SU1737110A1 - Arrangement for carrying out formation tests - Google Patents

Abstract

The invention relates to the oil and gas industry, in particular to testing wells with a tool on pipes, and improves the reliability of operation of the device when stimulating the inflow with the method of variable cyclic depressions. The device consists of a descent into the well on the pipes of the housing 1 with the landing slot 2 and the radial channels 3 and lowered onto the cable (cable) plug-in jet pump. It includes a housing 4 in which the nozzles 5 are installed and the displacement chamber 6, the diffuser 7, the radial channels 8 and the injection channel 9 are made with VJS VI O

Description

installed in it a valve assembly, the overlapping element of which includes a rod 10 with an axial channel and a plug 11 at the lower end. An axial channel formed in the stem 10 connects the hollow chambers a and b. This provides hydraulic balancing of the stem relative to the external pressure. Above the injection channel 9 in the housing 4 of the jet pump is a stepped axial channel. It is installed

a double-arm lever 12 on axis 13 and a spring-loaded rod 14. The latter is made of magnetic material, has an electromagnetic winding 15 and is connected on one side with a cable (cable) 16, and on the other on a lever arm 12. Its other arm is connected to a rod 10. To the lower part of the housing 4 of the jet pump is attached depth gauge 17. 1 hp, f-ly, ,, 1 Il.

The invention relates to the oil and gas industry, namely to testing wells with a tool on pipes,

A device for testing formations is known, comprising a housing with axial and radial channels mounted on a pipe string above a packer, a spring-loaded saddle sleeve that can be moved, and a jet pump lowered on a cable or cable, as well as a fluid flow shut-off mechanism including a plug and retainers . The device provides an inflow call by creating a depression on the reservoir and then blocking the inflow at the bottomhole, which allows recording both the bottom hole pressure during the selection process and the pressure recovery curve (HPC). In addition, the possibility of lifting the jet pump to the surface provides for the release of the axial channel up to the bottom for carrying out other technological operations.

The disadvantages of the device include the complexity of the design of the device and, as a consequence, its reliability is insufficient; the difficulty of removing the jet pump from the housing case with the difference in reservoir and hydrostatic pressures in the pipes,

It is also known a device for testing formations containing a housing with axial and radial channels mounted on the pipe string above the packer, a jet pump placed in the axial channel of the housing, connected with a geophysical cable or cable connected to its head and including a mechanism to shut off the fluid flow in the form of a reverse a valve installed in the injection channel of the jet pump, and a balancing valve installed also in the injection channel of the jet pump, but below the non-return valve, and designed as a spring-loaded The second bushing is connected to the head and overlaps the radial holes in the injection channel of the jet pump.

The drawback of the device is the unreliability of its balancing valve when

the work on intensification of the inflow by the method of variable cyclic depressions, in which many times by tensioning the cable one has to open and

close the balancing valve to transfer the hydrostatic pressure to the formation, as a result of which the balancing valve quickly goes out of order and for its revision the jet pump must often be raised to the surface.

The purpose of the invention is to improve the reliability of the device for carrying out the stimulation of the inflow by the method of variable cyclic depressions. Application

invention will improve the reliability of the jet pump, which leads to a significant reduction in overhead costs associated with additional lifting jet pump

surface needed to retool it.

The goal is achieved by the fact that the device is provided with a spring-loaded rod connected to the cable (cable)

made of magnetic material and having an electromagnetic winding, and a two-arm lever, which are installed in the stepped axial channel of the jet pump, performed above its injection channel; One arm of the two arm is connected to the end of a spring-loaded rod opposite to the end connected to the cable, and the other arm with a hydraulically balanced, at the expense of its axial channel, the stem of the valve member block installed in the injection channel of the jet pump.

The drawing shows a device for testing formations with

housing plug-in jet pump.

The device consists of a descending into the well on the pipes of the housing 1 with the landing slot 2 and the radial channels 3 and lowered onto the cable (cable) plug-in jet pump, including the housing 4, in which the nozzles 5 are installed and made

the displacement chamber 6, the diffuser 7, the radial channels 8 and the injection channel 9 and the valve assembly installed therein, the overlapping element of which includes the rod 10 with the axial channel and the stopper 11 at the lower end. An axial channel formed in stem 10 connects hollow chambers a and b, which provides hydraulic balancing of the stem with respect to the external pressure. Above the injection channel 9 in the housing 4 of the jet pump. A stepped axial channel is made in which two shoulders lever 12 is mounted on axis 1 and a spring-loaded rod 14 made of magnetic material, having an electromagnetic winding 15 and connected to the cable (cable) on one side 16, and on the other hand, with a lever arm 12, the other arm of which is connected with a rod 10. A depth gauge 17 is attached to the lower part of the body 4 of the jet pump.

The device works as follows.

After the installation of the packer at the required depth on the cable (cable) 16, the inserted jet pump is lowered into the well on the pipes 1 with the packer and other additional equipment installed (not shown), which, under its own weight and the weight of the depth gauge attached to it 17 is installed in the landing nest 2 of the housing 1. Then the working fluid is circulated through the nozzles 5, the mixing chamber 6, the diffuser 7, the radial channels 8 and 3. When pumping the working fluid with a flow rate higher than critical, the chambers The e 6 mixing zone forms a reduced pressure zone, due to which a formation fluid is withdrawn from the formation through the injection channel 9, which is entrained by the working fluid and carried to the surface.

To register the ARC with the device 17, in order to assess the hydrodynamic characteristics of the reservoir, the cable (cable) 16, which draws the rod 14, is pulled and through the lever 12 mounted on the axis 13, displaces the rod 10 together with the plug 11 downwards. Then, the circulation of the working fluid is stopped, as a result of which the pressure in the chamber b becomes equal to hydrostatic, which ensures a reliable shutdown of the injection channel by the valve unit installed in it. If necessary

hydrostatic pressure in pipes is artificially increased.

At the end of the registration time

0 KVD creates circulation of the working fluid, as a result of which the pressure in chambers a and b decreases, and under the action of the spring of the rod 14, the closing element connected with it by means of the lever 12

5 valve assembly returns to its original position.

In the event that a significant contamination of the bottomhole zone is noted by HPC, it is cleaned by the method of controlled cyclic depressions, during which multiple changes of pumping modes and cessation of withdrawal are carried out with the jet pump unit 9 removed from the injection channel. 5At the end of the intensification work.

the inflow is re-recorded ARCS to assess the effectiveness of the treatment. Then the plug-in jet pump is extracted to the surface

Claims (2)

0 When working with logging equipment, an electromagnetic coil 15 is used to displace the rod 14, to which power is supplied via cable 16. Invention Formula 5 1. A device for testing formations, comprising a housing that is lowered into a well on pipes with radial channels and a landing nest and an inserted jet pump lowered on a cable with a valve assembly in its injection channel, characterized in that inflow stimulation by cyclical variables of depressions. 5 is equipped with a spring-loaded rod connected to the cable and a two-arm lever; the jet pump above the injection channel is made with a stepped axial channel in which two shoulders are installed 0 a lever and a spring-loaded rod, the overlapping element of the valve assembly having a rod with an axial channel connected to one of the arms of the two-armed lever, the other arm of which is connected to the end of the rod, 5 opposite end connected to the cable. 2. The device according to claim 1, characterized in that the spring-loaded rod is made of magnetic material and has 0 electromagnetic winding.