RU2732940C1 - Unit with screw pumps for simultaneous and separate production of oil from multilayer well - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining and is intended for extraction of high-viscosity oil by two screw pumps simultaneously and separately from different formations of well. Proposed plant comprises frequency-controlled electrically driven screw pump lowered to the well on the flow column, which is located above lower reservoir, equipped with telemetry unit with pressure, temperature and vibration sensors, connected by cable line to control station, packer installed between electrically driven screw pump and upper formation, and rod screw pump with check ball valve in input module, located above upper layer and enclosed in casing, rotor of which is connected by rod with frequency-controlled drive, connected to control station. Rotor rod of rod propeller screw pump is connected to drive shaft of frequency-controlled electric drive closed drive chain of chain transmission of rotation, arranged on production wellhead, wherein cable connecting control station with electric drive screw pump, is passed in well outside casing via cable inlet of packer.

EFFECT: technical result is improvement of operational capabilities of installation with screw pumps at simultaneous and separate extraction of high-viscosity oil from different formations of wells.

1 cl, 1 dwg

Description

The invention relates to the field of mining and is intended for the production of high-viscosity oil by two screw pumps simultaneously and separately from different layers of the well.

Known pumping unit for simultaneous-separate operation of two layers in a well, separated by a packer, containing a string of tubing, cable, liner, upper pump with a top drive for pumping out the products of the upper layer, enclosed in an upper casing with a lateral inlet channel, and a lower pump made electric submersible with an electric motor and enclosed in a lower casing. The casing is equipped with a cable sealing unit and communicated from below through the shank with the under-packer space. The outlet of the electric submersible pump is in communication with the upper casing communicated from the top with the tubing string. The upper pump is made of screw. The lower casing is made covering only the electric motor and communicated from above with the inlet of the electric submersible pump, the outlet of which is equipped with an additional valve. (Patent RU 2368764 C1. Pumping unit for simultaneous-separate operation of two layers in a well. - IPC: Е21В 43/14. - 09/27/2009).

Known two-module screw pumping unit containing an electric motor with a pantograph, an upper screw pump with two sequentially located working screws and clips, a protector, a starting clutch, a shaft, articulated couplings, a safety valve, a conductor, two filter grids, an upper pipe. At the opposite end of the electric motor shaft, a lower screw pump with one working screw and a cage is installed with the possibility of suction from the end and discharge from the side through a pipe on which a check valve is located, and the pipe can be connected to the head and the upper pipe either detachable or one-piece. (Patent RU 88400 U1. Two-module screw pumping unit. - IPC: F04C 2/107. - 10.11.2009).

Known installation for the simultaneous production of oil from two formations, containing lowered into the well on the tubing screw sucker rod pump located above the upper formation, the rotor of which is connected by rods to the upper frequency-controlled drive, a packer installed between the electric screw pump and the upper formation, and a second variable frequency electric screw pump located above the bottom formation. The supporting unit of the electric screw pump is connected by a flexible shaft with a pump rotor connected to a valve motor equipped with a telemetry unit with pressure, temperature and vibration sensors. The unit is additionally equipped with a passive gas separator installed under a sucker rod pump with an inlet module and above the outlet module of an electric screw pump. The inlet module of the sucker rod screw pump and the outlet module of the lower electric screw pump have longitudinal slots for introducing oil and gas containing liquid from the lower horizon into the above-packer zone. (Patent RU 2630835 C1. Installation for simultaneous oil production from two reservoirs. - IPC: Е21В 43/14, F04D 13/12. - 09/13/2017). This setup is taken as a prototype.

The main disadvantage of this pumping unit, taken as a prototype, is the complexity of the design of the sucker rod screw pump drive, which reduces the operational capabilities of the unit with screw pumps with simultaneous or separate production of high-viscosity oil from different well formations.

The main objective of the proposed technical solution is to improve the operational capabilities of the installation with screw pumps with simultaneous and separate production of oil with a viscosity of up to 10,000 mPas from different wells by simplifying the design of the sucker rod pump drive.

The technical result is to improve the operational capabilities of the installation with screw pumps with simultaneous and separate production of high-viscosity oil from different well layers.

The specified technical result is achieved by the fact that, in a known installation with screw pumps for simultaneous and separate production of oil from a multilayer well, containing a frequency-controlled electric screw pump, located above the lower layer, equipped with a telemetry unit with pressure sensors, which is lowered into the well on a tubing string , temperature and vibration, connected by a cable line to the control station, a packer installed between the electric drive pump and the upper formation, and a sucker rod pump with a check ball valve in the inlet module located above the upper formation and enclosed in a casing, the rotor of which is connected by a rod with a frequency -regulated drive connected to the control station, according to the proposed technical solution, the rotor bar of the sucker rod screw pump is connected to the drive shaft of the frequency-controlled electric drive by a closed drive chain of the rotation chain transmission mechanism located on the fountain arm round the well, and the cable connecting the control station with the electric screw pump is passed in the well outside the casing through the cable entry of the packer.

The analysis of the prior art given by the applicant made it possible to establish that there are no analogues characterized by sets of features identical to all features of the claimed installation with screw pumps for simultaneous and separate oil production from a multilayer well. Consequently, the claimed technical solution meets the "novelty" condition of patentability.

The search results for known solutions in this field of technology in order to identify features that match the distinctive features of the prototype features of the proposed technical solution, have shown that they do not follow explicitly from the prior art. The prior art determined by the applicant has not revealed the influence of the transformations envisaged by the essential features of the proposed technical solution on the achievement of the specified technical result. Therefore, the claimed technical solution meets the requirement of patentability "inventive step".

The claimed installation with screw pumps for simultaneous and separate production of oil from a multilayer well can be effectively used in wells mainly with high-viscosity oil. Consequently, the claimed technical solution meets the condition of patentability "industrial applicability".

FIG. 1 schematically shows the proposed installation with screw pumps for simultaneous and separate oil production from a multilayer well.

An installation with screw pumps for simultaneous and separate production of oil from a multilayer well contains wells lowered into the production casing 1 on the tubing string 2, a frequency-controlled electric screw pump (EVN) 3 located above the lower layer I, in which the rotor 4 is mounted with a drive shaft electric drive 5, equipped with a telemetry unit with pressure, temperature and vibration sensors, connected by cable line 6 with control station 7 EVN 3, packer 8 with cable entry, installed between EVN 3 and the upper layer II, and a sucker rod screw pump (ШВН) 9, equipped with a non-return ball valve (OSHK) 10, located above the upper layer I, connected to the control station 11 by cable 12. The screw rotor 13 ШВН 9 is mounted with a rod 14, which is passed through a string 2 of lift pipes and is connected to the drive shaft of a frequency-controlled electric drive 15 ШВН 9 closed drive chain 16 of the chain transmission mechanism of rotation. ShVN 9 is made with an inlet module 17 and is enclosed in a casing 18. Radial channels 19 from the inlet module 17 communicate with the upper layer II of the well through the above-packer cavity 20 and the receiving channel 21 of the inlet module 17 of the ShVN 9, overlapped by the OSHK 10, and the longitudinal channels 22 communicate the output module EVN 3 through the lift pipe 23 installed in the packer 8, with the cavity of the casing 18, hermetically connected by the ends with the lift pipe 23 and the string 2 of the lift pipes by means of subs 24 and 25, respectively, communicating through the side holes 26 in the string 2 of the lift pipes with the outlet module 27. Cable line 6, connecting control station 7 with EVN 3, is passed in the well outside the casing 18 through the cable entry of the packer 8. The mechanism of the chain transmission of rotation from the electric drive shaft 15 to the rod 14 of the screw rotor 13 ШВН 9 is placed on the Christmas tree 28 of the well.

Installation with screw pumps for simultaneous and separate oil production from a multilayer well operates as follows.

In case of separate oil production from the lower layer I from the control station 7 along the cable line 6, the electric drive 5 EVN 3 is switched on, the latter takes the oil-containing liquid from the lower layer I with the input module and by the rotor 4 pumps it through the output module through the riser pipe 23, the longitudinal channels 22 of the input module 17, the cavity of the casing 18 and side openings 26 in the tubing string 2 to the outlet module 27, from which, under the pressure created by the EVN 3, the oily liquid rises along the tubing string 2 to the well surface.

In case of separate oil production from the upper layer II, from the control station 11 via cable 12 they turn on the electric drive 15 ШВН 9, which by the drive chain 16 of the chain transmission mechanism of rotation from the drive shaft of the electric drive 15 through the string 2 of the lift pipes drives the drive rod 14 with the rotor 13 ШВН 9. Reservoir oil-containing liquid from the upper layer II is taken through the above-packer cavity 20, radial channels 19 and the inlet channel 21 of the inlet module 17 of the ShVN 9, which is blocked by the OSHK 10, which lifts the OSHK 10 by its current and the oily liquid is pumped into the outlet module 27 by which, under the pressure created by the ShVN 9, rises along the string 2 of lift pipes to the surface of the well.

When oil is simultaneously produced from the lower I and upper II layers of the well, from the control station 7 through the cable line 6 they turn on the EVN 3, and from the control station 11 through the cable 12 they turn on the ShVN 9, and the oily liquid is pumped by the above methods into the output module 27, into the latter, the formation oily fluids are mixed and under the total pressure created jointly by EVN 3 and ShVN 9, the mixed oily fluid rises along the string 2 of tubing to the surface of the well. To ensure the stability of the EVN 3, the telemetry unit controls the pressure and regulates the speed of the drive shaft of the electric drive 5 by the frequency converter of the control station 7, by decreasing or increasing the speed of the drive shaft of the electric drive 5, choosing the optimal mode of intake of oil-containing liquid from the lower layer I, which does not exceed the pump capacity.

Separate frequency control of screw pumps makes it possible to regulate well productivity both by an increase up to + 50% and a decrease to -40%. Thus, the proposed installation provides simultaneous and / or separate production of high-viscosity oil with a viscosity of up to 10,000 mPas by two screw pumps from different formations of the well.

The technical effect of the proposed invention is to improve the operational capabilities of the installation with screw pumps by simplifying the design of the chain drive of the sucker rod screw pump.

Claims (1)

Installation with screw pumps for simultaneous and separate production of oil from a multilayer well, containing a frequency-controlled electric drive screw pump, which is lowered into the well on a tubing string, located above the lower layer, equipped with a telemetry unit with pressure, temperature and vibration sensors, connected by a cable line to the station control, a packer installed between the electric drive pump and the upper formation, and a sucker rod pump with a check ball valve in the inlet module, located above the upper formation and enclosed in a casing, the rotor of which is connected by a rod with a variable frequency drive connected to a control station, characterized by by the fact that the rotor rod of the sucker rod screw pump is connected to the drive shaft of the frequency-controlled electric drive by a closed drive chain of the chain transmission mechanism of rotation located on the Christmas tree of the well, and the cable connecting the control station with the electric screw pump, passed in the well outside the casing through the cable entry of the packer.

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