RU2584169C1 - Device for hydrodynamic investigations and testing of wells - Google Patents

Abstract

FIELD: hydrodynamic research.

SUBSTANCE: invention relates to means for hydrodynamic investigation and tests in well. Device for hydrodynamic research and testing of wells containing suspended on a logging cable via a docking instrument head sealed enclosure, placed in housing gear motor connected to motor spindle drive packer-anchor, rod for load transmission onto anchor packer, balancing valve installed above motor switching and remote downhole tool that is attached to tip of cable head at lower end of housing. Device is further equipped with a second housing mounted below first housing and coupling nuts for attaching said second housing to said first housing. In second housing there is a second electric motor mechanically connected with equalising valve, and a telemetry unit. Also, inside first and second housings in parallel to longitudinal axis of device there is an eccentric channel for routing transit link to telemetry unit. Rod for load transmission to anchor-packer is configured without a central hole, and balance valve sealing member is in form of a cuff.

EFFECT: technical result is high reliability of apparatus and its efficiency by ensuring separation of controlling operation of packer and opening of balancing valve.

1 cl, 2 dwg

Description

The device for hydrodynamic research and testing of wells is designed to test wells in a depressed mode, namely, to tightly shut off the internal cavity of a pipe string (tubing) to record the pressure recovery curve (KVD) of a formation using remote downhole tools to quickly determine the hydrodynamic parameters of the studied formation .

Known devices for hydrodynamic research of wells, containing a cable-launched device equipped with an anchor, packers for separating the annular space of the well, a sealing element with a hydraulic channel controlled by a circulation and / or equalization valve, an electric motor and sensors of hydrodynamic parameters (RF patent No. 2349751, ЕВВ 49 / 08, 2009, No. 2339811, Е21В 47/00, 2008). Well-known devices of the well provide pressure drop control above and below the packer, as well as the rate of formation fluid inflow and its compressibility and mobility parameters. However, the range of the studied wells is limited by the diameter of the packers of known devices and the large length of the entire complex as a whole. In addition, for lowering the known devices into the well on a geophysical cable, it is necessary to perform preliminary preparatory steps for killing the well, extracting the tubing from the well, cleaning the column walls and so on. Which leads to additional production and time costs.

A device for hydrodynamic monitoring of wells is known (RF patent No. 2471984, ЕВВ 47/06, 2011), comprising a housing suspended on a geophysical cable, in which an electric motor is placed, an electromechanical packer connected to it by a helical transmission, a controlled valve device mounted above the electric motor a switching unit, an anchor installed above the packer, and pressure compensators, one of which is installed above the armature and the second below the equalizing valve. The known device in comparison with the previous analogues is simple and small in size. The disadvantages of this device include the low reliability of the design and low efficiency of use of the device in the process of testing the formation. This is due to the fact that a rod with a through channel for laying an electric communication line does not provide sufficient effort during packing, and the operation of the armature, packer and equalizing valve is controlled by one electric motor, which makes the formation testing process dependent on the reliability of well packing. Moreover, to ensure the effective operation of the known device requires the use of an electric motor of higher power with a large current consumption.

The objective of the present invention is to increase the reliability of the design of the device for hydrodynamic research and testing of wells, as well as increasing the efficiency of its work by providing separation of control of the packer and opening the equalizing valve.

The problem is solved as follows.

To a device for hydrodynamic research and testing of wells, containing a sealed housing suspended on a geophysical cable by means of a docking instrument head, with an electric motor with a gearbox connected to the electric motor, a packer-armature screw transmission, a load-transfer rod to the anchor-packer, an equalizing valve installed above the electric motor, by a switching unit and a remote downhole tool attached to the tip of the cable head at the lower end of the housing, according but the invention is further connected a second body docked with the first body coupling-nut. In this case, a second electric motor, mechanically connected to the equalizing valve, and a telemetry unit are additionally placed in the second housing. In addition, on the inside of the first and second buildings parallel to the longitudinal axis of the device, an eccentric channel is made for laying a transit line to the telemetry unit, the load transfer rod to the anchor-packer is made without a central hole, and the sealing element of the equalizing valve is made in the form of a cuff.

The proposed design of a device for hydrodynamic research and well testing has the following advantages:

- the presence of a second electric motor, mechanically connected to the equalizing valve, provides the ability to control the testing and recording of the HPC, regardless of the packing process. In addition, the use of two electric motors with their separate use allows to reduce the load on the supply current of the device, as well as to eliminate water hammer during unpacking. That is, it is possible to use electric motors of lower power consumption, and, accordingly, smaller overall dimensions in comparison with the prototype;

- execution of the load transfer rod without a through central hole (i.e., continuous) allows to increase the transmitting load on the rod, and, accordingly, on the anchor-packer, increasing the reliability of well packing. In addition, the implementation of the rod without a through axial channel for passing the veins of the communication line (as in the prototype) increases the manufacturability of its manufacture.

- the use of a cuff instead of o-rings in the design of the equalization valve allows to increase the receiving channel and thereby increase the reliability of wellbore overlap;

- equipping the device with a coupling nut provides the ability to change the sealing elements of the packer armature and / or equalizing valve without disassembling the entire device, for which it is enough to disconnect one housing from another, which increases the efficiency of its operation and the manufacturability of repairs;

- the design of the proposed device works in such a way that during the formation testing the pressure above and below the equalizing valve is always equal to the over-packer, that is, there is no need to use pressure compensators in the design like the prototype, which simplifies the design of the device.

Based on the totality of the indicated features of the invention, the proposed device for hydrodynamic research and testing of wells can be effectively used for hydrodynamic research and / or geophysical logging of a well or for remote registration of reservoir pressure analysis at the time of stopping of pumping units or for taking representative samples of formation fluid using a cable end connected to the body heads of the lower part of the second body of a remote downhole tool or deep man tra or deep probe respectively. Simplicity of design, low power consumption ensure the manufacturability of its manufacture and the reliability of practical use.

In FIG. 1 shows a diagram of a device for hydrodynamic research and well testing.

In FIG. 2 shows a layout diagram of a device for hydrodynamic research and well testing during the registration of pressure generation devices.

A device for hydrodynamic research and testing of wells (hereinafter referred to as the device) comprises a sealed housing 2 lowered on a geophysical cable 1, connected to a geophysical cable 1 by means of an instrument head 19. An electric motor 3 with a reducer 4, a helical gear 5, converting the rotational moment of the electric motor are placed in the housing 2 3 in axial force, stem 6, pusher 7, anchor-packer 8, equalizing valve 9 and switching unit 10. With the housing 2 by means of the coupling nut 15 the housing 11 is docked, in which the electric motor 1 2 with a reducer 13 and a screw gear 14, and a telemetry unit 18. To close the receiving channel between the housing 2 and the coupling nut 15, a sleeve 16 is installed. Transient cores 17 are laid along the inner side of the buildings 2, 11 for connecting the geophysical cable 1 by instrument head 19 with telemetry unit 18. The device is equipped with a standard cable head 20, installed in the lower part of the housing 11 for connecting remote downhole tools. The connecting instrument head 19 provides a contact connection of the conductors of the geophysical cable 1 with the electrical leads of the switching unit 10 and the transit cores 17 from the telemetry unit 18 and the tip of the cable head 20. The switching unit 10 provides remote control of the operation of electric motors 3 and 12, and the telemetry unit 18 provides control of readings couplings, a hygrometer and pressure sensors available in the locator device (not shown in FIG.).

A device for hydrodynamic research and testing of wells works as follows.

To carry out the work with the proposed device, the geophysical cable 1 located on the drum 23 of the logging tool equipped with a tip 21 is joined to the instrument head 19, and a remote downhole tool 22 is connected to the tip of the cable head 20. The equalization valve 9 of the device is open. The layout is lowered into the tubing string 24, equipped with an operational packer 25. Upon reaching a predetermined depth, controlled by a coupling locator located in the telemetry block 18 (not shown in Fig.), The operator sends a control signal to the switching unit 10 via a geophysical cable 1, as a result of which, by means of an electric motor 4 and a helical gear 5, the anchor-packer 8 is opened until it stops against the tubing wall 24. The opening limit value is controlled by an ammeter 26 of the ground power supply 27, which first displays the idle current about the progress of the gearbox of the electric motor 4, and then the final load on the packing element (rubber cuffs) of the armature-packer 8. After opening the armature-packer 8, the signal supplied to the switching unit 10 of the device is transmitted to the electric motor 12, as a result of which the equalizing valve 9 closes. The flow of fluid into the well is stopped. According to operational data, the pressure changes in time above and below the isolated interval from the device’s pressure sensors determine the tightness of the tubing cavity insulation, while the pressure sensor located in the telemetry unit 18 determines the HPC parameters, and the water content of the oil is determined using a moisture meter. The hydrodynamic parameters of the formation are determined by changing the curve of the inflow and the reservoir pressure over time over time by the ground recorder 28, and the operator decides to continue or stop the work to call the inflow from the reservoir or to take measures to influence the bottom-hole zone of the reservoir in order to intensify the inflow.

At the end of the study cycle, the equalizing valve 9 is opened, changing the direction of rotation of the electric motor 12. To re-record the HPC, the equalizing valve 9 is again closed.

After completion of all work, the equalizing valve 9 is opened, and the anchor-packer 8 is closed, changing the direction of rotation of the electric motor 3. Next, the layout with the device is removed from the well to the surface.

On the surface, for a quick change of the packing element of the anchor-packer 8 and the cuff 16 of the valve 9, it is enough to unscrew the coupling nut 15 and disconnect the housings 2 and 11 from each other

Thus, the proposed device for hydrodynamic research and testing of wells allows you to:

- manage the test of the reservoir and record the HPC regardless of the packing process, reduce the load on the supply current and eliminate water hammer during unpacking due to the use of two electric motors,

- operatively monitor the change in pressure over time above and below the isolated interval from pressure sensors without the use of additional pressure gauges.

The technical result consists in simplifying the design, increasing the functionality, reliability and separation of the processes of packing and opening the equalizing valve, increasing the safety and manufacturability of work on the well

Claims (1)

A device for hydrodynamic research and testing of wells, containing a sealed housing suspended on a geophysical cable by means of a docking instrument head, an electric motor with a reducer placed in the housing, a packer-anchor screw transmission, a load-transfer rod to the anchor-packer, an equalizing valve mounted above the electric motor the switching unit and the remote downhole tool attached to the tip of the cable head at the lower end of the housing, characterized in that but it is additionally equipped with a second housing, installed below the first housing, a coupling nut for joining the second housing with the first housing, and placed in the second housing by a second electric motor, mechanically connected to the equalizing valve, and a telemetry unit, and from the inside of the first and second buildings parallel to the longitudinal the axis of the device is an eccentric channel for laying a transit line to the telemetry unit, the rod of the load transfer to the anchor-packer is made without a central hole, and the sealing the th element of the equalizing valve is made in the form of a cuff.

Images