RU2129671C1 - Method of operation of oil-well jet unit - Google Patents

Abstract

FIELD: fluidics. SUBSTANCE: jet pump is mounted above stratum interval being studied at distance no less than two diameters of well from top of productive stratum; physical field receiving transducer is passed under jet pump by means of logging cable or wire and is set in intermittent or continuous reciprocating along axis of oil well at a rate of from 0.5 to 40 m/min simultaneously performing study of strate or acting on them by physical fields both during operation and shutdown of jet pump. EFFECT: extended range of studies. 1 dwg

Description

 The invention relates to the field of inkjet technology, mainly to a method of operating a downhole jet installation, which is used when working in wells for lifting underground liquid media.

 There is a known method of operating a downhole jet installation, including supplying an active medium to a nozzle, pumping out a liquid from a well due to the energy of an active medium of a liquid medium, and supplying a mixture of media to the surface (see USSR author's certificate 1545011, class F 04 F 5/02, 1990).

 This method of operation of a downhole jet installation allows pumping liquid media out of the well. However, the design of the downhole jet unit does not allow simultaneous work related to the impact on the reservoir during the operation of the jet unit, which narrows the scope of use of this jet unit.

 The closest to the described by the technical essence and the achieved result is a method of operating a well jet device, including installing a jet pump in a well on pump tubing, placing physical fields in the well below the jet pump, the receiver-receiver of the receiver, and conducting formation research when creating a predetermined depression in the well (see patent of the Russian Federation 2089755, class F 04 F 5/02, 1997).

 This method of operation of a downhole jet installation allows you to install a downhole device, the emitter-receiver of physical fields, below the jet installation. However, research options are limited since the depth tool is stationary. Moreover, in some cases, dynamic well surveys are practically impossible.

 The problem to which the present invention is directed, is to expand the range of ongoing research at controlled bottom-hole pressure.

 This problem is solved due to the fact that in the method of operation of a downhole jet installation, which includes installing a jet pump in a well on pump tubing, placement of physical fields in the well below the jet pump of the emitter-receiver-receiver and conducting formation research when creating a predetermined depression in the well, the jet the pump is installed over the studied interval of the formations at a distance of at least two diameters of the well from the roof of the reservoir, and the emitter-receiver of the physical fields is passed on SG cable or wire under a jet pump and produce its reciprocating movement along the axis of the borehole at a rate of 0.5 to 40 m / min, and the layers study was carried out as when the jet pump, and when it is stopped.

 The location below the jet pump of the emitter-receiver of the physical fields allows for various geographical studies in the mode of preset values of depression, and the installation of the emitter-receiver with the possibility of its reciprocating movement along the axis of the well at a speed of 0.5 to 40 m / min allows you to study the dynamics of change well operation parameters, and when moving devices in the indicated speed range, the most reliable picture of the well operation is achieved. Moreover, the mobile placement of the emitter-receiver of physical fields allows simultaneous investigation of the effect on the reservoirs with ultrasound or other physical fields, processing in a dynamic or pulsating mode and immediately taking readings with the result of such an effect on the formations to obtain a complete and reliable picture of the state wells. No less important is the location of the jet pump, and more precisely, its inlet section above the roof of a productive test formation. It was found that when the jet pump is closer than two diameters of the well, the jet pump introduces distortion into the data that is received using the emitter-receiver of the physical fields.

 The drawing schematically shows a downhole jet pump installation, which implements the described method of operation of a downhole jet installation.

 The downhole jet pump installation comprises a tubing string 1, a sealing assembly 2 mounted at the outlet of the tubing 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 tubing 1 above the sealing unit 2. The jet pump is located on the outer surface of the tubing 1, the axis of the active nozzle 3 is parallel to the axis of the tubing 1, and the sealing unit 2 is located on the axis of the tubing pipe 1. The emitter-receiver 6 of the physical fields is placed below the jet pump on the logging cable or wire, and the logging cable or wire is passed through the sealing unit 2. The emitter-receiver 6 of the physical fields is installed with the possibility of intermittent or constant reciprocating movement along the axis of the well at a speed of 0.5 to 40 m / min, and the jet pump is installed at a distance L of at least two well diameters from the top of the reservoir.

 On the tubing 1, a jet pump is installed in the well, and a transmitter-receiver 6 of physical fields is placed in the well below the pump. Active liquid medium through tubing 1 is fed into the active nozzle 3 of the jet pump. Expiring from the active nozzle 3, the liquid medium entrains the formation fluid 4 from the space of the well below the sealing unit 2 into the mixing chamber 4, which allows creating a predetermined depression in the well. After reaching the desired depression using the emitter-receiver 6 physical fields conduct a study of the well. The mode of testing the formations is controlled by changing the pressure of the active medium supplied to the nozzle 3. During the study, the receiver-emitter 6 is discontinuously or continuously along the well at a speed of 0.5 to 40 m / min, while the formation is studied in the well as a working jet pump, and when it is stopped, which allows measurements to be made when the depression grows and when it falls. In turn, the jet pump allows multiple tests of formations in the required mode without lifting the jet pump to the surface.

 As the test results showed, the implementation of the described method of operation allows you to expand the range of ongoing research and thereby reduce the time of testing wells.

Claims (1)

 The method of operation of a downhole jet installation, including installation of a jet pump in the well at the tubing of a jet pump, placement of physical fields in the well below the jet pump of the emitter-receiver of the fields, and conducting formation studies when a predetermined depression is created in the well, characterized in that the jet pump is installed over the studied interval layers at a distance of at least two diameters of the well from the top of the reservoir, and the emitter-receiver of the physical fields is passed on a wireline or wires under the jet pump and produce its intermittent or constant reciprocating movement along the axis of the well at a speed of 0.5 to 40 m / min, while conducting a study of the formations or exposure to them with physical fields both when the jet pump is operating and when it is stopped .