upper part carries gear rotated by reversing electric motor. It is installed in body and has gear on output shaft for meshing with rod gear. EFFECT: higher operating reliability due to installation of device controlled from surface and allowing prompt variation of temperature and pressure conditions in wells. 3 cl, 10 dwg

Description

 The invention relates to the oil industry, in particular to methods for controlling the operation of the well.

 A known method of operating a downhole pump (1), including the operation of accumulating associated gas in the annulus of the well during pump operation, relieving excess pressure and then dumping the accumulated gas into the pressure line of the well by communicating the gas cavity of the annulus with the inner surface of the tubing string.

 A valve device for a well (2) is known, including a hollow body with two rows of radial channels, ring seals on the outer surface, a seat with a passage channel, a chamber with a charger.

 The disadvantage of the above method and device is that the downhole valve is installed at a strictly defined pressure, which does not provide the possibility of operational regulation of thermobaric conditions in the well.

 A well-known universal downhole tool (3) is designed to install and remove downhole valves from the landing nipples and pockets, including a hollow body with longitudinal slots and windows, inside which a spring-loaded rod, a spring-loaded collet with petals located in the longitudinal windows are installed.

 The disadvantage of this tool is the need for expensive cable technology.

 The aim of the invention is to increase the reliability of the well by installing a surface-controlled device that allows you to quickly change the thermobaric conditions in the well.

 To achieve this goal, the method involves regulating the thermobaric conditions in the well from the surface of the earth by transferring gas from the annulus of the well to the interior of the tubing string or bypassing hot oil from the tubing string into the annulus of the well, the control being carried out using valves with a spool device that is driven by a reversible motor and mounted on a tubing string n the boundaries of the influence of low temperatures, but higher than the dynamic level, and a device for implementing the proposed method, comprising a housing with a valve mounted on a column of tubing, and made in the form of a cylinder with two rows of radial channels and ring seals on the outer surface, the seats in the lower part with a passage channel connecting the annular space with the internal cavity of the tubing and the spool for entering the seat, and the valve is equipped with a rod connected to the spool thread battle, to move it in a vertical plane, a gear installed in the upper part of the rod with the possibility of rotation using a reversible electric motor mounted in the housing and including a gear on the output shaft to engage it with the rod gear, and the device is characterized in that the electric drive the rod is located inside the valve, and the supply of electricity and signals for controlling the valve operation is carried out through the spring-loaded rods installed in the body and the contacts installed in the valve body.

 In FIG. 1 shows a device for manually actuating a valve gear, the gear of which is engaged with the valve gear, the valve itself located in the seat, and also a device for removing and installing the valve.

 Figure 2 shows a section aa in figure 1.

 Figure 3 shows a device for replacing a valve at a time when the rail with the grip is in the extended position.

 Figure 4 shows a section bB in figure 3.

 Figure 5 shows a section bb in figure 3.

 In FIG. 6 shows a device for driving a gear of a device for replacing a valve at a time when the spring-loaded rods are in the extended state.

 In Fig.7 shows a section DD in Fig.6.

 In FIG. Figure 8 shows a device for replacing a valve when the valve is removed from the seat and moved into the inside of the valve replacement device.

 In Fig.9 shows a section GG in Fig.3, which shows an electric motor with gear, which is engaged with the gear of the valve.

 Figure 10 shows a device for regulating thermobaric conditions in the well, with an electric actuator located inside the valve.

 The device for regulating thermobaric conditions in the well, shown in Fig. 1, includes a valve body 1, a stem 2, a spool 3 connected to a seat 4 by a thread, a gear 5, a seal 6, an annular seal 7, a seat 8, made in the housing 9, mounted on a tubing string (not shown), in which a hole 10 is made connecting the annular space (MP) of the borehole 11 with the internal cavity of the tubing 12, a pin 13 installed in the housing 1, preventing rotation spool 3, roar the jet engine 14 shown in FIG. 9, with a gear 15 mounted on its output shaft, the operation of which is controlled and power is supplied to it via cable 16.

 The device operates as follows. When it becomes necessary to adjust the thermobaric conditions (pressure increases or the temperature decreases), a reversible electric motor 14 is turned on from the surface, rotating the gear 15 and gear 5 of the rod 2, which, rotating, moves a spool connected to it in a vertical plane mounted in the housing 1, and the spool 13 is prevented from rotating by the pin 13, pressed into the housing 1, while the conical part of the spool 3 opens (closes) the hole in the seat 4 and the overflow occurs (or stops) gas from the MT to the tubing or oil from the tubing to the MT through the hole in the saddle 4 and the hole 10 in the housing 9, part 19 and the housing of the movable part 26 are sealed by a ring 28, and the upper part of the housing 29 and the rod 23 are sealed by a ring 30, part of the rod 2 is located in the recess 22, and when the valve is installed in the seat, the gear 25 is rotated in the opposite direction, while the lower end of the movable part of the device presses the upper part of the rod 2, installing the valve, the rod 42 is installed in the seat 8, spring loaded 43 and incoming in groove 44.

 A device for controlling thermobaric conditions in a well with an integrated electric drive (Fig. 10) includes a housing 50 in which a hole 61 for gas or oil passage is made, sealed by rings 51, a stem 52 connected by a thread to a spool 53, a stator winding 54 installed on the housing 50, the rotor winding 55 mounted on the rod 52, the contact group 56 on the housing 50, the rods 57, spring-loaded springs 58, located in the housing 59, to which the cable 60 is connected.

 A device for regulating thermobaric conditions in a well with a built-in electric drive works as follows. An electric current is supplied from the surface through the cable 60, which is transmitted through the springs 58 spring-loaded 58 to the contact group 56, then to the stator winding 54 and the rotor winding 55, the rod 52 rotates, drives the spool 53, which opens (closes) the gas access ( oil) to the hole in the housing 50.

 The economic effect of the implementation of the invention is approximately 500 (five hundred) thousand rubles per year.

Bibliography
1. Copyright certificate of the USSR 1599526 A1, cl. E 21 B 43/00, F 04 D 13/10, R.F. Nigmyatyanov et al. Method of operating a downhole oil pump, 10/15/90, Bull. 38.

 2. Copyright certificate of the USSR 1694863 A1, cl. E 21 B 34/06, R.S. Gurbanov et al. Valve device for a well, 11/30/91, Bull. 44.

 3. RF patent 2114978 C1, cl. 6 E 21 B 23/00, 31/18, Sharifov M.Z. Universal downhole tool, 10.07.98, Bull. 19.

Claims (3)

 1. A method of regulating thermobaric conditions in a well, comprising transferring excess gas from the annulus of the well to the interior of the tubing string when a predetermined pressure is exceeded, characterized in that the regulation of thermobaric conditions is carried out from the surface of the earth by bypassing gas from the annulus of the well into the internal cavity of the tubing string or bypassing hot oil from the tubing string into the annulus in the borehole, wherein the regulation is carried out using a spool valve device which is driven by a reversible electric motor and place it on a column of tubing below the boundary the influence of low temperatures but above the dynamic level.  2. Device for regulating thermobaric conditions in the well, including a housing with a valve, mounted on a tubing string and made in the form of a cylinder with two rows of radial channels and ring seals on the outer surface, saddles in the lower part with a passage channel connecting the annulus with an internal cavity of the tubing, and a spool for entering the seat, characterized in that the valve is equipped with a stem connected to the spool by a thread to move it in a vertical gloss, gear installed in the upper part of the rod with the possibility of rotation by means of a reversible electric motor installed in the housing and including gear on the output shaft for engaging it with the gear of the rod.  3. A device for controlling thermobaric conditions in a well according to claim 2, characterized in that the electric actuator of the rod is located inside the valve, and the supply of electricity and signals for controlling the valve is carried out through spring-loaded rods installed in the body and contacts installed in the valve body.

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