RU2129672C1 - Jet-type oil-well unit (versions) - Google Patents

Abstract

FIELD: lifting subsurface liquids. SUBSTANCE: housing of jet pump is provided with several mounting seats for fitting blanks or nozzles with mixing chambers and diffusers; shut-off member is made in form of hollow cylindrical body with circular sealing collars on side of outer surface of this body; Cylindrical body of shut-off member is provided with upper and lower thrust member with thrust washers and flexible gaskets laid in turn between them. End surfaces of washers have projections whose height is equal to 0.1 to 0.3 of height of flexible gasket. According to second version, housing is provided with check valve which is spring-loaded relative to housing. According to third version, shut-off member is provided with subsurface pressure gauge, sampler and flowmeter mounted on side of jet pump inlet. EFFECT: enhanced reliability and capacity.

Description

 The invention relates to the field of inkjet technology, mainly to inkjet devices used when working in wells for lifting underground liquid media.

 A well-known jet apparatus comprising a housing with active nozzles arranged around it and an annular insert with a central channel and side channels coaxial with active nozzles made in the form of mixing chambers and diffusers, wherein the jet apparatus is provided with a ball valve and in the central channel of the insert a seat is made, and the ball valve is installed in the latter (see USSR author's certificate, 1545011, class F 04 F 5/02, 1990).

 This jet device allows you to expand the scope of its use by providing the possibility of exposure to the formation of explosive energy, however, this jet device does not allow work in the well during operation of the jet device, which narrows its capabilities.

 The closest to the described by the technical essence and the achieved result is a jet well installation comprising a packer and a jet pump mounted on a pipe string with an active nozzle, a mixing chamber and a diffuser, and a shut-off element with a seat, the shut-off element saddle mounted parallel to the jet pump and a shut-off element made with an axial channel (see patent of the Russian Federation, 2059891, class F 04 F 5/02, 1996).

 This jet downhole installation allows, due to the execution of an axial channel in the shut-off element, to install various technological equipment in the well below the jet pump and, using this equipment, to carry out various studies and work to intensify the pumping of various media from the well.

 However, the reliability of the locking element is insufficient to completely exclude the possibility of the medium flowing through the locking element. In addition, the reliability of the installation is reduced and the volume of research is narrowed, since the installation is performed with a single jet pump. The decrease in reliability is due to the fact that the failure of the jet pump entails the failure of the entire installation, and the decrease in research volume is due to the fact that the installation of one jet pump does not allow to create different gradients of flow rates in the well and allows you to adjust the mode of operation of the well in relatively narrow range.

 The problem to which the present invention is directed is to increase the reliability of the installation, increase its productivity and the volume of research.

 This problem is solved due to the fact that in a jet well installation containing a packer and a jet pump mounted on a pipe string with a housing, an active nozzle, a mixing chamber, a diffuser and a shut-off element with a saddle, the shut-off element saddle is made in the jet pump body, and the locking element is made with an axial channel, while the housing of the jet pump is equipped with several seats for installing plugs or active nozzles with mixing chambers and diffusers, and the locking element is made in the form of The upper and lower thrust elements are installed between alternating thrust washers and elastic gaskets, between which there are protrusions on the end surfaces of the washers, the height of which is from 0, 1 to 0.3 of the height of the elastic pad.

 In another embodiment of the jet downhole installation, the task of the invention is solved due to the fact that the jet pump housing is provided with several seats for installing plugs or nozzles with mixing chambers and diffusers, and the shut-off element is made in the form of a hollow cylindrical body with ring sealing lips on the side the outer surface of the housing, and a check valve spring-loaded relative to the housing is installed in the housing.

 The third embodiment of the jet downhole installation solves the problem due to the fact that the installation made according to the first embodiment is additionally equipped with a depth gauge, a sampler and a flow meter mounted on a shut-off element from the entrance to the jet pump of the pumped-out medium.

 As the studies showed, the location of the jet pump, the number of jet pumps and the design of the shut-off element can have a significant impact on the reliability of the jet well installation and its performance.

 It was found that the installation of one jet pump eccentric in the well can in some cases lead to a decrease in the productivity of the installation and a decrease in the reliability of its operation. This is due to the fact that with an eccentric installation of a jet pump in the well from the side of the outer surface of the pipe string, the pump energy may not be enough to cover the completely cross section of the well. As a result, eddy reverse currents arise, which increases the hydraulic resistance and, as a result, the back pressure at the outlet of the jet pump with a corresponding decrease in the productivity of the jet pump and the entire installation. The implementation of several seats allows, if necessary, to install multiple jet pumps axisymmetrically around the pipe string, which prevents the formation of eddy reverse currents and, accordingly, allows to increase the productivity of the installation. At the same time, the installation of several jet pumps can increase the reliability of the installation, since the failure of one jet pump, for example, clogging of the mixing chamber of the jet pump, does not stop the installation.

 Another version of the installation is also possible when pumping out a liquid medium with impurities, such as sand. In this case, it is advisable to install the inkjet apparatus asymmetrically around the pipe string. This allows you to additionally turbulize the flow beyond the outlet cross section of the jet pumps and, thereby, prevent the deposition of impurities in the well and, therefore, increase the reliability of the installation, although there is a slight decrease in productivity. The same effect can be achieved with the installation of a single jet pump.

 And the last, the implementation of additional seats, closed by plugs, allows, if necessary, for example, if the jet pump fails and it is impossible to dismantle it quickly, for example, if the seat is clogged, quickly install a new or additional jet pump, while this plug retains the seat, free of jet pump from possible clogging or damage.

 Additional opportunities to increase the reliability of the installation and increase its productivity are provided by the implementation of the locking element with elastic gaskets and thrust washers. As you know, most elastic materials that are used for sealing have a compression limit at which they retain their elastic properties and provide reliable sealing. The implementation of the locking element with the upper and lower thrust elements and alternately placed elastic gaskets and intermediate thrust washers placed between them allows the elastic gaskets to be compressed under the action of the pressure difference in the under-packer and over-packer zones and thereby reliably and hermetically separate the over-packer zone from the under-packer, preventing the medium from overflowing from over packer zone into the packer zone and thereby eliminating the decrease in installation performance. At the same time, protrusions made on intermediate thrust washers located when the washers were installed in the locking element opposite each other prevent compression of the elastic gaskets, and in the most undesirable mode of operation, the elastic gasket is squeezed above the permissible limit only at the location of the protrusions. The protrusions in this case will abut each other, the rest of the elastic pad or elastic pad will remain operational, and the locking element will continue to perform the task. Moreover, during the experiment it was found that the height of the protrusions from 0.1 to 0.3 of the height of the elastic strip is sufficient to ensure reliable operation of the elastic strip.

 Additional possibilities are achieved when a shut-off element is installed in the housing with a valve spring-loaded relative to the housing. Moreover, if the axial channel in the shut-off element allows installing various technological or research equipment in the sub-packer zone without violating or, which is especially important, creating conditions for increasing the installation productivity, for example, by organizing hydraulic shocks in the well, which intensifies pumping, the installation of a shut-off element with a non-return valve allows you to expand the possibilities for carrying out work in the well, for example, carrying out acid treatment, without removing the jet pumps in from the well, which ultimately allows you to expand the range of ongoing work in the well and by reducing the downtime of the well when reinstalling the equipment to increase productivity and expand the volume of ongoing research wells.

 Further expansion of the scope of the research is achieved by installing a depth gauge, a sampler and a flowmeter on the shut-off element, and they can be connected to the ground equipment with a cable passed through the axial channel, and the obtained data are taken and transmitted via cable to the recording equipment, or a manometer, a sampler and the flowmeter operates autonomously, and the data obtained is removed when the shut-off element with the equipment installed on it is removed from the well. In this case, the lifting of the pipe string and the jet pump is not carried out, which also makes it possible to sharply reduce the idle time of the well and thereby increase the volume of research with a corresponding increase in plant productivity.

 Thus, the achievement of the objectives of the invention is achieved - improving the reliability of the installation, increasing the productivity of the installation and increasing the volume of research.

 In FIG. 1 shows a longitudinal section of the described jet well installation; FIG. 2 is a longitudinal section through an apparatus with a shut-off element provided with a check valve; FIG. 3 is a longitudinal section of the installation with a locking element equipped with a depth gauge, a sampler and a flow meter.

 The jet well installation comprises a packer 1 and a jet pump mounted on a pipe string 2 with a housing 17, an active nozzle 3, a mixing chamber 4 and a diffuser 5, as well as a shut-off element 6 with a seat 7. A seat 7 of the shut-off element 6 is made in the jet pump housing 17 . The locking element 6 is made with an axial channel 8. The housing 17 is provided with several seats for installing plugs 9 or active nozzles 3 with mixing chambers 4 and diffusers 5. The locking element 6 is made in the form of a hollow cylindrical body 10 with O-rings 11 on the side the outer surface of the housing 10. In the housing 10 of the locking element 6 are installed upper 12 and lower 13 thrust elements, between which are placed alternately intermediate thrust washers 14 and elastic gaskets 15, and on the end surfaces Aib 14 are protrusions 16, the height of which is 0.1 to 0.3 the height (H) of elastic pads 15.

 The installation can be performed with a locking element 6, in the housing 10 of which is installed a check valve 18 spring-loaded relative to it.

 The installation can be performed with a locking element 6, on which, from the entrance to the jet pump of the pumped-out medium, a depth gauge 19, a sampler 20, and a flow meter 21 are installed.

 Installation works as follows.

 The jet pump of the jet downhole installation is installed on a string of 2 pipes in the well and then the packer 1 is brought into working position. After this, the shut-off element 6 is installed, and depending on the embodiment, a shut-off gauge 19 can be installed on the cable or without it , a sampler 20 and a flowmeter 21. Through a column of 2 pipes into the nozzle 3 (or nozzles, if the jet pump is made with several installed nozzles with mixing chambers and diffusers), an ejection medium is supplied, which, flowing out of the nozzle 3, creates There is reduced pressure in the sub-packer zone. As a result, the pumped-out medium from the well from its sub-packer zone begins to flow into the jet pump. In the mixing chamber 4, a mixture of pumped and ejected media is formed with the transfer to the pumped medium of a part of the kinetic energy of the ejected medium. Then the mixture of media enters the diffuser 5, where the kinetic energy of the mixture of media is partially converted into potential pressure energy. Under the pressure created in the jet pump, the mixture of media flows from the jet pump into the annulus of the pipe string 2, through which the mixture of media flows from the well to the consumer. At the same time, when the ejection medium is supplied under pressure in the pipe string 2, under the influence of this pressure, which exceeds the pressure in the under-packer zone, the elastic gaskets 5 in the locking element 6 are unclenched, which allows hermetically separating the under-packer space from the over-pack space of the pipe string 2.

 If it is necessary to carry out work in the well, requiring separation of the over-packer and under-packer spaces, it is possible to install a shut-off element 6 with a check valve 18. As a result, when the jet pump stops working, the medium is prevented from flowing from the over-packer zone into the under-packer zone.

 During the operation of the installation using the depth gauge 19, the flow meter 21 and the sampler 20, the parameters of the well are recorded and the composition of the medium pumped out of the well is studied.

 The test results showed that the use of the above-described jet downhole installation allows to reduce the time of testing wells, which makes this installation economically attractive.

Claims (3)

 1. A jet well installation comprising a packer and a jet pump mounted on a pipe string with a housing, an active nozzle, a mixing chamber, a diffuser and a shut-off element with a seat, the shut-off valve seat being made in the jet pump body and the shut-off element having an axial channel, characterized the fact that the housing of the jet pump is equipped with several seats for installing plugs or nozzles with mixing chambers and diffusers, the shut-off element is made in the form of a hollow cylindrical body with O-rings cuffs from the side of the outer surface of this body, and in the cylindrical body of the locking element, upper and lower thrust elements are installed, between which intermediate thrust washers and elastic gaskets are placed, moreover, protrusions are made on the end surfaces of the washers, the height of which is 0.1 - 0, 3 heights of elastic pad.  2. A jet well installation comprising a packer and a jet pump mounted on a pipe string with a housing, an active nozzle, a mixing chamber, a diffuser and a shut-off element with a seat, the shut-off element saddle being made in the jet pump body, characterized in that the jet pump body is provided with several seats for installing plugs or nozzles with mixing chambers and diffusers, and the locking element is made in the form of a hollow cylindrical body with annular sealing cuffs from the side of the outer surface hnosti case, and in the case a check valve spring-loaded relative to the body is installed.  3. A jet well installation comprising a packer and a jet pump mounted on a pipe string with a housing, an active nozzle, a mixing chamber, a diffuser and a shut-off element with a seat, the shut-off element saddle being made in the jet pump body, characterized in that the jet pump body is provided with several seats for installing plugs or nozzles with mixing chambers and diffusers, and the locking element is made in the form of a hollow cylindrical body with annular sealing cuffs from the side of the outer surface In the case of this housing and in the housing of the locking element, upper and lower thrust elements are installed, between which intermediate thrust washers and elastic gaskets are placed, moreover, protrusions are made on the end surfaces of the washers, and a depth gauge is installed on the locking element from the inlet side of the pumped pump of the evacuated medium, sampler and flow meter.

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