RU2189433C2 - Method of recovery of well products and deep-well pumping devices for method embodiment (versions) - Google Patents

Abstract

FIELD: oil producing industry; applicable in other branches of national economy, for instance, in production of potable water. SUBSTANCE: used in method are unified deep-well double- and single-acting pumping devices adaptable for pumping out of well products possessing various physical properties and chemical compositions. Application of deep-well pumping devices with two-chamber intake or intake and preparation pressure chamber makes it possible to pump out simultaneously, both, gas-fluid mixture and degassed fluid, or oil and water separately, or products from two oil-bearing formations possessing various chemical compositions and physical properties. Used are pump various working cavities located below and above member separating zones of lifting and accumulation of oil and water, or packer separating two oil-bearing formations from each other. In this case, deep-well pumping devices with double-cavity deep well are used for operation, mainly, of large producers with high optimal bottom pressure. Single-cavity deep well is used in marginal and medium producers with products of various viscosities. Said deep-well pumping devices with deep-well pumps may also be completed, correspondingly, with pressure chamber of preparation and intake, and injector for suction of gas, and gas separator of immersion type with circular groove for suction of liberated gas by ejector installed at deep-well pump discharge end. EFFECT: extended functional potentialities and fields of application of deep-well pumping devices under various geological conditions of deposit development, and various physical properties and chemical compositions of recovered well products. 8 cl, 6 dwg

Description

 The invention relates to the oil industry, namely to oil production by sucker rod pumps.

 Known mechanized method of oil production and sucker rod pump for its implementation, operating with limited gas content, to maintain a considerable depth under the dynamic level corresponding to the optimal pressure at the pump intake [1].

The disadvantages of the known method and the used deep pump for its implementation:
- pumping out liquid only when the plunger moves in one direction;
- low efficiency of the downhole pump when pumping viscous and carbonated liquids;
- a sharp limitation of the depth of descent of the pump with an increase in productivity;
- the effect of pressure at the pump intake on the bottomhole pressure.

 The closest technical solution is the use of a double-acting deep-well pump, which allows pumping out the liquid by the reciprocating movement of its plunger in both directions [2].

The disadvantages of the close technical solutions are:
- low fill and pump ratio;
- limited scope;
- Unsuitability for pumping carbonated and viscous liquids;
- the impossibility of their use for separate pumping of oil and water from the production of various oil reservoirs;
- the effect of pressure at the intake of the pump on the pressure on the bottom of the well.

 The purpose of the invention: the development of a method and a deep-pumping device to expand the functionality and scope of their application under various geological conditions, physical properties and chemical composition of the produced well products.

 This goal is achieved in that the method of producing well products simultaneously pumps out the gas-liquid mixture and degassed liquid or oil and water separately, or the production of two oil reservoirs of different chemical composition and with different physical properties, different working cavities of the cylinder located below and above the plunger separating them; the gas-liquid mixture, gas, water or products from the lower oil reservoir are pumped out from the lower cavity, while the gas-liquid mixture flows into the lower cavity directly from the production string or through the liner lowered to the bottom, and the degassed borehole liquid enters the upper cavity from the gas separation receiving side chamber or water and oil, or products of the lower and upper oil reservoirs coming from the gas separation receiving chamber or pressure chamber of preparation and reception, where gas separation The second chamber is formed between the pump casing and the receiving chamber casing, into which the borehole fluid enters through the lateral inlet openings, where it is degassed when the flow direction is turned, and then, when the plunger moves down, it is sucked into the upper cavity of the deep pump, which then, during the plunger upwardly, they are pumped into the column of lifting tubing, while at the same time, during the course of the plunger, the products under the plunger are pressed upward through the hollow rod of the pump dividing wall, and during the course of the plunger up areas under the plunger is filled with a new portion of the well production.

 In the case of extraction of emulsion gas-liquid mixtures from a well, a downhole pump is placed in the lower part of the pressure chamber for preparation and reception, into which a demulsifier-solvent composition is supplied before or upon receipt of the well products, then in the pressure chamber, the well products are prepared, consisting in its degassing and demulsification when it enters the chamber through perforated holes in its upper part and when the liquids flow down to the intake of one or both cavities of the pump, and the gas released is raised by the rubbing space or it at a certain height is transferred into a column of lifting tubing, along which, with separate lifting of oil and water, water is also raised, and with separate lifting of the products of two oil reservoirs, they are transferred to the production of that formation, which is raised with a greater expenditure of energy .

 In low-production and medium-production wells, the production of borehole products is carried out by a submersible pump having only one upper working cavity of the intake and injection, which allows the viscous gas-liquid mixture to be pumped out at the maximum filling ratio, for which, when pumping downhole products with significant gas content, it is degassed into the gas before entering the deep pump submersible type, while the separated gas is directed upward along the annular channel formed by the pump casing and the outer casing ha oseparatora submersible type and an ejector device arranged respectively below and above the downhole pump and connected to a lifting column of tubing threaded connections.

 A deep pump, consisting of two concentric housings, the inner of which is both the body and the cylinder, a plunger, a separation partition with a lock stop with external and internal seals, which forms one working cavity with a plunger, a hollow rod, passed through the separation partition, of a unit a suction valve forming another working cavity with a plunger, the lower of which is connected to the wellbore through a cleaning gas-stripping net, or a submersible gas separator, with uzhaschy downhole pump outer housing of the gas compartment through the bypass valve and release it in the annulus and Incoming separated liquid with a residual gas in the working chamber.

 This goal is achieved by the fact that the deep pump consists of two concentric housings, the inner of which is both the casing and the cylinder, a plunger, a dividing wall with a lock stop with external and internal seals, forming one working cavity with a plunger, a hollow rod passed through a dividing wall of the suction valve assembly forming another working cavity with a plunger, the lower of which is connected to the wellbore through a gas treatment net and and a submersible-type gas separator serving as an outer casing and a receiving chamber of the upper cavity of the deep pump for separating gas and discharging it into the annulus through the bypass valve and entering the separated liquid with residual gas into the lower working cavity when the outer casing serves as a receiving chamber of the upper working cavity and is communicated with it a side suction valve and a cleaning gas-stripping net, while the working cavities and their receiving chambers are separated from each other by a packer to provide separate opening chki product of two reservoirs and the receiving chamber has a spring-adjusting valves to regulate the magnitude bhp against the oil-bearing strata.

 The submersible pump consists of a casing, which serves as a cylinder at the same time, a partition baffle plunger with a lock stop with external and internal seals, forming a working cavity with a lower bore plunger for receiving and pumping out viscous borehole products during operation of small and medium-rate wells, and a hollow rod through the dividing wall of the suction and discharge valves in the zone of movement of the plunger, while over the dividing wall the opening holes are made, separated m hollow stem plug, above which the hollow rod passes to tower hollow rods.

 When the gas or demulsifier or steam or vapor-liquid mixture is pumped into the column of the lifting tubing, the depth pump has a check valve at its lower end and is equipped with an outer casing forming an annular channel with the casing, which communicates with the gas separator gas located below a deep pump, and with an ejector sucking gas and located above the deep pump, while the gas separator and ejector are connected to the deep pump and the string of lifting tubing threads ovymi compounds.

 The present invention differs from the prototype in that the double-acting submersible pump is used in the method for producing well products using various designs of the pressure chamber and the preparation and reception chamber, the layout of the underground equipment performs multifunctional operations: continuous pumping of the well products, its joint or separate phase pumping, component composition, production of various oil formations with different chemical composition and various properties.

 It also differs in that when pumping out viscous emulsion well products before they enter the deep pump, preliminary preparation is carried out, which consists in preliminary degassing and demulsification, which allows creating the optimal pressure at its reception using the receiving and preparation chamber, which ensures rational filling of the pump working cavities and the necessary support for the plunger during its upward movement and thereby remove a certain amount of load from the weight of the liquid and rods from deep asosnogo equipment.

 It is characterized by the fact that when a significant amount of gas is extracted from a rising wellbore product, it is sucked from the gas zone into the tubing string by an ejector installed above the deep pump, and it is fed into the rising product when the plunger of the deep pump moves in both directions, and in case of lifting downhole products along the liner, the gas released in it is separated from the liquid flowing further into the downhole pump, in the gas separator, from which I direct the gas-oil mixture through the annular channel in the upper cavity downhole pumping apparatus and the separated gas is sucked into the lifting column ejector tubes mounted over the deep pump.

 It is characterized by the fact that when a significant amount of gas is extracted from the borehole product, it is sucked from the gas zone into the tubing string by an ejector mounted above the submersible pump, and it is fed into the riser continuously when the plunger of the submersible pump moves in both directions, and in the case of lifting well products along the liner, the gas released in it is separated from the liquid that flows further into the downhole pump, in the gas separator, from which the gas-oil mixture along the annular channel y is sent into the upper cavity downhole pumping apparatus and the separated gas is sucked into the lifting column ejector tubes mounted over the deep naos.

 It differs in that it allows the well products to rise during the reciprocating movement of the plunger of the deep pump in both directions, moreover, when the plunger moves down through it and its hollow rod, a gas-liquid mixture with any gas content passes, and when it moves up, almost completely degassed liquid is pumped from annular space in the upper cavity of the plunger located above the plunger.

 It differs in that, using the retaining chamber for preparing and receiving the deep-pumping device with its various cavities, the following is pumped out: the top is oil flowing down the pressure chamber to the pump intake of the upper pump cavity, and the lower cavity is the water lifted from the bottom of the well along the liner.

 Also, the deep-pumping device with its various cavities pumps out the products of various oil-bearing strata separately and creates optimal bottomhole pressure against them either with the help of check valves at the receptions of the cavities, or to create rational pressures against these strata and at the receptions of the individual cavities of the deep pump a reception and preparation chamber, and a packer isolating them from each other is installed between the layers.

 It differs in that when pumping out viscous emulsion well products, pumping is performed only by one, upper, cavity of the deep pump, which serves both for receiving and for pumping well products isolated during operation from the receiving zone during injection, as well as from the injection zone - at reception; in the case when the load from the weight of the liquid is greater than the load from the weight of the rods acting on the plunger and the pressure acting on it, at its intake, or they communicate and the fluid flows continuously when the pressure at the intake is high and an ejector is installed on the discharge, which facilitates the opening of the pop-up valve, and thereby ensure the operation of the deep-pumping device with a feed coefficient close to one or more units.

 The double-acting deep-well pumping device for high-yield wells consists of two concentrically located pressure chamber housings 4 and a receiving and preparation chamber 5 (Fig. 1), connected to each other by coupling sub with an upper dividing wall 13. In the inner case of the pressure chamber 4 is located a pair of "cylinder - plunger" 1 and 2 with a hollow rod 3, passed through the dividing wall 13, the lower receiving 17 and discharge valves 27 (Fig.3). Plunger 2 divides cylinder 1 into two working cavities: the upper cavity 9, connected to the wellbore through an annular receiving chamber 19 and formed between the dividing wall 13 and plunger 2, the lower 8 - between the plunger 2 and the lower receiving valve 17, and when it is not placed , then between the plunger 2 and the lower receiving chamber with the mesh 15. The lower cavity 8 is in communication with the wellbore through the treatment gas stripping grid or submersible gas separator 29.

 The outer casing of the receiving and preparation chamber 5 with the inner casing of the pressure chamber 4 form an annular receiving chamber 19 (Fig. 2), the casing of which is perforated in the middle and upper parts.

 The annular receiving chamber 19 in the upper part is in communication with the upper cavity 9 of the downhole pump 4 with the lower receiving valve 17, and the upper cavity 9 is in communication with the lifting column of the tubing 20 via the discharge valve 27.

 When pumping out viscous and emulsion products of wells, or when pumping oil and water, or for separately pumping out the products of two different formations with different chemical compositions, pressure preparation and reception chambers are used as the lower receiving chamber with mesh 15 (Figs. 2, 3, 4) representing an annular channel for receiving and preparing liquid 21 of a certain length, formed between the lifting column of the tubing 20, or hollow rods 18 and the pressure chamber 4 and the receiving chamber concentrically arranged to them, and Cooking 5 composed of tubing of large diameter, which communicated with the upper space 9, a deep well pump 4 and the bottom cavity 8 4 deep well pump.

 For pumping viscous borehole products from low- and medium-rate wells, deep pumps are used with one upper cavity 9 of the deep pump 4 (Fig. 5) of the lower intake valve 17 located in the upper part of the plunger 2, of the hollow rod 3 with openings 28, which communicates the cavity of the hollow rod 3 with the upper cavity 9 of the deep pump 4, and a discharge valve 27 located above the plunger 2 and the dividing partition 13, forming the upper cavity 9 with the plunger 2.

 When pumping highly carbonated liquids, the deep pump 4 is used with one working cavity complete with a submersible gas separator 29 with two fluid outlets 30 connected to a receiving pipe 31, a gas outlet 32, through which the gas is passed into the annular channel for receiving and preparing the liquid 21 formed between the housing of the pressure chamber 4 and the housing receiving and preparing 5, connected above the deep pump 4 with the housing of the ejector 34 through the holes 35, and the annular channel 21 is in communication with the suction zone 36 of the ejector 34.

 The principle of operation of the oil production method and the sucker rod pump device consists in the complex use of various types of energy for lifting well products, which is achieved by changing the design of the sucker rod pump device taking into account the chemical composition and physical properties of the pumped well products.

 When the plunger 2 moves down the well products along the hollow rod 3 through the holes 28 are forced through the deep pump 4, and the degassed borehole liquid enters the vacant space above the plunger 2 from the annulus through the annular receiving chamber 19 (Fig. 1) or from the annular receiving channel and preparation 21 (figure 2). When the plunger 2 moves upward, the bottom cavity 8 is occupied by the well products rising along the production string, and the well products previously received therein are squeezed out of the upper cavity 9 of the downhole pump 4.

 With separate pumping of oil and water (Fig. 3), oil floats through the annulus, accumulates in the annular receiving chamber 19, then enters the upper cavity 9 of the deep pump 4, and the water is lifted along the “liner” 16, lowered into the sump of the well 37. Gas released from oil, accumulates in the upper part of the annulus, then it is sucked into the tubing string 20 by the ejector 34 and used to lift the well products.

 For separate pumping of the borehole products of two different formations with different chemical composition and physical properties (Fig. 4), the products of the lower oil reservoir are pumped out by the lower cavity 8, and the products of the upper oil reservoir by the upper cavity 9 of the deep pump 4. For this, the operating zone 38 (Fig. 4 ) the lower oil reservoir is separated from the zone of operation of the upper reservoir 39 at a certain depth by the sealing device 40, and the optimal value of the bottomhole pressure in the oil reservoir is maintained using spring adjustments paid-valves 41 and 42 mounted against their perforations for receiving lifting the pipe string imparted upper and lower cavities of the work-sucker rod pumping unit.

 When pumping out viscous and emulsion borehole products from high flow rate wells, the sucker rod pumping device is equipped with a receiving and preparation chamber 21, into which, when the borehole products enter through the perforated holes in the upper part of the receiving and preparation chamber 21, a demulsifier-solvent composition is supplied from the tank 25, then the reception and preparation chamber 21 is degassing, demulsification. The evolved gas is lifted through the annulus 12 or, at a certain height, is passed into the tubing string 20, and the liquid flows down to receive the deep pump 4.

 When pumping a viscous borehole fluid from low- and medium-flow rate wells with a small gas content, a deep pump is used having only one upper cavity 9 (Fig. 5), and when the plunger 2 moves down, the maximum rarefaction in the upper cavity 9 is achieved, therefore, the maximum filling of the well products , provides less hydraulic resistance to the plunger 2, which leads to an increase in the effective stroke of the plunger 2 and a decrease in deadlock during operation of the downhole pump.

 The deep-pumping device operates as follows.

 It is made both tubular and plug-in, double or single action, respectively, with two or one working cavities. The design of the downhole pumping device varies depending on the geological and physical operating conditions, the composition and flow rate of the pumped well products.

In high-yield wells with viscous and aerated well products, a double-acting deep-pumping device is used, which consists of two concentric housings, the inner of which is both the body and cylinder 1 ¹ , plunger 2, dividing wall 13 with a lock stop with external and internal seal, forming with the plunger one upper cavity 9, the hollow rod 3, passed through the dividing wall 13, the lower receiving valve 17, forming the lower cavity with the plunger 2 8. In this case, the upper cavity 9 communicates with the wellbore through the annular receiving chamber 19 with the lower receiving valve 17 and the gas treatment net 11, and the lower cavity 8 communicates with the wellbore through the gas treatment net 11 or the submersible gas separator 29, which serves as the outer casing and annular receiving channel for the preparation and reception of liquid 21 of the upper cavity 9 of the deep pump 1 for separating gas and ejecting it through the bypass valve 10 into the annulus 12 and the receipt of the separated liquid with gas to the lower cavity 8. In this case, the upper 9 and lower 8 cavities are isolated from each other and they are used for pumping downhole products with different component composition and different oil horizons.

 The deep-pumping device, depending on the chemical composition and physical properties of the pumped out well products, on the value of the reservoir and bottomhole pressure, the depth of the descent of the deep pump, the lower cavity 8 may or may not have a lower receiving valve 17.

 When pumping low-viscosity well products with a high gas content, a deep pumping device is used, where the lower receiving valve 17 is absent in the lower cavity 8. In this case, the well products pass through the lower cavity 8 through the plunger 2 and the hollow rod 3 and under the influence of the weight of the rod string exceeding the load from the weight of the liquid, through the discharge valve 27 is pressed into the tubing string 20, and part of the well production enters the annular receiving chamber 19 into the upper cavity 9 of the deep pump 1.

 When pumping out viscous, paraffinic and emulsion well products with a high gas content in high production wells, a double-acting deep-pumping device is used, which is placed in the lower part of the annular channel for preparing and receiving fluid 21, which is an annular space formed between the body of the deep-well pump 1 and the column tubing 20 of larger diameter, deflated concentrically to the lifting tubing, raised above the deep pump 1 to a height sufficient to ensure the rational preparation of well products for pumping. The lower part of the annular channel for receiving and preparing the liquid 21 is lowered below the depth pump 1 to a certain depth, the upper part of the column is perforated, through the openings of which the well products enter the annular chamber for receiving and preparing. When liquid enters the annular channel for preparation and reception 21, a demulsifier-solvent composition is fed into it, then degassing and demulsification takes place in the reception and preparation chamber 21. The evolved gas is lifted through the annulus 12 or at a certain height it is passed into the tubing string 20, and the fluid flows down to receive the deep pump 1. The degassed liquid is pumped out by both cavities of the deep pump 1.

 When the plunger 2 moves down with the lower receiving valve 17, the previously received well products from the lower cavity 8 are squeezed out under the weight of the rod string 18 and the plunger 2, and the well products are sucked into the upper cavity 9 of the deep pump 1 from the annular channel to receive and prepare the liquid 21 in the annular receiving chamber 19.

 When the plunger 2 moves up into the lower cavity 8, freed up under the plunger 2, a new portion of the borehole product enters the high-pressure discharge space supported in the annular channel for receiving and preparing fluid 21, and the previously received borehole product is squeezed out of the upper cavity of the downhole pump 1 into tubing string 20.

 If a double-acting deep-well pumping device is used for separate pumping of oil and water, or for separate pumping of products of two different oil-bearing horizons with different physicochemical properties, then, in the first case, the oil and gas mixture rises past the annular channel for receiving and liquid preparation 21 up (figure 3). At its upper end, when entering the annular receiving chamber 19, free gas is separated from oil, the degassed oil is poured into the chamber 4, which flows downward and is freed from the residual gas, and part of the remaining in the form of small bubbles dissolves again in oil as the pressure of the hydrostatic column increases and from the lower part of the chamber under rational pressure enters the upper cavity 9 of the deep pump 1.

 Water from the incoming well products accumulates in the operating zone 38 in the sump of the well 37, then enters the liner 16 and, rising along the liner 16, enters the lower cavity 8, then is displaced into the tubing string 20 and onto the ground.

 In this case, in the lower cavity 8 of the deep pump 1, a lower intake valve 17 is installed, which relieves the pressure in the tubing string 20 to the bottom of the well.

 Upon receipt of downhole products in the form of a gas-liquid or oil-water emulsion at the bottom of the well, they are separated into water and the oil and gas mixture both at the bottom and in the annulus 12 of the well, for the complete separation of which and elimination of the formation of a gas-liquid emulsion, a demulsifier is supplied from the tank 25, the volume of which is determined from the maximum overhaul period of the wells. In this case, the demulsifier-solvent is displaced from the tank 25 by water entering it from the bottom through the bottom check valve 44 mounted on the shank 16, through which water rises into the lower cavity 8 of the downhole pump 1, equipped with a lower receiving chamber with a mesh 15, then is pumped out the surface of the earth along the hollow rod 3 and the hollow rods 18, and oil and gas are lifted to the upper part of the annular channel for receiving and preparing the liquid 21 through the annulus 12, where through the perforated holes 46 overflow into the annular receiving chamber 19, flow along it to the upper cavity 9 of the deep pump 1, where through the lower receiving chamber 15 enter it during the plunger downward, and when it moves upward, it is pumped into the annular receiving chamber 19 formed between the column of hollow rods 18 and the column compressor pipes 20, then lifted to the surface of the earth, that is, oil and water are extracted separately.

 Also separately pumped out the products of two different oil horizons (figure 4). In this case, a packer 40 is installed above the reservoir 25 in the production casing of the well, which separates the lower layer from the upper one and prevents mixing of the products. The rise of borehole products from the lower reservoir to the earth's surface is carried out by hollow rods 18, the products of the upper reservoir are pumped out through the annular space.

 For pumping viscous borehole products from low- and medium-rate wells, a deep pump is used having one working cavity for receiving and forcing. When the plunger 2 moves down the well products that fill the space under the plunger 2, rush into the upper cavity 9, in which there is a sharp vacuum, which, along with the freely falling rod string with the plunger 2, ensures its maximum possible filling with the well products, and under certain conditions, when the pressure of the hydrostatic liquid column exerted on the discharge valve becomes less than the total pressure exerted by the created pressure of the weight of the rods, plunger, pressure at the pump inlet, high-viscous products located under the discharge valve, after filling the working cavity, part of the product is displaced into the tubing string 20, into the space located above the partition wall 13.

 When the plunger 2 of the downhole pump 1 moves upward, the borehole products that entered the upper cavity 9 earlier are displaced from it through the hollow rod 3 into the tubing string 20.

 When pumping downhole products with significant gas content, the liquid is degassed in a submersible type gas separator 29, and the released gas is directed upward along the annular channel 33 formed by the pressure chamber housing 4 and the outer housing of the submersible type gas separator 29 and an ejector 34 located respectively lower and higher than the deep pump and connected with a string of tubing 20 threaded connection (Fig.6).

 The method of producing well products and the downhole pumping device make it possible to lift the well products with reciprocating movement of the plunger 2 of the deep pump in both directions, and when the plunger 2 moves down through it and the hollow rod 3, a gas-liquid mixture with any gas content passes, and when moving up allows you to pump out almost completely degassed fluid from the annulus into the upper cavity 9, located above the plunger 2.

 The deep-pumping device allows pumping out the production of various oil-bearing strata separately and creates an optimal bottomhole pressure against them.

 The productivity of the deep-pumping device is increased, which allows them to be used in high-yield wells.

Sources of information
1. Reference book on oil production. / Ed. Doctor of Technical Sciences Sh.K. Gimatudinova. - M .: Nedra, 1974, p. 255, 309.

 2. RF patent 2114282 "Method for lifting a gas-liquid mixture of wells and installation for its implementation" (prototype).

Claims (8)

 1. The method of producing well products, which consists in pumping well products with a double-acting sucker rod pump device consisting of a body with a pair of cylinder-plunger, suction and discharge valves, characterized in that they simultaneously pump out a gas-liquid mixture and degassed liquid or oil and water separately or the production of two oil-bearing strata of different chemical composition with different physical properties by different working cavities of the cylinder located below and above the separating and x plunger; a gas-liquid mixture, gas, water or products from the lower oil reservoir are pumped out from the lower cavity, while the gas-liquid mixture flows into the lower cavity directly from the production string or through the liner lowered to the bottom, and the degassed well fluid flows into the upper cavity from the gas separation receiving side chamber or water and oil, or products of the lower and upper oil reservoirs coming from the gas separation receiving chamber or pressure chamber of preparation and reception, where gas separation The second chamber is formed between the pump casing and the receiving chamber casing, into which the borehole fluid enters through the lateral inlet openings, where it is degassed when the flow direction is turned, and then, when the plunger moves down, it is sucked into the upper cavity of the deep pump, which then, during the plunger upwardly, they pump it into the column of lifting tubing, while at the same time, when the plunger moves downward, products under the plunger are pressed upward through the hollow rod of the pump dividing wall, and when the plunger moves upwards, the area under the plunger is filled with a new portion of well production.  2. The method of producing well products, which consists in pumping the well products with a double-acting sucker-rod pump device consisting of a body with a pair of cylinder-plunger, suction and pressure valves, characterized in that in the case of emulsion gas-liquid mixtures from the well, the downhole pump is placed in the lower part of the pressure chamber for preparation and reception, into which, before or upon receipt of the well products, the demulsifier-solvent composition is fed, then in the pressure chamber, the preparation downhole products, which consists in its degassing and demulsification when it enters the chamber through perforated holes in its upper part and when the liquids flow down to the intake of one or both pump cavities, and the released gas is lifted through the annulus or it is transferred to a lifting column at a certain height tubing, along which, with the separate rise of oil and water, water is also raised, and with the separate rise of the products of two oil reservoirs, they are passed into the products of that reservoir, which is raised toiled with more energy expenditure.  3. The method of producing well products, which consists in pumping the well products with a sucker rod pump, consisting of a housing with a pair of cylinder-plunger, suction and pressure valves, characterized in that in low-production and medium-flowing wells, the well products are lifted by a well pump having only one upper the working cavity of the intake and injection, allowing to pump out a viscous gas-liquid mixture at a maximum filling ratio, for which, when pumping downhole products with significant gas content before entering the deep pump it is degassed in a submersible type gas separator, and the separated gas is directed upward along the annular channel formed by the pump housing and the outer housing of the submersible type gas separator and ejector device, located respectively below and above the deep pump and connected to the lifting pump-compressor column pipe threaded connections.  4. The deep pump, consisting of two concentric housings, the inner of which is both the housing and the cylinder, a plunger, a separation partition with a lock stop with external and internal seals, forming one working cavity with a plunger, a hollow rod passed through the separation partition, of a suction valve assembly forming a different working cavity with a plunger, the lower of which is connected to the wellbore through a gas treatment net or submersible gas separator, with tinned with the outer casing of the deep well pump to separate the gas through the bypass valve and discharge it into the annulus and the separated liquid with the residual gas entering the working cavities.  5. A downhole pump, consisting of two concentric housings, the inner of which is both the body and the cylinder, a plunger, a dividing wall with a lock stop with external and internal seals, forming one working cavity with a plunger, a hollow rod passed through the dividing wall, of a suction valve assembly forming a different working cavity with a plunger, the lower of which is connected to the wellbore through a gas treatment net or submersible gas separator, with tinned by the outer casing and the receiving chamber of the upper cavity of the deep pump for separating gas and discharging it into the annulus through the bypass valve and the separation of the separated liquid with residual gas into the lower working cavity when the outer casing serves as the receiving chamber of the upper working cavity and is communicated with it by the side suction valve and a cleaning gas-stripping net, while the working cavities and their receiving chambers are separated from each other by a packer to ensure separate pumping of the products of two oil-bearing pl ists and receiving chambers are spring-adjustment valves to adjust the value of downhole pressure against reservoirs.  6. A submersible pump consisting of a casing that serves as a cylinder at the same time, a partition baffle plunger with a lock stop with external and internal seals, forming a working cavity with a lower bore plunger for receiving and pumping out viscous well products during operation of small and medium-rate wells, and a hollow a rod passed through a dividing baffle, suction and discharge valves in the area of movement of the plunger, while over the dividing baffle there are pop-up openings, separated n from the hollow rod with a plug, above which the hollow rod passes to the column of hollow rods.  7. The downhole pump according to claim 5, characterized in that when the gas or demulsifier, or steam, or vapor-liquid mixture is pumped into the string of the lifting tubing, the hollow rod string has a non-return valve at their lower end.  8. The downhole pump according to claim 5 or 6, characterized in that it is equipped with an outer casing, forming an annular channel with the casing, in communication with a gas separator gas outlet located below the downhole pump, and with an ejector sucking gas and located above the downhole pump, the gas separator and the ejector are connected to the downhole pump and the tubing string by threaded connections.

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