RU65963U1 - GARIPOV'S Borehole Installation - Google Patents

Abstract

The utility model relates to the borehole development and exploitation of multi-layer hydrocarbon deposits, namely to the technique of simultaneous and separate exploitation of several production facilities by one well and can be used for hydrocarbon production from the well. A downhole installation includes a pipe string forming steps for operating two or more development objects, each of which includes at least one packer, one column disconnector, one adjustable bushing device, instrumentation and suspension equipment. What is new is that the well installation is provided with at least one fixed landing element of a given length installed at a predetermined distance above or below the packer, while the suspension equipment is located inside the well installation on the fixed landing elements. The reference landing element can be made, for example, in the form of a sleeve, or a coupling, or a collet gripper, or a stop, or a locking device. EFFECT: increased accuracy and reliability of the landing of packers of a well installation at a predetermined depth of the formation and installation and removal of hanging equipment in a well installation without raising the tubing. 6 c.p. f-ly, 2 ill.

Description

The utility model relates to the borehole development and exploitation of multi-layer hydrocarbon deposits, namely to the technique of simultaneous and separate exploitation of several production facilities by one well and can be used for hydrocarbon production from the well.

Currently, when launching a multi-packer installation into a well, one often encounters the problem of accidentally installing packers on the coupling joints of the production string, which have irregularities, roughness and threads on the inner surface. If the rubber packer cuffs accidentally hit the coupling joints, it is impossible to achieve a tight packer fit, which makes the installation of a single-multipacker installation in the well unreliable and low-efficient. This is due to the fact that when lowering the pipes with an increase in their number and, correspondingly, their weight, their uneven elongation occurs when the specified depth is reached. On average, one pipe can be extended by 1-8 mm. The weight of the suspension of pipes lowered to a depth of 2800 m on average reaches about 30 tons, under the influence of such a load, the upper pipes are maximally lengthened, the lower ones are less. In addition, the unevenness of the tightening of the pipes in the coupling joints also affects their elongation. All this leads to the fact that the suspension of pipes becomes unpredictably longer than the "pipe measure" by 2-6 m, while not taking into account the presence of the human factor - errors when measuring the length of pipes at the wellhead.

In case of accidental contact of the rubber packer cuffs on uneven couplings of the production casing, at the time of compression of the rubber cuffs when the packer is planted, they are uneven

deformation leading to cracking or rupture of the rubber cuffs in the irregularities of the coupling joints or incomplete fit, which leads to an leaky fit of the packer. Since a lot of packers are used in a well installation for simultaneous and separate operation, with the increase in the number of packers used, the likelihood of rubber cuffs getting at least one of the packers into the coupling irregularities of the production casing sharply increases, which, accordingly, significantly reduces the reliability of installation in the well may lead to reduced regulation of production.

The closest analogue to the proposed utility model is a well installation of the day for simultaneous and separate development of several production facilities by one well, including a pipe string, divided by packers into steps, containing well chambers, adjustable connecting devices (fittings, valves, regulators), telescopic connections, a column disconnector , connecting and measuring devices, suspension equipment (Mirzadzhanzade A.Kh., Ametov IM, Khasaev AM et al. Technology and equipment for oil production. M; Not ra 1986 s.186-197).

During the installation of a well-known downhole installation in the well, or subsequently, the packers become leaky due to the accidental ingress of the packer sealing cuffs into the internal irregularities of the coupling joints of the production casing. And with a leaky packer landing, it is impossible to carry out not only regulation, but also accounting for the selection of hydrocarbons, which leads to a decrease in the efficiency of production regulation.

In addition, the suspended downhole equipment used in this installation is installed in the process of underground workover and is non-removable.

The objective of the utility model is to increase accuracy and reliability.

planting the packers of the well installation to a predetermined depth of the formation and installing and removing hanging equipment in the well installation without raising the tubing.

The task is achieved in that the well installation, including a pipe string, forming steps for operating two or more development objects, each of which includes at least one packer, one column disconnector, one adjustable fitting device, instrumentation and suspension the equipment, according to the utility model, is equipped with at least one reference landing element of a given length, installed at a predetermined distance above or below the packer, while the suspension equipment p zmescheno downhole installation on the reference seat elements.

To increase the reliability of a well installation, the following additional technical solutions can be implemented.

In a downhole installation, the reference landing element can be made, for example, in the form of a sleeve, or a coupling, or a collet gripper, or a stop, or a locking device.

The reference landing element is made with a given length, for example, one, two, three meters, but not more than the minimum length of tubing pipes.

The reference landing element in the downhole installation can be placed above or below the column disconnector.

Suspension equipment can be performed, for example, in the form of an anchor, a filter, a standalone instrumentation.

The downhole installation is equipped with at least one downhole camera with an adjustable sounding device and / or control device installed in it.

The downhole installation is equipped with at least one submersible pump.

The essence of the proposed solution lies in the fact that the supply of the well installation with reference (with magnetic marking) landing elements allows with high accuracy, up to several centimeters, to relate or tie the place of landing of the packers, as well as other parts of the layout, to different intervals of the geological section of the well.

Knowing the given distance in the downhole installation of the reference landing elements of a given length with respect to the packers, it is possible to reliably predict the exact location of each packer between the coupling joints of the production string, as well as outside the leakage interval.

In addition, the benchmark landing elements perform the role of not only a benchmark, but also as a landing element for placing the suspension equipment inside the well installation, necessary for the implementation of this production process.

The supply of the well installation with fixed landing elements allows quick and trouble-free installation of anchors, filters, autonomous control and measuring devices or other suspended equipment on them, as well as removing it, for example, using cable technology, without resorting to expensive well repair associated with lifting Tubing.

Depending on what is supposed to be placed on the reference landing elements, as the last, various devices are used in their design features and structure, for example, from simple bushings and couplings with recesses and grooves to complex collet grips, stops and locking devices.

Couplings with recesses and grooves allow the use of spacers and position locks for low-weight launching devices, for example, instrumentation. Emphasis and various

collet grips are used to hold inside the tubing a significant weight and size of suspended well equipment, for example, sand filters.

Installation and easy removal of anchors in a well installation allows you to catch, remove, tools and other equipment that have fallen into the well.

When installing filters and stand-alone instrumentation, you can do without the use of cable technology, for example, dropping them into the well, where in the fall, under the influence of gravitational forces, are attached and fixed on the reference landing elements.

The additional use of autonomous instrumentation mounted on the reference landing elements allows opposite each formation to record information about the parameters of the operational object, to register and write information to the memory of autonomous devices simultaneously and separately for each formation while simultaneously developing several objects at the same well, which allows you to optimize the operation of the well in a multilayer field, to increase the efficiency of accounting when developing heel watered out operational objects with low formation pressure and at high GOR oil pump methods.

In injection and fountain wells, anchors, filters, autonomous control and measuring devices and other equipment suspended on reference landing elements can be removed from the well with a rope tool without stopping the well. In pumping wells, anchors, filters, stand-alone instrumentation and other equipment suspended from reference landing elements are removed from the well after removing the deep pumps.

Figure 1 presents the downhole installation, a General view; figure 2 - installation, equipped with a deep pump.

The downhole installation includes several stages, each of which consists of pipes 1, a packer 2, a reference landing element 3 of a given length, located at a predetermined distance from the packer 2. In the installation there are placed column disconnectors 4, downhole chambers 5, adjustable fitting devices 6 located in them and / or instrumentation 7 for measuring the annular parameters of the formation, anchor 8, sand filter 9, stand-alone instrumentation 10 for measuring the parameters of the fluid in the well elevator, funnel 11, depth lon gest pump 12. Anchor 8, filter 9 and autonomous test instruments 10 disposed on the landing reference cell 3. In the lower end of the installation plug located or circlip or retaining sleeve or nipple 13, funnel 11.

The downhole installation is located in production casing 14 with perforation 15.

Implementation example.

After perforation 15 of the production casing 14, equipment is selected for each stage of the well installation separately: pipe columns 1, packers 2, borehole chambers 5, column disconnectors 4, adjustable choking devices 6, control and measuring devices 7, reference landing elements 3, anchor 8 , filter 9, autonomous control and measuring devices 10 for studying liquids in a well elevator with certain technical parameters for each production facility.

Using the "pipe measure" determine the exact distance between the reference landing element and the packer.

Then begin the descent of the prepared equipment shown in figure 2 in the following order. Connect the retaining ring 13 to the column

pipes 1, then a borehole chamber 5 with an adjustable sounding device 6 or a control and measuring device 7, a reference landing element 3 for installing an autonomous control and measuring device 10 for measuring the parameters of the liquid in the elevator above the lower layer and a packer 2, on which the column disconnector 4 is installed Connect the pipe string 1 and lower the first stage of the well installation to a predetermined depth.

Using cable technology in a run-down stage of a well installation, studies are carried out using a magnetic coupling locator and gamma-ray logging with a chart to determine the location of the reference landing element. The data obtained are compared with the available data of geophysical studies of the well to determine the location of the coupling joints of the production string. After applying the gamma-ray readings, the diagrams of the couplings locators recorded in the production casing and the lower stage of the well installation are compared. Using the diagram, knowing the given position of the reference landing element, the exact position of the packer and its rubber cuffs is established relative to the coupling joints of the production casing. If the rubber elements of the packer are superimposed on the coupling joints of the production string, on the wellhead, by the KRS team, the downhole installation is lowered or raised to a certain distance sufficient for the packer to fit securely outside the coupling joints.

If, when applying the diagrams, the location of the packer does not coincide with the location of the sleeve connection of the production string, the lower packer is planted, i.e. carry out the installation of the lower stage. Using the disconnector columns 4 disconnect the lower stage of the installation and raise the overlying pipe.

On the surface collect the upper stage of the installation. Install

the disconnector of the column 4, then connect the pipe string 1, the borehole chamber 5, with an adjustable choking device 6 and / or control device 7, a reference landing element 3 for installing an autonomous control device 10 for measuring the parameters of the liquid in the elevator above the upper layer, packer 2, reference landing element 3 for the anchor 8 and the disconnector of the column 4 with a funnel 11.

A “pipe measure” is used to determine the distance between the upper packer 2 and the lower disconnector of the column 4. The second reference landing element 3, for installing an autonomous control and measuring device 10, is usually not used to bind the packer (mainly for monitoring and is used in wells with strong curved columns, where a strong elongation of the descent pipes and with a significant distance between the packers is possible). The distance is calculated using the early diagrams between the lower installed packer and the upper packer prepared for the descent. To do this, summarize the length of the packer, the column disconnector, the borehole chamber, the reference planting element with the length of the pipes between them and find the exact distance between the packers. On the locator diagram of the production casing couplings, the distance “along the pipes” to the upper packer is laid up from the location of the lower packer and its location is found on the diagram. In the case of overlapping locations of the well packer packer and production string coupler, the distance between packers is added or reduced due to the additional use of nozzles or long pipes. After performing these operations, the descent into the well of the upper stage of the installation begins.

After lowering the upper stage of the installation to a predetermined depth, the upper stage and the lower stage of the well installation are connected using a column disconnector. For control, a device with a magnetic locator of couplings is lowered into the borehole installation using cable technology.

Record the chart. Next, the readings of the obtained diagram are compared with the arrangement diagram of the coupling joints of the production casing. After applying the gamma-ray readings, the charts of the couplings locators recorded in the production casing and the upper stage of the well installation are compared.

A “pipe measure” is used to determine the distance from the reference landing element to the upper packer. If, when applying the diagrams, the location of the packer is different from the location of the sleeve connection of the production string, the upper packer is securely fit, i.e. carry out the installation of the upper stage and the downhole installation as a whole.

Then, with the help of cable technology, autonomous control and measuring devices 10 are lowered, at anchors, onto the reference landing elements 3, sequentially first to the lower, then to the upper.

The disconnector of the column 4 is disconnected with the funnel 11 and the pipe string 1 is lifted. Next, the deep pump 12 is lowered.

After the wellhead equipment is installed, a well is launched, for example, in a gushing operation or for injection.

The diagrams in FIGS. 1 and 2 of the well installation can be used to isolate the upper, waterlogged development object and bring the lower development object into operation, while using instrumentation 7 and 10 to monitor the parameters of the isolated and working formation.

The use of fixed landing elements with a given length, for example, one, or two, or three meters, but not more than the minimum length (8-10 m) of tubing, makes it easy to find and highlight them on the diagrams of the locator couplings, very different from the specified length of the pipes the columns.

Reference landing elements of complex design with an ambiguous unevenly distributed magnetic field are additionally supplied

branch pipe with a given length. Such reference landing elements with a nozzle easily differ from other images not only by the intensity of the magnetic marks, but also by a smaller, specified distance between them, for example, 1, 2, 3, 4 m from the pipe coupling magnetic marks with a distance of 8-10 m.

Using a filter 8 mounted on the lower reference landing element 3 in the lower stage of the installation will prevent sand from entering the intake of the deep pump 12. The use of a funnel 11 from the bottom and top of the installation will allow the free use of rope tools for sequential extraction of the armature 8, stand-alone instrumentation 10, filter 9, the change of instrumentation 7 in the downhole chambers 5.

Example.

At well 195 of the Sporyshevskoye field, a two-packer well installation was installed in one run. The depth of the well was 2535 m.

The brigade of the cattle was launched well with measuring its length in the following order. A 0.2 m plug was connected to a 59.55 m pipe string, then a 2.4 m long borehole chamber with a sounding device, a 1.2 m column disconnector, a 0.2 m sub, a 235 m pipe string, a 2.4 m borehole , a pipe string 39 m, a borehole chamber 2.4 m, a pipe string 40 m, a packer 1.7 m, a sub 0.2 m, a pipe string 29.5 m, a fixed landing element 2 m for installing an autonomous measuring instrument for measuring elevator parameters above the upper layer. Then they connected a string of pipes and lowered the downhole installation to a predetermined depth of 2520 m. According to the “measure of pipes”, the distance between the packers was 320.2 m. The distance between the upper packer and the upper reference landing element was 29.7 m. Considering that approximately in the middle of the packer cuffs are located, then the distance from the rubber

the cuff of the upper packer to the upper reference landing element is 30.55 m. Similarly, the distance from the upper reference landing element to the rubber cuffs of the lower packer was found to be 352.45 m. On the diagram of the locator diagram of the downhole couplings, the upper reference landing element was found (the first two meter interval from the top with two magnetic marks) and postponed the location of the two-meter upper reference landing element and the distance from it to the rubber ma the upper and lower packers, respectively 30.55 m and 352.45 m, compared these sections with the production casing couplings - no overlaps occurred, checked these calculations similarly to the binding with the lower reference landing element, after which the packers were planted and the borehole was installed without complications installation in one run.

Then, with the help of cable technology, the autonomous control and measuring devices for the fixed landing elements were anchored. After installing the wellhead equipment, a well was launched for injection. A week later, the devices were lifted sequentially from the bottom up with anchors and received detailed information about the injectivity of the water separately for the development / injection facilities.

The use of a borehole rig with fixed landing elements allows the packers of the rig to be planted to a predetermined depth with high accuracy, eliminating the possibility of accidentally getting rubber packer cuffs onto the coupling joints of the production casing, and also makes it possible to securely fasten at certain depths at any time technologically trouble-free, simply and reliably wells autonomous instrumentation, various devices, for example, anchors and sand filters.

Claims (7)

1. A downhole installation comprising a pipe string forming steps for operating two or more development objects, each of which includes at least one packer, one column disconnector, one adjustable bushing device, instrumentation and suspension equipment, characterized in that the downhole installation is equipped with at least one reference landing element of a given length installed at a predetermined distance above or below the packer, while the suspension equipment is placed inside the well installation on the reference landing elements. 2. The downhole installation according to claim 1, characterized in that the reference landing element is made, for example, in the form of a sleeve, or a coupling, or a collet gripper, or a stop, or a locking device. 3. The downhole installation according to claim 1, characterized in that the predetermined length of the reference planting element does not exceed the minimum length of the tubing. 4. The downhole installation according to claim 1, characterized in that the reference landing element is placed above or below the column disconnector. 5. The downhole installation according to claim 1, characterized in that the suspension equipment is made, for example, in the form of an anchor, a filter, an autonomous control and measuring device. 6. The downhole installation according to claim 1, characterized in that it is equipped with at least one downhole camera, with an adjustable fittings device and / or control device installed therein. 7. The downhole installation according to claim 1, characterized in that it is equipped with at least one submersible pump.