RU164426U1 - INSTALLATION OF A SPRAY PUMP FOR OIL PRODUCTION - Google Patents

Abstract

Installation of a jet pump for oil production, comprising a pipe with holes and internal and external threads for connecting to the string of tubing, in which a jet pump is installed, including a nozzle, a diffuser, a receiving chamber associated with the bottom of the well, a sealant for hydraulic descent lifting, fishing head, filter installed in front of the nozzle, characterized in that the nozzle with holes has internal protrusions in the upper and lower parts to ensure a tight fit of the jet pump moreover, the jet pump is made in the form of a housing with channels connecting the receiving chamber to the bottom of the well, and the diffuser with holes in the nozzle, in addition, the nozzle and diffuser are removable, while the receiving chamber is made in the form of a removable sleeve with holes and centers the nozzle relative to the diffuser In addition, a filter is installed in the lower part of the housing at the inlet of the jet pump, consisting of a pipe plugged from below with holes and replaceable filter elements, with a seal for the possibility of hydraulic lowering and lifting in It is made in the form of a ribbed cuff, and in the upper part of the housing at the outlet of the jet pump above the seal an additional filter is installed, consisting of a pipe muffled from above with a fishing head with holes and replaceable filter elements.

Description

The utility model relates to equipment for producing liquid from wells by jet pumps and can be used for oil production from both oil directional wells and oil wells with sidetracks.

The closest device taken by the authors as a prototype of a utility model is the installation of a jet pump for oil production, containing a nozzle with holes, and a jet pump including a nozzle, a diffuser, a receiving chamber associated with the bottom of the well, a seal for the possibility of hydraulic lowering, lifting, fishing a head, a filter installed in front of the nozzle (see RU 2238443 C1, publ. 10/20/2004).

The disadvantages of this installation are:

- low operational reliability of the installation associated with the possible clogging of the flow of the jet pump with mechanical impurities contained in the reservoir products;

- low efficiency due to the inability to quickly change the nozzle and diffuser depending on the well conditions and possible complications during the hydraulic lift of the jet pump.

The technical result of the utility model is to increase the reliability of the jet apparatus during the operation of the wells by ensuring the cleaning of reservoir products coming from the well and increasing efficiency by changing the design of the jet apparatus.

The technical result is achieved by the fact that the installation of a jet pump for oil production, containing a pipe with holes and internal and external threads for connecting to the string of tubing, in which the jet pump is installed, including a nozzle, diffuser, a receiving chamber associated with the bottom of the well, a seal for the possibility of hydraulic lowering and lifting, a fishing head, a filter installed in front of the nozzle, while, according to a utility model, the nozzle with holes has internal protrusions in the upper and lower parts Upy to ensure a tight fit of the jet pump, while the jet pump is made in the form of a housing with channels connecting the receiving chamber to the bottom of the well, and the diffuser with holes in the nozzle, in addition, the nozzle and diffuser are removable, while the receiving chamber is made in the form of a replaceable sleeve with holes and centers the nozzle relative to the diffuser, in addition, in the lower part of the housing at the inlet of the jet pump, a filter is installed, consisting of a nozzle plugged from below with holes and replaceable filter elements, while Nitel to allow hydraulic tripping configured as a ribbed cuffs, and in the upper portion of the housing at the outlet of the jet pump is further installed above the seal filter consisting of top muffled fishing head pipe with holes and replaceable filter elements.

In FIG. 1 shows the installation of a jet pump for oil production. In FIG. 2, view AA from FIG. 1, FIG. 3 magnification I of FIG. 2.

Installing a jet pump for oil production consists of a pipe 1 with holes 2 and internal and external threads for connection to the tubing string. In the upper and lower part of the pipe 1 there are internal protrusions 9 to ensure a tight fit of the jet pump 3. The jet pump 3 has a housing 4, inside of which a replaceable nozzle 5 and a diffuser 6 are installed. Between the nozzle 5 and the diffuser 6 there is a replaceable sleeve 7 with holes, which forms a receiving chamber 8 and centers the nozzle 5 with a diffuser 6. In the housing of the jet pump 4 there are channels 10 and 11. Channels 10 connect the receiving chamber 8 to the bottom of the well and are used to receive formation fluid from the well. Channels 11 connect the diffuser 6 with holes 2 in the pipe 1. Filters 12 are installed in the upper and lower parts of the jet pump, which consist of a pipe 13 with holes 14, on which replaceable filter elements 15 are attached, which are held by plugs 16 and 17. Top plug 17 made in the form of a fishing head. Below the upper filter there is a seal 18 made in the form of a corrugated cuff, which serves to provide the possibility of hydraulic lowering-lifting. Seals 19 located in the upper and lower parts of the housing of the jet pump 4 interact with the internal protrusions 9 in the pipe 1, ensuring a tight fit of the jet pump 3.

Installation of a jet pump for oil production works as follows.

The pipe 1 with the jet pump 3 installed therein is connected to the tubing (not shown in FIG.) And is lowered into the well. A sealing unit or packer is installed below the inkjet apparatus (not shown in FIG.). The power fluid is fed into the nozzle 5, from which it leaves at a high speed, while creating a low pressure in the receiving chamber 8. At the same time, formation fluid is sucked in, which begins to flow through the channels 10 into the receiving chamber and then under the action of the working fluid coming out of the nozzle into diffuser 6. In diffuser 6 there is a mixture of working and reservoir fluids, the flow rate decreases and its pressure increases. Under the action of increased pressure, the mixture of the working and reservoir fluid through the channels 11 and the holes 2 in the pipe 1 is discharged into the annular or annular space and then the mixture of the working and reservoir fluid flows to the wellhead. A replaceable sleeve 7 with holes forming the receiving chamber 8 centers the nozzle relative to the diffuser, which ensures axial symmetry of the fluid flow and increases the efficiency of the jet pump. Thanks to the protrusions 9 in the housing of the jet apparatus 1 and the seals 19, the tightness of the jet pump 3 in the nozzle 1 is ensured. The filters 12 installed in the upper and lower parts of the jet pump 3 are used to clean the power and formation fluid. The use of replaceable filter elements 15 provides the necessary fineness of filtration and their quick replacement if necessary. Raising and lowering the jet pump 3 to change the nozzle 5, diffuser 6 and sleeve 8 as a result of their wear or changing well conditions is carried out by reverse hydraulic flushing, while the seal 18, made in the form of a ribbed cuff, provides the pressure drop necessary for lifting the jet pump 3 to tubing during the passage of pipe joints in the coupling joints. The plug 17, made in the form of a fishing head, provides gripping and holding the jet pump in the lubricator at the wellhead during hydraulic lifting.

The main elements of the jet pump are the nozzle and diffuser, in which the diameters of the flow channels can be from 1.5-5.0 mm or more, the clogging of these channels with mechanical impurities contained in the power fluid and formation production of the well leads to premature exit of the standing jet pump. When producing fluid from a well, the proposed jet apparatus allows not only the power fluid to be cleaned, but also the formation fluid coming from the well, while improving the reliability of the installation of a jet pump for oil production.

The use of replaceable nozzles, a diffuser and a sleeve forming the receiving chamber in the proposed installation allows for their quick replacement in case of wear or changing well conditions (well flow rate, dynamic level, etc.). The use of a seal in the form of a ribbed cuff provides a guaranteed rise and descent of the jet pump by means of hydraulic flushing. All of the above increases the efficiency of the installation of a jet pump for oil production.

Consider each structural element of the installation separately, revealing its materiality in achieving the technical result.

A pipe with holes and protrusions in the upper and lower parts ensures a tight fit of the jet pump and the discharge of the mixture of formation and working fluid into the annulus or annulus. The jet pump provides the rise of formation fluid from the well. The body of the jet pump with channels serves to install a nozzle, a diffuser and a receiving sleeve in it and connects the receiving chamber to the bottom of the well, and the diffuser with holes in the nozzle create a channel for the mixture of working and reservoir fluid to enter the annulus or annulus. Replaceable nozzle, diffuser and sleeve with holes, centering the nozzle relative to the diffuser and forming a receiving chamber, allow for their quick replacement and ensure the efficient operation of the jet pump. Filters consisting of a plugged nozzle with holes and replaceable filter elements provide the necessary fineness of cleaning power and formation fluids. The seal made in the form of a ribbed cuff provides hydraulic lifting of the jet pump. The fishing head is used to capture and hold the jet pump during its tripping.

Thus, all the essential features included in the utility model are a single installation of a jet pump for oil production, and each element entering the installation is inextricably linked with the proposed device and directly affects the technical result. If at least one structural element of the installation is excluded from the formula of the utility model, the claimed device will either be inoperative (will not correspond to industrial applicability) or the delivered technical result will not be achieved.

It should be understood that after a specialist has reviewed the description with an example of an installation of a jet pump for oil production, as well as accompanying drawings, other changes, modifications, and options for implementing the claimed utility model will become apparent to him. Thus, all such changes, modifications and implementation options, as well as other areas of application that do not differ from the essence of the present utility model, should be considered protected by the present utility model.

Claims (1)

Installation of a jet pump for oil production, comprising a pipe with holes and internal and external threads for connecting to the string of tubing, in which a jet pump is installed, including a nozzle, a diffuser, a receiving chamber associated with the bottom of the well, a sealant for hydraulic descent lifting, fishing head, filter installed in front of the nozzle, characterized in that the nozzle with holes has internal protrusions in the upper and lower parts to ensure a tight fit of the jet pump moreover, the jet pump is made in the form of a housing with channels connecting the receiving chamber to the bottom of the well, and the diffuser with holes in the nozzle, in addition, the nozzle and diffuser are removable, while the receiving chamber is made in the form of a removable sleeve with holes and centers the nozzle relative to the diffuser In addition, a filter is installed in the lower part of the housing at the inlet of the jet pump, consisting of a pipe plugged from below with holes and replaceable filter elements, with a seal for the possibility of hydraulic lowering and lifting in It is made in the form of a ribbed cuff, and in the upper part of the housing at the outlet of the jet pump above the seal an additional filter is installed, consisting of a pipe muffled from above with a fishing head with holes and replaceable filter elements.

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