RU2387825C1 - Sharifov's mandrel instrument to measure well parameters - Google Patents

Abstract

FIELD: oil-and-gas industry.

SUBSTANCE: invention relates to hydrocarbons production and can be used for measuring pressure and/or temperature in whatever zones of fill-in or pressure-observation well with one or several operating objects, particularly, in simultaneous - separate production or injection, or analysis of formations of one well. Mandrel instrument comprises tool extractor and case consisting of top, central and bottom tightly jointed parts and furnished with hydraulic channels (HC), inner and outer grooves accommodating upper and lower sets of sealing gaskets (SG). Case lower part is provided guide tip arranged on its bottom or has a tip-like shape. Said tip has no HC or has one or several HC and/or fixation element. Case central part accommodates sealed main measuring system (MS) consisting of PCB with connected for connection to PC, power supply and transducer. The latter is connected with at least one case HC. Instrument is arranged in mandrel off-center pocket - well chamber. To measure and record dynamics of well parameters and/or back-up or dual measurement of well parameters, instrument if furnished with one or several additional identical MS. Note here that additional MS can be tightly placed in case lower part under lower set of MS and/or in case upper part or in tool extractor above upper set of SG, and/or in case central part between MS instruments. Note also that transducers of additional MS are connected with inner and/or outer mandrel space via appropriate HC.

EFFECT: higher efficiency and reliability of mandrel instrument.

11 cl, 9 dwg

Description

The invention relates to techniques and technologies for the production of hydrocarbons (oil, gas, gas condensate, etc.) and is intended to measure pressure and / or temperature in the annular (bottomhole) and / or pipe zones in a production, injection or piezometric well having one or more production wells objects, in particular during simultaneous-separate production (OMP) or injection (ORE), or exploration (ODP) of the layers of one well.

The known method of simultaneous-separate and alternate operation of several layers of one injection well (patent RU 2253009 C1, 05.27.2005, see paragraph 1 and 15 according to the claims), including the descent into the well on a pipe string of packers and well chambers with removable valves made in the form of a regulator with one or two internal opposite replaceable fittings without or with reverse spring-loaded nodes to provide one-way or opposite flow direction, and / or a gas-lift valve for regulating pressure flow, and / or pressure regulator before or after itself, and / or differential pressure regulator to maintain the flow rate, and / or depth gauge without or with a thermometer for measuring pressure and temperature before and / or after, and / or the flow regulator with a manometer, and / or a manometer with a fitting for measuring pressure while simultaneously flowing through it a working medium or produced fluid, and / or a flow meter, and / or a shutoff device, and / or a stabilizer, and / or a blank plug.

A device for researching wells (RU patent for utility model No. 75690) is known, comprising a housing configured to be lowered into the wellbore and capable of installing at least one downhole tool, the housing having a solid base in which at least at least one seat intended for installation of an in-depth device in it.

A well-known electronic borehole pressure gauge "mandrel" (RU patent for industrial design No. 59267, 08/25/2004), comprising a housing in the form of a stepped cylinder with a hole, inside of which one measuring system is sealed for recording annular pressure and / or temperature.

A known pressure gauge for a lateral gas lift mandrel type PPS53 (see Internet. Www.gosco.ru/page29.html.), Comprising a housing with upper and lower sealing cuffs, inside of which a measuring system for recording borehole parameters is hermetically placed.

A device for measuring downhole parameters is known (patent RU 2249108 C1, March 25, 2005), including at least one landing socket with a removable downhole tool lowered into a well on a pipe string, while the landing socket is made in the form of an oval downhole chamber, having an eccentric pocket with seating surfaces for sealing elements and one or more hydraulic channels communicating the cavity of the pocket with the annular and / or pipe spaces of the well, and the downhole device is made in the form of a hollow a unit with hydraulic channels, external sealing elements and a retainer, inside which the measuring system is located without or with a damper, and the downhole tool is installed in an eccentric pocket of the borehole chamber with the possibility of communicating annular and / or pipe space through hydraulic channels with a measuring system for recording physical parameters of the medium in the annulus and / or pipe space of the well, and / or operating parameters of the pumping unit.

These deep devices are equipped with only one measuring system, which reduces the efficiency and reliability of their operation in the well, since there is a high probability of failure of one measuring system when dynamic shock is created on the device by a mechanical and / or hydraulic box at the time of installation and removal using cable technology from mandrels - downhole chambers.

The aim of the invention is to increase the reliability and efficiency of the mandrel device by equipping it with at least two independent measuring systems for measuring and recording, when placing it in an eccentric pocket of the mandrel - the borehole chamber (for example, type CT, KVMM, etc.), dynamics borehole parameters, in particular pressure and / or temperature in the annular and / or pipe zones in the producing or injection, or piezometric borehole with one or more production reservoirs

A mandrel device is lowered into the well using a cable technique and installed in an eccentric pocket of the well chamber by creating dynamic impacts on the device using a cable tool (mechanical box), and is likewise removed (mechanical or hydraulic box) from the well chamber after a long time of its operation ( for example, 10-30 days), that is, after studying the dynamics of the borehole parameters, in particular bottomhole or annular and / or pipe pressure during well operation, as well as the curve of the sludge and restoring formation pressure when shutting down the well.

The practice of using MIKON or GERS type mandrel devices with one measuring system at the Priobskoye field has shown that often their elements (electronic circuit board, sensor or power source) break (fail) from a dynamic shock at the time of installation and removal of devices from the eccentric pockets of the downhole chambers KT1 and KBMM types, and these breakdowns, unfortunately, are not immediately detected, namely after a long time the devices were in the well and removed, which leads to a negative result and additional cable costs. However, equipping the device with two independent measuring systems will reduce the risk of their simultaneous damage, which will increase the reliability of the device, and hence the technological and economic effect of its use.

The mandrel device includes a fishing head interconnected from top to bottom and a housing consisting of at least upper, middle and lower hermetically connected parts, and made with hydraulic channels, upper and lower outer grooves, on which the upper and lower are mounted, respectively sets of sealing cuffs. The lower housing part is equipped with a guide tip from the bottom or has the shape of a tip, while the tip is made without or with one or more hydraulic channels and / or a clamp. In the middle part of the casing, the main measuring system is located and hermetically isolated from the effects of the borehole medium, consisting mainly of an electronic board with a connector for connecting to a personal computer, a power source and a sensor connected to at least one hydraulic channel of the casing for measuring and recording the device, when placed in an eccentric pocket of the mandrel - the borehole chamber, the dynamics of the parameters in the annular or near-well zone of the well.

The purpose of the invention is achieved in that for measuring and recording the dynamics of parameters in the borehole zone of the well and / or duplicating or double measuring the dynamics of well parameters, the device is equipped with one or more additional measuring systems, each of which consists mainly of a separate electronic board with a connector for connecting to a personal computer, power supply and sensor, and is hermetically placed in the lower case under the lower set of sealing lips and / or in the upper case or for fishing the head above the upper set of sealing cuffs, and / or in the middle part of the housing between the sets of sealing cuffs, the sensor or sensors of additional measuring systems connected to the internal cavity and / or external space of the mandrel through the corresponding hydraulic channels of the housing.

Depending on the conditions of use of the mandrel device, there may be:

- the main measuring system through its sensor is rigidly connected to the lower end of the upper housing part and is sealed on top, between the lower and upper sets of sealing lips, in the middle part of the housing made without or with a lower inner blind end, while the hydraulic channels of the housing are located on the upper its parts under the upper set of sealing cuffs and are connected with the sensor of the main measuring system for measuring and recording the dynamics of parameters, in particular pressure and / or temperature in the annulus th or near-wellbore zone;

- the main measuring system through its sensor is rigidly connected to the upper end of the lower case part and is hermetically seated from below, between the lower and upper sets of sealing lips, in the middle part of the case, made without or with the upper inner blind end, while the hydraulic channels of the case are located on the lower its parts are above the lower set of sealing cuffs and are connected to the sensor of the main measuring system for measuring and recording dynamics of parameters, in particular pressure and / or temperature in the annular and whether the bottomhole zone of the well;

- an additional measuring system through its sensor is rigidly connected to the upper end of the tip and sealed below, under the lower set of sealing cuffs, in the lower part of the housing made with the upper inner blind end, and this sensor is connected to the hydraulic channels of the tip for measuring and recording dynamics additional parameters, in particular pressure and / or temperature in the pipe zone of the well;

- the additional measuring system through its sensor is rigidly connected to the lower end of the middle part of the body and is tightly placed on top, under the lower set of sealing lips, in the lower part of the body in the form of a tip made with a lower blind end, and this sensor is connected to the hydraulic channels of the middle part of the body above the lower set of sealing cuffs, for duplication of measurement and registration by the device of dynamics of parameters, in particular pressure and / or temperature in the annular or near-well zone of the well;

- an additional measuring system through its sensor is connected to the lower end of the fishing head, made with one or more hydraulic channels, and is hermetically placed on top, above the upper set of sealing cuffs, in the upper part of the housing made with the lower inner blind end, and this sensor is connected with hydraulic channels of the fishing head for measuring and recording the dynamics of additional parameters by the device, in particular pressure and / or temperature in the borehole zone;

- an additional measuring system through its sensor is connected to the upper end of the upper housing part and is hermetically seated from below, above the upper set of sealing cuffs, in a fishing head made with the upper inner blind end, and this sensor is connected to the hydraulic channels of the upper housing part under the upper set of sealing cuffs, for double measurement and registration by the device of the dynamics of parameters, in particular, in the annular or near-well zone of the well;

- the sensors of the primary and secondary measuring systems are connected to the hydraulic channels of the middle part of the body above the lower set of sealing collars, for double measurement and recording by the device of the dynamics of parameters, in particular pressure and / or temperature in the annular or near-well zone of the well;

- sensors of the primary and secondary measuring systems are connected to the hydraulic channels of the upper housing part under the upper set of sealing cuffs, for double measurement and registration by the device of the dynamics of parameters, in particular pressure and / or temperature in the annular or bottom-hole zone of the well;

- the middle part of the housing is made without or with an internal partition, while the main and additional measuring systems are connected to the upper and lower parts of the housing, and are hermetically placed above and below, between the lower and upper sets of sealing lips, in the middle part of the housing, while the sensors are connected with hydraulic channels of the housing, for duplication or additional measurement and registration by the device of dynamics of parameters, in particular pressure and / or temperature in the annular or bottomhole and / or pipe zones of wells .

- the housing is equipped with at least one circulation channel without or with a fitting for the flow of formation fluid or working agent.

The figures show a number of versions of mandrel devices, in particular in figures 1, 2 - versions of devices (dual-zone) for measuring and recording the dynamics of well parameters, in particular pressure and / or temperature in the annular (bottomhole) and pipe zones of the well; figure 3, 4, 5 - options for devices (single-zone) for duplication or double measurement and registration of parameters in the annular (bottomhole) zone of the well; figure 6 - device (single-zone or dual-zone) for measuring pipe and / or annular pressure; Fig.7 is a device (dual-zone) with a fitting for measuring pressure and / or temperature in the annular (bottomhole) and pipe zones of the well; on Fig - the device in the mandrel - downhole chamber; figure 9 is a multi-packer installation with downhole cameras, with devices installed in them.

The mandrel device (FIGS. 1-5, 7) includes a fishing head 1 (for example, threaded) interconnected from top to bottom and a housing consisting of upper 2, middle 3 and lower 4 hermetically connected parts. The upper 2 (Figs. 1, 3, 4, 5, 6) and / or the lower 4 (Figs. 2, 5, 6, 7) body part is made with one or more hydraulic channels 5. Upper 2 and lower 4 (Fig. 1, 2, 6, 7) or upper 2 and middle 3 (Figs. 3, 4, 5) body parts are made with upper 6 and lower 7 grooves. On the grooves 6 and 7, respectively, the upper 8 and lower 9 sets of sealing cuffs are installed. The lower housing part 4 from below is either equipped with a tip 10 without or with one or more hydraulic channels 11 (Figs. 1, 2, 7), or is made from below in the form of a tip (guide) (Figs. 3, 4, 5).

The main measuring system (Figs. 1-7), which consists mainly of an electronic board 12 with a connector 13 for connecting to a personal computer, a power source 14, a sensor 15 (for example, pressure and / or temperature), is placed and hermetically isolated from the effects of the borehole medium; ), for measuring and recording with the device 16 (see Fig. 8, 9), when placing it in the eccentric pocket 17 (Fig. 8) of the mandrel - the borehole chamber 18, the dynamics of the borehole parameters, in particular pressure (Pz) and / or temperature (T3) in the outer space of the mandrel 18, respectively favoring the annular zone 19 of the well 21 or the bottomhole formation zone 20 P _1, P ₂ and / or R ₃ wells 21, for example, when implementing the OSA or OCR technology or PPR (9).

The main measuring system (Figs. 1-7), for recording the dynamics of borehole parameters (for example, Рз, Тз) in the annular 19 or bottom-hole 20 zone of the well 21 (Fig. 9), or is rigidly connected through its sensor 15 to the lower end 22 of the upper housing part 2 and is hermetically mounted on top in the middle housing part 3 made with the lower inner blind end 23 (Figs. 1, 3, 4), or is rigidly connected through its sensor 15 to the upper end 24 of the lower housing part 4 and is hermetically mounted from below in the middle part 3 of the housing, made either without (figure 5) or with (figure 2, 7) the upper inner blind end 25, either without or with a partition 26 (Fig.6).

To measure and record well parameters (for example, Рт, Тз, etc.), including in the inner cavity of the mandrel 18, that is, in the pipe zone 27 (for example, at the depth of the formation P ₁ , P ₂ , P ₃ ) of the well 21 , also the device 16 (Fig. 8, 9) is equipped with at least one additional measuring system (see Figs. 1-7), consisting mainly of a separate electronic board 28 with a connector 29 for connecting to a personal computer, a power source 30 and sensor 31 (e.g., pressure and / or temperature). In this case, the additional measuring system is either rigidly connected through its sensor 31 to the upper end 32 of the tip 10 and is sealed from below in the lower housing part 4 made with the inner upper blind end 33, the sensor 31 being connected to the hydraulic channels 11 of the tip 10 (Fig. 1 ), or it is rigidly connected to the lower end 34 of the fishing head 1, made with one or more hydraulic channels 35, and hermetically placed on top in the upper part 2 of the housing, made with the lower inner blind end 36, and Occupancy 31 connected with the hydraulic channels 35 a fishing head 1 (see FIG. 2, 7). Also, for duplication or double measurement of borehole parameters (for example, PT, etc.) in the pipe zone 27 of the well 21 (Fig. 9), the device 16 can be additionally equipped with two measuring systems located both from below in the lower part 4 of the body like figure 1, so and from above in the upper part 2 of the body like figure 2.

For duplication or double measurement and registration of borehole parameters (for example, P3 and / or T3) in the annular 19 or bottom-hole 20 zone of the well 21 (Fig.9), the device 16 is equipped with at least one additional measuring system (Fig.3-5 ), consisting mainly of a separate electronic board 28 with a connector 29 for connecting to a personal computer, a power source 30 and a sensor 31. In this case, the additional measuring system is rigidly connected through its sensor 31 or to the lower end 37 of the middle part 3 of the housing and is hermetically placed on top in n the lower part 4 in the form of a tip made with a lower blind end 38, and the middle part 3 of the housing is made with one or more hydraulic channels 39 connected to the sensor 31 (for example, see Fig. 3), or it is rigidly connected to the upper end 40 the upper housing part 2 and is hermetically seated from below in the fishing head 1 made with the upper inner blind end 41, while the sensor 31 is connected to the hydraulic channels 5 of the upper housing part 2 (for example, see FIGS. 4, 5).

For duplication or additional measurement and registration by the device 16 of the parameters, in particular (P3 and / or Pt) in the annular 19 (bottom-hole 20) and / or pipe 27 zones of the well 21 (Fig. 9), the main and additional measuring systems (Fig. 6 ) through the sensors 15 and 31 can be rigidly connected to the upper 2 and lower 4 housing parts, and are hermetically placed above and below, between the lower 9 and upper 8 sets of sealing lips, in the middle part 3 of the housing, while the sensors 15 and 31 are connected with hydraulic channels 5 of the upper 2 and lower 4 body parts.

The device can be made without or with a latch 42 (Fig.2, 7), and is also equipped with at least one circulation channel 43 without or with a fitting 44 (see Fig.7), for the overflow of formation fluid or working agent.

The device (Fig.1-7) works as follows. Each device 16 is installed, using cable technology, in an eccentric pocket 17 of the corresponding mandrel - the borehole chamber 18 (Fig. 8, 9) by creating dynamic downward impacts with a mechanical box. After installing the device 16 in the mandrel 18, the rope tool is removed from the well 21. During operation, the device 16 with measuring systems in the well 21 measures and records the dynamics of the borehole parameters (for example, PT and / or Tz), or in the annular 19 (bottomhole 20) and pipe 23 zones, or only in the annular 19 (bottom-hole 20) or pipe 23 zone of the well 21. Next, to process measurements of the parameters of the well 21, each device 16 is removed, using cable technology, from the mandrel 18 by creating dynamic upward impacts with a hydraulic or mechanical pit m After removing the device 16 from the well 21, each of its measuring systems is connected to a personal computer and data (measurements) for the dynamics of the well parameters, in particular pressure and / or temperature, are read for processing from it.

Claims (11)

1. A mandrel device for measuring downhole parameters, including a fishing head connected to each other from top to bottom and a housing consisting of at least upper, middle and lower hermetically connected parts, and made with hydraulic channels, upper and lower outer grooves, on which respectively, the upper and lower sets of sealing cuffs are installed, the lower housing part being equipped with a guide tip from the bottom or has the shape of a tip, the tip being made without or with one or several with hydraulic channels and / or a retainer, while in the middle part of the housing is placed and hermetically isolated from the effects of the borehole medium, the main measuring system, consisting mainly of an electronic board with a connector for connecting to a personal computer, a power source and a sensor associated with at least one hydraulic channel of the housing, for measuring and recording by the device, when placing it in the eccentric pocket of the mandrel - the borehole chamber, the dynamics of the parameters in the annular or bottom-hole zone of the important, characterized in that for measuring and recording by the device, including the dynamics of parameters in the pipe zone of the well and / or duplication or double measurement of the dynamics of the well parameters, it is equipped with one or more additional measuring systems, each of which consists mainly of a separate electronic boards with a connector for connecting to a personal computer, a power source, and a sensor and is hermetically placed in the lower case part under the lower set of sealing cuffs and / or in the upper case part dissolved in a fishing head over the upper set of sealing lips and / or middle housing parts between sets of sealing cuffs, the extra sensor or sensors measuring systems are associated with the interior and / or exterior space through the respective hydraulic mandrel body channels. 2. The mandrel device according to claim 1, characterized in that the main measuring system through its sensor is rigidly connected to the lower end of the upper housing part and is hermetically mounted on top, between the lower and upper sets of sealing collars, in the middle housing part, made without or with the lower the inner blind end, while the hydraulic channels of the housing are located on its upper part under the upper set of sealing lips and are connected to the sensor of the main measuring system for measuring and recording the dynamics of the parameters, in particular pressure and / or temperature in the annular or bottomhole zone of the well. 3. The mandrel device according to claim 1, characterized in that the main measuring system through its sensor is rigidly connected to the upper end of the lower housing part and is hermetically seated from below, between the lower and upper sets of sealing collars, in the middle housing part, made without or with the upper the inner blind end, while the hydraulic channels of the housing are located on its lower part above the lower set of sealing lips and are connected to the sensor of the main measuring system for measuring and recording the dynamics of parameters, in hours stnosti pressure and / or temperature in the annulus or a near-wellbore zone. 4. The mandrel device according to claim 1, characterized in that the additional measuring system through its sensor is rigidly connected to the upper end of the tip and sealed below, under the lower set of sealing cuffs, in the lower part of the housing made with the upper inner blind end, this the sensor is connected to the hydraulic channels of the tip, for measuring and recording the dynamics of additional parameters, in particular pressure and / or temperature, in the pipe zone of the well. 5. The mandrel device according to claim 1, characterized in that the additional measuring system through its sensor is rigidly connected to the lower end of the middle part of the body and sealed on top, under the lower set of sealing cuffs, in the lower part of the body in the form of a tip made with a lower blind the end, and this sensor is connected to the hydraulic channels of the middle part of the body above the lower set of sealing cuffs, for duplication of measurement and registration by the device of the dynamics of parameters, in particular pressure and / or temperature ry in the annulus or a near-wellbore zone. 6. The mandrel device according to claim 1, characterized in that the additional measuring system through its sensor is connected to the lower end of the fishing head made with one or more hydraulic channels, and is hermetically placed on top, above the upper set of sealing cuffs, in the upper housing part, made with a lower inner blind end, and this sensor is connected to the hydraulic channels of the fishing head, for measuring and recording the dynamics of additional parameters by the device, in particular pressure and / or temperature tours in the pipe zone of the well. 7. The mandrel device according to claim 1, characterized in that the additional measuring system through its sensor is connected to the upper end of the upper housing part and is hermetically seated from below, above the upper set of sealing cuffs, into a fishing head made with the upper inner blind end, this the sensor is connected to the hydraulic channels of the upper part of the body under the upper set of sealing cuffs for double measurement and registration by the device of the dynamics of parameters, in particular, in the annular or bottom-hole zone of the well. 8. The mandrel device according to claim 3 or 5, characterized in that the sensors of the primary and secondary measuring systems are connected to the hydraulic channels of the middle part of the housing above the lower set of sealing collars, for double measurement and recording by the device of the dynamics of parameters, in particular pressure and / or temperature , in the annular or bottomhole zone of the well. 9. The mandrel device according to claim 2 or 7, characterized in that the sensors of the primary and secondary measuring systems are connected to the hydraulic channels of the upper housing part under the upper set of sealing collars, for double measurement and registration by the device of the dynamics of parameters, in particular pressure and / or temperature , in the annular or bottomhole zone of the well. 10. The mandrel device according to claim 1, characterized in that the middle part of the housing is made without or with an internal partition, while the main and additional measuring systems are connected to the upper and lower parts of the housing and are hermetically placed above and below, between the lower and upper sets of sealing cuffs, in the middle part of the housing, while the sensors are connected to the hydraulic channels of the housing, for duplication or additional measurement and registration by the device of the dynamics of parameters, in particular pressure and / or temperature, in the mud hydrochloric or bottomhole and / or zones of the well pipe. 11. Mandrel device according to claim 1, characterized in that the housing is equipped with at least one circulation channel without or with a fitting for the flow of formation fluid or working agent.

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