SU1767165A1 - Equipment for investigation of wells - Google Patents

Abstract

Usage: oil and gas industry, hydrodynamic and geophysical studies of wells with subsequent operational plugging of water-based plastics, especially hydrogen sulfide-containing formations. The device contains a body of components, upper and lower adapters, a sleeve and a rod movably placed in the body, a rod, a spring, a valve in the form of a cylindrical plug, a pull, guide rails and a pin, sealing rings. The device is equipped with a seating saddle placed in the upper adapter, the equipment running through the cable is made in the form of a hollow pipe with a separating piston on the upper and non-return valve on the lower ends and a fitting sleeve coupled to the mounting saddle. 5 il.

Description

WITH

with

The invention relates to the oil and gas industry, namely, to the entities that allow complex hydrodynamic and geophysical surveys of a well, followed by plugging.

The reservoir tester is known, which includes a housing, a hollow rod, a time relay, inlet and spring-loaded disc valves, the plate of which is made with shanks and is provided with a stem bushing with a radial channel in which a lock is installed to interact with the shank, and there is a protrusion for interaction with another shank of the valve plate and a groove for accommodating the retainer.

The drawbacks of the formation tester are the unreliability of the poppet valve, which can lead to complicated situations, and the impossibility of plugging perforated holes in the well immediately after conducting the studies, i.e. without lifting pipe string and test equipment.

A well testing apparatus is known, comprising a housing, an upper and a lower adapter, a hollow rod with radial holes, supported on the housing through a thrust bearing and having an endless helical groove on the surface, sliding along it, connected to a rod and a sleeve made with radial gaps, and a valve blocking the through channel of the rod, made in the form of a cylinder with a side through hole and rigidly connected to a fork enclosing the valve from the ends, is articulated

Vj

ABOUT

Vi o

SP

connected with it by a connecting rod and an eye mounted on a sleeve. The reservoir tester allows testing objects in a multi-cycle mode and passing small-sized geophysical instruments for complex well testing through its internal through channel.

The drawbacks of the device are the unreliability of a valve in the form of a cylinder with a side through hole that blocks the through channel of the device, which is due to a leakage after the first opening and closing of the valve, which does not allow obtaining high-quality pressure recovery curves and can lead to emergency situations m In addition, this device has a very complex structure, is inconvenient in control, does not allow to work on plugging the perforations of the well immediately after the research, i.e. without lifting pipe string and testing tool.

A well testing device is known that has been adopted as a prototype, comprising a housing, an upper and a lower adapter, a rod, a hollow rod, a sleeve and a valve blocking the central passageway. The valve is made in the form of a cylindrical plug with sealing rings, a pin and with a rectangular stepped protrusion at the bottom end and is movably connected to a pull, inside which there are two rectangular grooves along the entire length and a hole in the middle between the grooves. The t hectare is rigidly connected to the body and is installed between the guide bars, on which the shaped grooves are made, where the pin ends are placed. This reservoir tester is relatively simple in design, it allows testing objects in a multi-cycle mode and passing small-sized geophysical instruments for complex well survey through its internal through channel.

The drawback of the device lies in the fact that it does not allow to work on plugging the perforations of the well immediately upon completion of the studies, i.e. without lifting the pipe string and testing instruments by passing and installing a special tubular container with a stamping solution in the central passage channel.

The purpose of the invention is to expand the functionality of the device by providing plugging of the downhole intervals.

The goal is achieved by the fact that a device for testing wells, comprising a housing, upper and lower adapters, movably accommodated in a housing

stem and sleeve with a valve made in the form of a cylindrical plug with sealing rings and installed with the possibility of blocking the central bore of the sleeve, and lowered onto

0 cable equipment, in contrast to the prototype, is equipped with a saddle placed in the upper adapter, the equipment is made in the form of a hollow pipe with a separation piston on the upper

5 and a check valve on the bottom ends, and with a mounting bushing mated with a seating saddle.

Such an embodiment of the well testing apparatus allowed the use of

0 to isolate the annular space and plug the perforations of the well immediately upon completion of hydrodynamic and geophysical studies, i.e. without lifting the pipe string, on

5 of which research equipment is lowered into the well. Supplying the device with a saddle, running equipment on the cable in the form of a hollow pipe with a separating piston on

0 upper and non-return valves on the lower ends, and with the mounting bushing, coupled with the mounting saddle, made it possible to ensure the prompt delivery of the grouting material directly

5 to the perforations of the well and, pushing it into the annular space, plug the perforations of the casing.

Figure 1 schematically shows the proposed device in the open position of the valve with the container installed in the central passageway; figure 2 - the same, in the closed position of the valve; on fig.Z - section aa in figure 2; Fig.4.5 section bb in Fig.2; Fig. 5 is a diagram of the pressure of the grouting material into the annular space and plugging of the perforation holes of the well. Well testing device

0 (1-3) contains a composite body of parts 1, 2 and 3, the upper 4 and lower 5 adapters, the sleeve 6 and the stem 7, the shaft 8 and the spring 9 mounted on it, the valve made in the form of a cylindrical plug 10 with a sealing protrusion a at the lower end 11. The valve 10 is movably connected with a pull 12, inside of which two rectangular grooves b are made along the entire length of the pull and a hole in the middle between the slots (Figures 2 and 3). Guides

the strips 13 are made with shaped grooves r and are rigidly connected with the stem 7 and the sleeve 6. A ta 12 ha is installed between the guiding strips 13 of the limiting AND planes g and rigidly connected with the composite body (parts 1, 2). The sleeve 6 has an inlet duct e, and part 3 of the composite body has a splined engagement with the rod 8 for transmitting torque. The pin 14 is installed in the plug 10, the ends of the pin 14 are placed in the shaped grooves g of the guide bars 13. The sealing of the movable and fixed joints is carried out with standard rubber rings 15-19,

The device is equipped with a seating saddle 20 housed in the upper adapter 4. The equipment running through the cable is made in the form of a hollow pipe 21 with a hollow cavity and with a mounting sleeve 22 coupled to the seating saddle 20. At the upper end of the pipe 21 a separating piston 23 is made of elastic material , a head 24 with radial openings c, a geophysical cable 25, and a check valve 26 with a plate 27 and a spring 28 is installed at the bottom of the container. The bushing 22 has a standard seal ring 29.

The device works as follows.

Before lowering into the well, the device 30 (see Fig. 5) with adapters 4 and 5 is connected to drill pipes 31 and other test equipment: koryu 32, packers 33, 34. The device is in the extended position when the well is lowered, the valve is closed The plug 10 is located in the central passageway e of the sleeve 6 (see FIG. 2). After installing the equipment in the well and packing, the device is telescopically compressed, overcoming the elastic forces of the spring 9, the composite case 1-3 moves downwardly relative to the sleeve 6, guide bars 13, rod 7, rod 8 and lower adapter 5. At the same time, ha 12, rigidly connected to the housing, moves down the plug 10, which, after exiting the central passageway e of the sleeve 6, begins to move down and to the left simultaneously (see Fig. 1). This is ensured by a pin 14, the ends of which are placed in the shaped grooves of the guide bars 13. The rectangular protrusions of the plug 10 slide along the slots of the thrust train 12 until the plug 10 completely leaves the wall of the housing 1. Fluid flow from the test formation into the cavity the pipes above the device are carried out through the central passageway.

In the process of inflow into the sub-packer interval, small geophysical equipment is lowered on the cable to remotely record the characteristics of the reservoir and fluid at the time of drainage of the well zone under study. At the end of the research, the equipment is lifted into the pipes and the valve is closed by the tension of the pipe string (plug 10 returns to its original position) to record the pressure recovery curve using autonomous pressure gauges placed under the packer in a special instrument socket outside the through channel. This completes the research cycle. To record a series of study characteristics, you can repeat it several times. At the end of the research, if necessary (for example, to isolate hydrogen sulfide-containing aquifers

seams) inside the pipes 31 they lower on the logging cable the container 35 with the cementing material (FIG. 5). Under the action of the container's own weight, the mounting bushing 22 with a sealing ring 29

sits on saddle 20 (fig. 1). Thereafter, in the pipes 31, on which the testing device 30 is lowered into the well, an overpressure is created, under the action of which the separation piston 23 starts

move down and pushes the dump material from the container into the annular space 36 / clogs the spacing of the aquifer and the perforations of the casing 37

(figure 5). Then the pressurization in the pipes is stopped, the container on the cable and the device for testing the wells in the pipes are lifted to the surface.

The device allows

multi-cycle reservoir testing; to perform remote hydrodynamic and geophysical reservoir studies with the help of small-sized equipment lowered on the cable into the zone under investigation, to carry out remote monitoring of

parameters of the fluid and the reservoir directly in the drainage of the productive formation, to produce operational isolation of the aquifers and thereby prevent the overflow of reservoir

fluids and pollution of the upper freshwater horizons.

Claims (1)

The invention device for well testing, comprising a housing, upper and lower adapters, a stem and a sleeve with a valve made in the form of a cylindrical plug with sealing rings and mounted with the possibility of blocking the central bore channel of the sleeve, and equipment lowered on the cable, that is, in order to expand the functionality of the device 5 with a valve at the bottom ends and with a landing one, by providing plugging with the lower sleeve, coupled to the landing holes of the well, it is scrap. equipped with a saddle mounted in the upper adapter, the equipment is made in the form of a hollow pipe with a separating piston on the upper and reverse 3 tx iq ate Yu with And gi Yag- :,  .CHChCh AC ") "ABOUT iQ Iq O- rrj L JN " Yag- :, - № „ST7 J //  V GL:;, T5 V i 1G V, -1 .-; i- TTT-T /, U f xV / - V / 4 th -, s - r s. -H- t: C o