RU2089755C1 - Oil-well jet pumping unit - Google Patents

Abstract

FIELD: jet facilities. SUBSTANCE: jet pump is arranged at side of outer surface of oil-well tubings. Axis of active nozzle is parallel with axis of oil-well tubings and is arranged at distance equal to 0.4-2.0 of inner diameter of oil-well tubings in zone of jet pump installation. Sealing unit is arranged along axis of oil well tubings. EFFECT: enlarged operating capabilities and enhanced reliability. 1 dwg

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 multi-nozzle ejector is known, 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, the ejector being provided with a ball valve and a saddle in the central channel of the insert , and the ball valve is installed in the latter [1]
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 the operation of the jet device, which narrows its capabilities.

Closest to the proposed one is a downhole jet pump installation containing a column of pumping pipes, a sealing unit installed at the outlet of the pumping pipes, and a jet pump with an active nozzle, a mixing chamber and a diffuser, the active nozzle being connected to the pumping pipes above the sealing unit [2]
This pump unit allows the organization of the reverse circulation of the working fluid in the well, which makes it possible to restore the operation of the jet unit when the jet pump is clogged, however, in this unit it is not possible to carry out technological operations in the well below the installation level of the jet pump, which narrows the use of the jet pump unit .

 The objective of the invention is to expand the field of use of an inkjet pump installation by providing the possibility of carrying out technological operations in the well below the installation level of an inkjet pump with adjustable bottomhole pressure.

 The specified technical problem is solved in that in a downhole jet pump installation comprising a column of pump and compressor pipes, a sealing unit installed at the outlet of the pump and compressor pipes, and a jet pump with an active nozzle, a mixing chamber and a diffuser, the active nozzle being connected to the tubing above the sealing node, the jet pump is located on the side of the outer surface of the tubing, the axis of the active nozzle is parallel to the axis of the tubing and is located from the axis along the latter at a distance of 0.4-2.0 of the inner diameter of the tubing.

 The location of the jet pump on the outer surface of the tubing allows you to position the sealing unit along the axis of the pipe string, which in turn allows you to make a sealing unit with interchangeable devices. As a result, it is possible to carry out a sealing assembly with a device for installing various deep instruments below the jet pump, which allows various geophysical studies to be carried out in the mode of set depression values, to effect the formation by ultrasound or other physical fields, and to process in a dynamic or pulsating mode.

 The drawing schematically depicts a downhole jet pump installation.

 The downhole jet pump installation comprises a column of pump and compressor pipes 1, a sealing assembly 2, installed at the output of the pump and compressor pipes 1 and a jet pump with an active nozzle 3, a mixing chamber 4 and a diffuser 5, the active nozzle 3 being connected to the pump and compressor pipes 1 above the sealing unit 2. The jet the pump is located on the side of the outer surface of the compressor pipes 1, the axis of the active nozzle 3 is parallel to the axis of the compressor pipes 1 and is located from the axis of the latter at a distance l of 0.4-2 , 0 of the inner diameter d of the tubing 1, and the sealing unit 2 is located along the axis of the tubing 1.

 Downhole jet pump-compressor installation operates as follows.

 The active liquid medium through the column of pumping pipes 1 is fed into the active nozzle 3 of the jet pump. Preliminarily, through the string of pump and compressor pipes 1 through the sealing unit 2, the depth device 6 necessary for working in the well is lowered into the space below the sealing unit 2. Expiring from the active nozzle 3, the liquid medium entrains the formation fluid from the space of the well below the sealing unit 2 into the mixing chamber 4, which allows you to create a given depression in the well.

 When using a geophysical instrument as an in-depth instrument, it is possible to test wells. In this case, due to the pumping out of the formation fluid by the jet pump, a decrease in pressure is achieved in the test interval below the jet installation. The mode of formation testing is regulated by changing the pressure of the active medium supplied to the nozzle. Control over the test mode and parameters of the tested formations is carried out using a geophysical instrument. The jet pump allows multiple tests of formations in any desired mode without lifting the jet installation to the surface. This ensures a gradual increase in depression in the space below the jet installation, which prevents the possibility of an emergency due to the tossing of the geophysical instrument and the cable on which it is installed at the time of the depression in the space under the jet installation.

 The installation of the jet pump relative to the column of pumping pipes 1 is essential for the proper organization of the process of mixing the active medium that flows out of the active nozzle 3 and the reservoir fluid, since the process of the flow of the mixture of media in the annulus of the pumping pipes 1 has a significant effect. conducted experimental studies, optimal from the point of view of achieving maximum efficiency of the jet pump under given operating conditions uu is the location of the active nozzles parallel to the axis 3 nasosnokompressornyh pipe 1 and the location of its axis at a distance from the axis nasosnokompressornyh pipe 1 is the inner diameter of 0.4-2.0 nasosnokompressornyh pipes.

 The test results showed that the use of the jet unit described above can reduce the time for testing wells by an average of 100 hours each, which makes this unit economically attractive.

Claims (1)

 A downhole jet pump installation comprising a tubing string, a sealing assembly installed at the outlet of the tubing, and a jet pump with an active nozzle, a mixing chamber, and a diffuser, the active nozzle being connected to tubing above the sealing assembly, characterized in that the jet pump is located on the side of the outer surface of the non-coiled tubing, the axis of the active nozzle is parallel to the axis of the tubing and is located at a distance of 0.4 to 2.0 the morning diameter of the tubing in the installation area of the jet pump, and the sealing unit is located along the axis of the tubing.