RU2256778C1 - Removable twin-choke regulator - Google Patents

Abstract

FIELD: oil production industry, particularly to regulate and/or measure flow parameters.

SUBSTANCE: regulator comprises body with outer groove, side pass channels and axial connecting channel, lower and upper collar holders with outer packing members, fishing head and tail piece with fixer. Fishing head has side pass channels and/or through axial connecting channel. The body or lower and upper collar holders and/or fishing head and/or tail piece have inner landing seats for receiving locks or have borings. Removable restrictors are installed at least in two borings and have opposite direction. The restrictors have equal or different pass and/or outer diameters and may have free or spring-loaded back valves performing restricted movement. Summary flow area of removable restrictors is less than that of side pass channels of the body.

EFFECT: increased efficiency of output and/or pressure well formation operation due to increased regulator cross-section along with limited size thereof, extended range or pressure and flow regulation during fluid extraction and/or working substance pumping-in.

18 cl, 9 dwg

Description

The invention relates to techniques for the oil and gas industry and can be used to control and measure the parameters of the medium flow, in particular, regulate the flow rate of the medium, differential pressure, pressure in the pipe string, bottomhole or annular pressure, and also for simultaneous measurement of pressure, temperature and flow rate, as with fluid production, and when injecting a working medium into a well with one or more producing or injection formations.

A known valve for regulating the flow (RF patent No. 2029073, E 21 B 43/00, Bull. No. 5, 02/20/95), comprising a housing with external grooves, one or more lateral passage and axial passage channels and sealing elements, inside of which are installed closures with rods connected from the bottom and top with one or two bellows.

The well-known Sharifov valve (RF patent No. 2101466, E 21 B 34/06, 43/00, Bull. No. 1, 01/10/98), comprising a housing with one or more lateral passage and axial passage channels and sealing elements, inside which the shutters are installed connected from below and from above with a movable disconnector in the form of a telescopic pair "hollow cylinder-hollow rod".

These valves are designed bilaterally to increase their cross-section through the working gas during gas lift operation of the well, however, they are not acceptable for injection, flow and pump wells, given that they are calibrated with compressed gas at a limited pressure (not more than 13.5 MPa ) and cannot regulate the high pipe, bottomhole and reservoir pressure of the well.

The purpose of the invention is to increase the operating efficiency of producing or injection formations of wells by increasing the throughput section of the regulator with a limited overall size and, accordingly, expanding the range of regulation of pressure or flow rate of the medium when producing fluid or injecting a working agent.

The goal is achieved by the fact that the fishing head is made with lateral passage channels or with a through axial passage channel, or with lateral passage channels and with a through axial passage channel to ensure in all cases (combinations) the opposite direction of the medium flow in order to increase the regulator throughput section. In this case, the regulator nodes, namely the housing or the lower and upper cuff holders and / or fishing head, and / or shank (i.e., either only the housing, or two of these indicated regulator nodes), are made with two internal landing (fixed) sockets under closures or bores in which are placed opposite with the same or different bore and / or outer diameters (one or both of these diameters can be structurally) removable narrowing elements without or with reverse free or spring-loaded shutters with limited Odom. Here, the total cross-sectional area of the landing nests or removable constricting elements is made smaller than the total cross-sectional area of the side passage channels of the housing to provide a narrowing of the medium flow in them in two directions. In the particular case, the fishing head can be made with an upper blind end. Depending on the operating conditions of the regulator with an increased throughput section, the constricting elements placed opposite in the regulator are structurally made in the form of a removable fitting or throttle, or seat, or nozzle. Depending on the direction of the flow of the medium, the housing can be made with one row of lateral access channels located between the constricting elements perpendicularly or at an angle to its axis. Also, the housing can be made with two rows of lateral passage channels deployed or not deployed relative to each other, located between the narrowing elements perpendicularly or at an angle to its axis. The outer groove on the housing is structurally made separately above each row of side passage channels or along the total length not less than the distance between the rows of side passage channels. In this case, the lateral through channels of the knot or knots of the regulator (for example, the case, etc.) can have protective nets against sand. These channels are made in the form of cylindrical or conical holes or curly slots. For tightness of the regulator, the outer sealing elements are installed above and below the side passage channels of the housing and are made of rubber technical products or non-ferrous metals in the form of cuffs or rings. The latch on the shank is structurally made in the form of a collet or a spring ring. In a particular case, a collar is made inside the casing for stopping the spring, or a step diameter is made from above and below to limit the stroke of the closures or stop and fix the constricting elements in two directions of the medium flow. One free spring can be installed in the housing between the valves with an emphasis on them to regulate the position of the valves under the force of one spring in two directions of medium flow. Also, two springs with the same or different characteristics between the valves can be installed in the housing, with the emphasis of each of them on the housing and a corresponding valve to regulate the position of the valves from the efforts of the individual springs. In the regulator, the valves are structurally made in the form of balls or cones, or spheres, or hemispheres, or pistons, without or with rods, or with guides. The constricting elements in the regulator are fixed in the bores by the retaining rings or thrust sleeves, or collars, or by the stop between the threads (two nodes). A spring is installed between the constrictive elements in the housing without or with the possibility of regulating its characteristics and parameters, and the narrowing elements with a limited stroke in the bores are arranged in the form of a piston with internal chokes and the ability to move, change and overlap the cross-section of the side passage channels of the housing to control the flow rate pressure) with two-sided flow directions of the medium. The regulator is equipped on the outside with a landing bore oval chamber with lateral passage channels and a pocket, the latter being made with an internal bore longer than the length of the external groove for any working fixed position of the regulator in the pocket to ensure the tightness of the regulator with two-sided flow directions. The regulator from the inside can additionally be equipped with a measuring system for recording physical parameters - pressure, temperature or flow rate when the medium flows in two directions through it.

In figures 1-9 are options for regulators, in particular in figure 1 - a regulator with constricting elements; figure 2 is the same with spring-loaded shutters; figure 3, 4, respectively, the head and shank of the regulator with a constricting element; figure 5 - hollow body of the regulator with constricting elements; figure 6 - head with an upper cuff holder, equipped with a shutter; figure 7 - shank of the regulator with a shutter; on Fig - regulator to maintain the differential pressure; figure 9 is a borehole oval chamber with a regulator.

The regulator contains (see figure 1) interconnected by a thread the housing 1 with the outer groove 2, the lower 3 and upper 4 cuff holders with outer sealing elements 5 and 6 (for example, in the form of cuffs or rings, etc.), a fishing head 7 and a shank 8 with a clamp 9 (for example, in the form of a collet or a spring ring, etc.).

In the particular case, the housing 1 or the cuff holders 3 and 4 can be made with two seat sockets or internal bores 10 and 11 (see figure 1), which are removable with the same or different bore or outer, or bore and outer diameters narrowing elements 12 and 13 (for example, in the form of fittings, throttles, seats, etc., with the same or different diameters). At the same time (see Fig. 2), above and below the constricting elements 12 and 13, inverse free or spring-loaded shutters 14, 15 can be installed (for example, in the form of a ball, and can also be in the form of a cone, sphere, hemisphere, piston, etc.) without or with a stem or with a guide 16 and 17, for two-sided regulation of the flow of the medium, as well as the elimination of the return flow when crimping the pipe string or stopping the well.

To bypass the medium (see Fig. 1), the fishing head 7 can be made with an upper blind end 18 or a through axial bore 19, or a blind end 18 and lateral passages 20 (for example, in the form of cylindrical, conical holes, shaped slots etc.).

The housing 1 (see FIG. 1) can be made either with one row of side passage channels 21, or with two (see FIG. 2) rows of side passage channels 21, 22 deployed or not deployed relative to each other (for example, in the form of cylindrical , conical holes, shaped slots, etc.) located between the narrowing elements 12 and 13 perpendicularly or at an angle to its axis. On the housing 1, the outer groove is performed by a length (Lp) of no more than the distance (Lp) between its internal threaded connections, or a length (Lp) of not less than the distance (Lp) between the rows of passage channels 21 and 22, or made separately above each near the side access channels 21 and 22.

The shank 8 (see figure 1) is made either with a through axial channel, or hollow with a muffled end with side through channels 23 for medium bypass.

To regulate the pressure (see figure 2), the opening of the shutters 14, 15 in the housing 1 from the inside can be made shoulder 24 to stop the springs 25, 26 or made step diameters 27, 28 to limit the stroke of the shutters 14, 15 and, accordingly, the course of the springs 25, 26, as well as for the possibility of installation (there is no view in the figures) of the constricting elements 12, 13 in them. In the housing 1, the springs 25 and 26 are placed with the same or different characteristics and parameters, with each of them resting on the collar 24 (bottom and top) of the hollow body 1 and the corresponding valves 14, 15. In the hollow body 1, one valve 14 can be installed both above and below the saddle 12, and another shutter 15, respectively, under or above the saddle 13 with limited strokes. In the hollow housing 1, in the particular case, one free spring 25 or 26 (of an elongated type) can be installed between the shutters 14 and 15 with an emphasis on them (here there is no collar 24 for the spring stop 25, 26).

The constricting elements 12, 13 can also oppositely be placed in the bores (bottom and top) of two of the nodes: the fishing head 7 (see figure 3), the shank 8 (see figure 4), the housing 1 (see figure 5 ), lower 3 or upper 4 cuff holder (see figure 1). The constricting elements 12, 13 (see figure 2) can be equipped with external seals 29 and fixed in the bores with retaining rings 30, 31 or thrust bushings (not shown in the drawings), stops between the threads and the shoulders of the hollow body.

To eliminate the reverse flow of the medium, the valves 14, 15 with a limited stroke can be installed both above and below the constricting elements 12, 13 (see figure 2), and in the seat socket 32 of the upper cuff holder 4 (see figure 6), socket 33 of the shank 8 (see figure 1, 7) and the socket 34 of the fishing head 7 (see figure 3).

To ensure throttling of the medium flow (see Figs. 1, 2) in the constricting elements 12, 13, the equivalent diameter (d _{12, 13} ), and hence the total flow area (S _{12, 13} ), are smaller than the equivalent diameter ( d _{21, 22} ), and hence the total cross-sectional area (S _{21, 22} ) of the side passage channels 21, 22 of the hollow body 1. Also, the diameter (d ₂₁ , d ₂₂ ) of the passage section of each of them (lower 21 and upper 22), accordingly less than the diameter (d _1B , d _1H , d ₃ , d ₄ , d ₈ , d ₇ ) of the axial passage channel of the housing 1, cuff holders 3, 4, shank 8 or fishing head 7, and the latter diameter, respectively, is not greater than the equivalent diameter (d ₂₃ , d ₂₀ ) of the side passage channels 23, 20 of the shank 8 and the fishing head 7.

In the housing 1 (see Fig. 8) above and below or between the seats 12, 13 a spring 25 is installed, in a particular case, and the seats 12 and 13 with a limited stroke in the bores are made in the form of pistons with internal throttles 35, 36 and the possibility moving, changing and overlapping the section of the lower and upper rows of the passage channels 21, 22 of the housing 1 to control the differential pressure.

The regulator outside (see Fig. 9) is equipped with a landing bore oval chamber 37 with lateral passage channels 38 and a pocket 39, the latter being made with an internal bore 40 of a length (L) greater than the length of the outer groove 2 (Lп), or distance (lк ) between the rows of passage channels 21, 22 of the hollow body 1 at any working fixed position of the regulator. The equivalent diameter or annular cross-sectional area 41 formed between the outer groove 2 of the housing 1 and the inner bore 40 of the pocket 39 is larger than the equivalent diameter or total cross-sectional area of the lower and upper constricting elements 12, 13 (see figures 1, 2, 5 , 8), and the last diameter or area, respectively, is less than the equivalent diameter or area of the total cross-section of the lateral passage channels 38 of the borehole oval chamber 37.

The regulator, in the particular case (see Fig. 5), is additionally equipped with a measuring system 42 inside for recording physical parameters - pressure, temperature or flow rate during the flow of the medium.

The lateral (see Figs. 1, 3) passage channels 21 of the housing 1 or 20, 23 of the fishing head 7 and the shank 8 can have protective nets 43 against the outside from the sand, in particular when pumping the working medium (water) into the formation.

The regulator operates as follows.

In producing wells (see Fig. 9), the formation fluid passing through the lateral passage channels 38 of the downhole oval chamber 37 and the lateral passage channels 21, 22 of the housing 1 enters its cavity, where it is divided up and down, and then (see figure 1) passes the upper and lower narrowing elements 12, 13 and, respectively, axial or lateral, or axial and lateral passage channels 19, 20 of the fishing head 7 and passage channels 23 of the shank 8, enters the pipe cavity. In the presence of free or spring-loaded gates 14, 15 (see FIGS. 2, 3, 6, 7), the reverse flow from the pipe cavity into the formation (in particular, when simultaneously and separately producing fluid from several layers of one well, when crimping the pipe string and production casing, etc.) does not occur, since the gates 14, 15 sit in the seats 12, 13 or nests 32, 33, 34 and overlap their passage sections.

When pumping the working medium into one or several layers of one well, on the contrary, the medium (see Figs. 1, 2, 9) passes from above through the axial or lateral, or axial and lateral flow channels 19, 20 of the fishing head 7, and from below - through the passage channels 23 of the shank 8, and, accordingly, passing through the constriction elements 13, 12, it enters from the two sides into the housing 1, and then from there it goes through the lateral passage channels 21, 22 of the housing 1 and the channels 38 of the downhole oval chamber 37 into the corresponding formation. Also, in the presence of free or spring-loaded gates 14, 15 (see Fig. 2), the backflow from the formation to the pipe cavity, as well as flows from one formation to another when the injection well stops working (in particular, when several reservoirs are operated simultaneously and separately wells) does not occur, since the gates 14, 15 sit in the saddles 12, 13 and overlap their passage sections.

When regulating the pressure drop, which means maintaining water flow during injection into the reservoir (see Fig. 8), spring-loaded seats 12, 13 with throttles 35, 36, when the pressure changes, move up and down, respectively, and thus regulate the flow of water passing bottom and top through the chokes 35, 36 and entering the reservoir through channels 21, 22.

Claims (18)

1. A two-piece removable regulator comprising a housing with an external groove, lateral passage and axial passage channels, lower and upper cuff holders with external sealing elements, a fishing head and a shank with a latch, characterized in that the fishing head is made with lateral passage channels and / or with through axial passage channel, and the housing, or lower and upper cuff holders, and / or fishing head, and / or shank of the regulator is made with internal landing slots for the valves, or with a bore at least two of them are equipped with removable narrowing elements without or with reverse free or spring-loaded shutters with a limited stroke, oppositely arranged with the same or different bore and / or outer diameters, the total flow area of the removable narrowing elements being made smaller than the total cross sections of the side passage channels of the housing. 2. The two-piece removable regulator according to claim 1, characterized in that the fishing head is made with an upper blind end. 3. The two-piece removable regulator according to claim 1, characterized in that the constricting elements are made in the form of a fitting, or a throttle, or a saddle, or a nozzle. 4. The two-piece removable regulator according to claim 1, characterized in that the housing is made with one row of lateral passage channels located between the constricting elements perpendicularly or at an angle to its axis. 5. The two-piece removable regulator according to claim 1, characterized in that the housing is made with two rows of lateral passage channels located between the narrowing elements perpendicularly or at an angle to its axis, either expanded or not deployed relative to each other. 6. The two-piece removable regulator according to claim 1, characterized in that the outer groove on the housing is made separately above each row of side access channels or along the total length not less than the distance between the rows of side access channels. 7. The two-piece removable controller according to claim 1, characterized in that the lateral passage channels have protective nets against sand. 8. The two-piece removable controller according to claim 1, characterized in that the lateral through channels are made in the form of cylindrical or conical holes, or shaped slots. 9. The two-piece removable regulator according to claim 1, characterized in that the outer sealing elements are installed above and below the side passage channels of the housing and are made of rubber technical products or non-ferrous metals in the form of cuffs or rings. 10. The two-piece removable regulator according to claim 1, characterized in that the latch on the shank is made in the form of a collet or a spring ring. 11. The two-piece removable regulator according to claim 1, characterized in that a collar is made from the inside for stopping the spring, or a step diameter is made from above and below to limit the stroke of the closures or stop and fix the constricting elements. 12. The two-piece removable controller according to claim 1, characterized in that one free spring is installed in the housing between the valves with an emphasis on them. 13. The two-piece removable regulator according to claim 1, characterized in that two springs with the same or different characteristics are installed in the housing between the valves with each of them resting on the housing and the corresponding valve. 14. The two-piece removable regulator according to claim 1, characterized in that the closures are made in the form of balls, or cones, or spheres, or hemispheres, or pistons, without or with rods or with guides. 15. The two-piece removable regulator according to claim 1, characterized in that the constricting elements are fixed in the bores by the retaining rings, or thrust sleeves, or collars, or threads. 16. The two-piece removable regulator according to claim 1, characterized in that a spring is installed between the constrictive elements without or with the ability to adjust its characteristics and parameters, and the constrictive elements with a limited stroke in the bores are arranged in the form of a piston with internal chokes and the ability to move, changes and overlapping cross sections of the side passage channels of the housing. 17. The two-piece removable regulator according to claim 1, characterized in that it is equipped on the outside with an oval borehole landing chamber with lateral passage channels and a pocket, the latter being made with an internal bore longer than the length of the outer groove for any working fixed position of the regulator in the pocket. 18. The two-piece removable controller according to claim 1, characterized in that it is additionally equipped with a measuring system from the inside for recording physical parameters - pressure, temperature or flow rate when the medium flows through it.

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