RU2722750C1 - Downhole filter with soluble element - Google Patents

Abstract

FIELD: oil, gas and coke-chemical industries.SUBSTANCE: invention relates to oil and gas industry. Downhole filter with soluble element comprises housing with holes tightly closed with chemically soluble material removed under action of chemical solution for preset time. Soluble element is made in form of protective casing located on inner surface of housing with holes with possibility of formation of internal-flush smooth inner diameter. Soluble element is a layer of chemically soluble material of specified thickness, which provides tight attachment on inner surface of housing and in holes of housing, tightly closing them, and providing reinforcement housing with holes. Housing with holes is at least one tubular element with holes.EFFECT: invention can be used in construction of various horizontal, directional wells, including those with extended reach drilling (ERD), for casing interval of productive horizon.6 cl, 4 dwg

Description

The invention relates to the oil and gas industry and can be used in the construction of various horizontal, directional wells, including those with a large deviation from the vertical (ERD) for casing the interval of the productive horizon, as well as in the reconstruction of wells by sidetracking as part of the production casing columns or liners for producing formation fluid.

Known Well filter containing a housing made of perforated pipe, closed with a protective casing, the holes of the perforated pipe are plugged with cut-off plugs (RF patent No. 92464, ЕВВ 43/08, publ. 03.20.10).

The disadvantages of this technical solution are the design complexity, there is no full guarantee that all plugs will fly out, in addition, they can be squeezed out during the descent and then the result will not be achieved.

Known Filter with acid-soluble plugs, containing a housing in the form of a casing pipe with holes hermetically sealed (RF patent No. 174918, EV 43/08, publ. 10.11.17,).

The disadvantages of this technical solution are:

1. The technological complexity of stamping rivets of acid-soluble material in the holes and ensuring sufficient tightness.

2. The inner diameter of the pipe is not equal bore, which makes pumping difficult:

- sales plugs due to the possibility of damage to rubber products of plugs, as well as not ensuring the pumping of a dosed volume of liquid.

- balls for activating the elements of the casing string / liners (packers and equipment MSGRP).

3. During the descent, the rivet head may be damaged on the outside and the rivet itself may fall out, which leads to a violation of the tightness of the casing.

4. Difficulty in installing additional equipment, for example, spring centralizers, turbulators and other accessories on the pipe body.

Known Well filter containing a housing with holes that are hermetically sealed with chemically soluble material that is removed under the influence of a chemical solution for a predetermined time, opening the holes of the housing (RF patent No. 2175713, ЕВВ 43/11, publ. 10.1 1.2001 - prototype).

The disadvantages of this technical solution are the practicality of using these filters, since during descent they break off or are damaged on the walls of the well in most cases, the tightness and complexity of installing spring centralizers on the pipe body are violated.

The proposed technical solution eliminates the above disadvantages, allows for sufficient tightness of the design of the casing pipe - filter with a soluble element during its descent, by sealing the holes with a thin chemically soluble layer located inside the body, to improve the quality of cleaning of the wellbore from mechanical impurities formed during drilling wells and during the descent of the casing or liner, and thereby ensuring:

- increasing the feasibility of drilling lengths, including the productive section, in view of the possibility of lowering the Well Filter with a soluble element (such as Casing Design - a filter with soluble elements) with a casing of the entire drilled productive interval, increasing the area of fluid flow into the Well Filter with soluble element and, accordingly, increasing the production of formation fluid, avoiding collapse of the rock of the reservoir, in addition, it allows the descent of the Well Filter with a soluble element with MSGR equipment for these operations and the possibility of lowering the Well Filter with a soluble element in combination with blind casing separate sections and the installation of packers for the production of selective reservoir fluid sampling.

It also provides:

- a multiple increase in the feasibility and economic feasibility of drilling various horizontal, directional wells, including those with a large deviation from the vertical (ERD), casing drilling with installation in the production interval and drilling sidetracks, which ultimately increases drilling efficiency ceteris paribus, and reduces material, time and labor costs when lowering the Well filter with a soluble element.

This goal is achieved in that the Well filter with a soluble element contains a housing with holes that are hermetically sealed with a chemical-soluble material that is removed under the influence of a chemical solution for a predetermined time, and is additionally equipped with a protective casing located on the inner surface of the housing with holes with the possibility of forming an equally smooth inner diameter, the protective casing is a layer of chemically soluble material of a given thickness, which provides a tight seal on the inner surface of the casing and in the openings of the casing, hermetically closing them, and providing reinforcement of the casing with openings, while the casing with openings is at least one tubular element with holes, tubular elements are tightly interconnected, chemically soluble material is a chemically soluble metal or composite metal, an acid-soluble or an alkali soluble metal or composite metal, which makes it possible to remove it from the inner surface of the housing 1 with holes 2, the holes in the housing are cut or drilled in various geometric shapes, the holes in the housing are made with dimensions sufficient for the flow of formation fluid, the chemical solvent is an acid solution or a mixture solutions of acids or chemically active liquids.

In FIG. 1 shows a well filter with a soluble element, comprising a housing with holes and with a protective casing located on the inner surface of the housing with holes, hermetically closing the holes, and at one end of which a connecting element in the form of a coupling is fixed, and a nipple at the other end (threaded connection in the form of a coupling), in FIG. 2 shows a wellbore filter with a soluble element, lowered into the well in the production casing string, in combination with blind casing pipes, installed in the productive horizon and containing a housing with holes and a protective casing located on the inner surface of the housing with holes, hermetically closing the holes, wherein the housing with holes and with a protective casing is a tubular elements with holes, hermetically connected to each other by threaded connections in the form of a nipple coupling, each tubular element with holes is equipped with a protective casing, in FIG. 3 shows a Well filter with a soluble element, lowered into the well casing, a liner installed in the productive horizon with MSGRF equipment in the form of circulation sleeves and two packers and containing a housing with holes and with a protective cover located on the inner surface of the housing with holes, hermetically closing the openings, while the housing with the openings is tubular elements with openings, hermetically connected to each other by threaded connections in the form of a nipple coupling and / or MSGRP equipment, and each tubular element with openings is provided with a protective casing, in FIG. 4 shows a Wellbore filter with a soluble element, lowered sequentially into the well as part of the casing, installed in the production horizon, which is drilled by two different diameters of the rock cutting tool, comprising a housing with holes and a protective cover located on the inner surface of the housing with holes, hermetically closing the holes wherein the housing with holes is a tubular elements with holes of two different sizes, which are hermetically connected to each other by threaded joints in the form of a nipple coupling, each tubular element with holes is provided with a protective casing, and the annular space between the tubular elements with holes of two different sizes and with protective cover sealed by packer.

The downhole filter with a soluble element (as the design of the casing - filter with soluble elements) contains a housing 1 with holes 2 and a protective casing 3.

The housing 1 with openings 2 is at least one tubular element with openings 2 in the form, for example, of a pipe section of a given size with openings 2 made therein of a given number and size sufficient for the flow of formation fluid.

Holes 2 are holes of various geometric shapes, for example, in the form of slots or round holes made by known means and methods, for example, notching.

For example, the housing 1 with holes 2 is made of casing with holes 2.

The protective casing 3 is located on the inner surface of the housing 1 with openings 2 with the possibility of the formation of an equal bore smooth (not abrasive) inner diameter of the well filter with a soluble element.

The protective casing 3 is a layer of chemically soluble material of a given thickness, which provides a tight seal on the inner surface of the housing 1 and in the holes 2 of the housing 1 or on the inner surface of the tubular element with holes 2 of the housing 1, hermetically closing the holes 2, and providing reinforcement of the housing 1 with holes 2 .

A chemically insoluble material is, for example, a chemically insoluble metal or composite metal, an acid-soluble or alkali soluble metal, or a composite metal, or an alkali-soluble metal alloy, or an alkali-soluble composite metal, allowing it to be removed from the inner surface of the housing 1 with openings 2.

The chemically soluble material is, for example, aluminum, magnesium, zinc, alloys of aluminum and magnesium.

The protective casing 3 is made with the possibility of removing it from the inner surface of the housing 1 with holes 2 or from the inner surface of the tubular element with the holes 2 of the housing 1 after a predetermined period of time under the influence of a known chemical solvent, while opening 2 for the flow of medium without mechanical impurities , for example, formation fluid.

A chemical solvent is an acid solution or a mixture of solutions of acids or chemically active liquids, for example, alkali.

A chemical solvent in a predetermined amount, for example, a mixture of hydrofluoric and hydrochloric acids in predetermined proportions, or separately of hydrofluoric or hydrochloric acid or alkali of sodium hydroxide, removes the protective casing 3 from the inner surface of the housing 1 and from the holes 2 of the housing 1 or from the inner surface the tubular element and from its openings 2 after a predetermined period of time under the influence of a chemical solvent, dissolving the protective casing 3 and opening the openings 2 for the flow of the medium without mechanical impurities, for example, formation fluid, inside the Well filter with a soluble element.

Protective cover 3

- creates a sealing reinforcing and reinforcing protective layer on the inner surface of the housing 1 with openings 2, securely fastening in the openings 2 and tightly blocking them, while creating an impact-resistant and tight joint that withstands the pressure on the protective casing 3 by internal pressure during circulation or by external pressure during descent, including the “floating section” method;

- provides an increase in the rigidity of the design of the well filter with a soluble element and an increase in the permissible torque for rotation, which in turn provides the possibility of lowering the Well filter with a soluble element with rotation and circulation along the entire length of the production casing or liner through the shoe;

- provides the formation of a uniformly bore, smooth inner diameter of the Well filter with a soluble element with the ability to successfully pump various balls, squeeze plugs without damaging or destroying them when packing or producing multistage fracturing, etc.

The tubular elements with holes 2 of the housing 1 are hermetically connected to each other by means of, for example, threaded connections 4 in the form of a nipple coupling, welding, a packer, a multi-stage fracturing set consisting of two packers 5 and a filtering circulation coupling 6 located between the packers 5.

The well filter with a soluble element is additionally equipped with an external filter element in the form of a filter screen, for example, a wire (not shown in the figure), which allows you to have an additional filter barrier for the ingress of various mechanical impurities inside the well filter with a soluble element.

Well filter with a soluble element works as follows.

The downhole filter with a soluble element includes a housing 1 with holes 2, which is at least one tubular element with holes 2, while the tubular elements with holes 2 are hermetically connected to each other and the tubular element with holes 2 is made, for example, of section of a standard casing pipe of a given size with a given number of holes 2 and a given size, sufficient for the flow of formation fluid.

The holes 2 in the housing 1 are made of various geometric shapes, for example, in the form of slots, are performed by known means and methods, for example, notching, drilling, perforation.

On the inner surface of the housing 1 with openings 2 or on each tubular element with openings 2 of the housing 1, a protective casing 3 is arranged in the form of a layer of chemically insoluble material of a given thickness, which provides a tight seal on the inner surface of the housing 1 and in the openings 2 of the housing 1, hermetically closing them, and providing reinforcement of the housing 1 with openings 2, with the formation of an equal-bore smooth inner diameter of the Borehole filter with a soluble element and with the formation of impact-resistant and tight connection.

The protective casing 3 has known means and methods, for example, by pouring, which is carried out by known means and methods.

For example: pre-inside the housing 1 with holes 2 or inside the tubular element with holes 2 of the housing 1, a template is introduced and a chemically soluble material, for example, in the form of an acid-soluble metal, is poured into the annular space between the template and the housing 1 or between the template and the tubular element with holes 2 of the housing 1 or an alloy of acid-soluble metals, forming a layer of a protective casing 3 of a given thickness on the inner surface of the housing 1 with openings 2 or on the inner surface of the tubular element with openings 2 of the housing 1, hermetically filling the openings 2 and hermetically closing them, forming a uniform bore smooth inner diameter and shockproof, hermetic compound.

The tubular elements with holes 2 of the housing 1 and with a protective casing 3 are hermetically connected to each other by means of, for example, an MSGRP kit consisting of two packers 5 and a filtering circulation coupling 6 located between the packers 5.

A well filter with a soluble element is included in the production casing or liner, lowered into the reservoir if necessary with circulation, rotation or pumped air, for example, using the "floating string" method, set in the interval of the production horizon along the entire length of the production interval, depending on geological section, and carry out the washing of the annulus of the well from the sludge along the entire length of the operational casing or liner, and especially in the interval of the productive horizon.

When lowering the Well filter with a soluble element into the well, the rock or sludge does not fall into it.

A well filter with a soluble element is additionally provided with an external filter element in the form of a filter screen, for example, a wire (not shown in the figure), providing an additional filtering barrier for various solids to enter the well filter with a soluble element.

After installing a Well filter with a soluble element in the interval of the productive horizon, along the entire length of the productive horizon, depending on the geological section with at least one set of MSHF, the annulus of the well is washed from the sludge along the entire length of the production casing or liner, especially in the interval of the productive horizon

Washing is carried out by known means and methods.

After carrying out all the necessary technological operations carry out

- descent into the Borehole filter with a soluble element of the tubing string or SBT to the casing shoe;

- injection of a given composition and in a given amount of a chemical solvent, for example, a solution of hydrochloric acid of a given concentration, into the interior of a Well filter with a soluble element to remove the protective casing 3 from the inner surface of the housing 1 with holes 2 after a predetermined period of time and to open the holes 2 cases 1, removing the protective casing 3 from the holes 2;

- lifting the tubing string or SBT to exit from a given composition of a chemical solvent, for example, hydrochloric acid solution;

- descent of the tubing string or SBT through a specified period of time;

- washing out a predetermined composition of a chemical solvent, for example, hydrochloric acid solution, as well as dissolution products of the protective casing 3 from the interior of the Well filter with a soluble element by means of direct or reverse circulation.

The predetermined period of time is the time required to dissolve the protective casing 3 from the inner surface of the housing 1 and in the holes 2 of the housing 1.

If necessary, the operation to dissolve the protective casing 3 and open the holes 2, namely,

injection of a given composition of a chemical solvent,

waiting for the reaction of a given composition of the chemical solvent with a protective casing 3,

dissolution of the protective casing 3, as well as the subsequent washing out of the chemical reaction products from the inner space of the Well filter with the soluble element, can be repeated.

After opening the holes 2 of the housing 1 of the downhole filter with a soluble element, the well is put into operation.

The fluid from the reservoir through open holes 2 in the housing 1 enters the Well filter with a soluble element.

Similar technological operations can be performed during well reconstruction using sidetracking.

The proposed design of the Wellbore filter with a soluble element allows the following technological operations to be additionally performed in the well before or after the final work (sealing the upper section of the casing string or liner above the production horizon either by cementing or using packers):

- to carry out a control flushing of the annulus in the interval of the productive horizon and along the entire length of the casing or liner;

- inject special fluid into the annulus of the casing to remove the filter cake and clean the pores of the collector in the bottomhole zone and for subsequent washing out of the dissolution products;

- to wash gravel or install another type of filter in the annulus with reverse and direct washing through the shoe of the column;

- to produce multi-stage hydraulic fracturing;

- activate packers, when installed in separate sections, followed by selective selection of reservoir fluid, depending on the geological conditions of the productive horizon

- to launch and drill all technological devices and devices (balls, squeezing plugs, shoe check valves) without slamming / clogging the operating space (internal and external annular).

Further work is carried out on the availability of special equipment and tasks installed in the column.

During the construction of various horizontal, directional wells, including those with a large deviation from the vertical (ERD), for casing the interval of the productive horizon, the production casing or liner is assembled including a well filter with a soluble element and the assembled assembly is lowered into the well according to known technology, appropriate well design or injection method.

Example 1

Well filter with a soluble element includes a housing 1 with holes 2 and a protective casing 3.

Pre-fabricated body 1 with holes 2, which is a section of the casing pipe size 139.7 × 7.7 mm and a length of 11 m, of steel "L", which made holes 2 with a diameter of 10 mm based on 20 holes 2 per 1 linear meter of the housing 1, for example, by drilling or perforation.

Next, on the inner surface of the housing 1 with holes 2, a protective casing 3 is placed. For this purpose, inside the housing 1 with holes 2, pouring is carried out by spraying (spraying), followed by the introduction of a template with a diameter smaller than the inner by 1 mm (2 × 0.05) with the formation of layer 3 with a size equal to 0.05 mm.

Aluminum is sprayed and rubbed, forming a protective casing 3 in the form of a layer of aluminum with a thickness of 0.05 cm, which, when filling the holes 2, hermetically closes them and forms an internal smooth equal bore diameter equal to 123.3 mm inside the Well filter with a soluble element.

In this case, the protective casing 3 and the housing 1 with holes 2 form a monolithic tight and impact-resistant connection.

A protective casing 3 is placed on the inner surface of the housing 1 with holes 2 by pouring, using known methods and / or means.

If necessary, mechanical processing of the outer diameter of the assembled Well Filter is performed to remove the excess soluble element of the protective casing that has come out from the openings 2 and ensure the nominal outer diameter.

A soluble element well filter is included in the production casing or liner,

lowered into the reservoir of the horizontal section of the well with a large departure from the vertical (ERD) with circulation and rotation to the drilled bottom of the well,

set in the interval of the productive horizon along the entire length of the productive interval and carry out the washing of the annular space of the well from the cuttings along the entire length of the production casing and, especially, in the interval of the productive horizon.

After carrying out the specified technological operations, the tubing string 60 mm is lowered to the casing shoe, the filtration holes of the well filter with the soluble element are opened by dissolution.

To do this, a tubing of 60 mm is lowered inside the Well filter with a soluble element (inside the housing 1 with a protective cover 3) and a chemical solution is injected in the form of a 20% hydrochloric acid solution by direct washing into the installation interval of the Well filter with a soluble element in its internal space.

After that, the tubing is lifted from the injection zone of a 20% hydrochloric acid solution, within 2 hours a reaction is expected by the interaction of a 20% hydrochloric acid solution with aluminum 3, namely, the dissolution of aluminum 3 and the opening of holes 2 in the housing 1.

After 2 hours, the tubing string is re-run to wash out through direct circulation, removing the reaction products of a 20% hydrochloric acid solution with aluminum from the protective casing 3 from the inner surface of the housing 1 and from the holes 2, as well as from the inner space of the Well Filter with a soluble element.

After that, the well is put into operation and its development is carried out: the fluid from the reservoir through open holes 2 in the housing 1 enters the Well filter with a soluble element and then on.

Example 2. (Fig. 2)

Well filter with a soluble element includes a housing 1, consisting of 300 pieces of tubular elements, hermetically connected to each other.

Pre-made 300 pieces of tubular elements with holes 2, each of which represents a section of the casing pipe with a size of 168.3 mm with a wall thickness of 8.9 mm and a length of 10 m ± 0.5 m.

In each tubular element, holes 2 are made in the form of slots with a size of 40 mm × 5 mm at the rate of 30 slotted holes 2 per 1 linear meter of the housing 1, for example, by laser cutting.

Next, on the inner surface of each of the 300 tubular elements with openings 2 of the housing 1, a protective casing 3 is provided. For this, each tubular element with openings 2 is previously placed in a container with an inner diameter equal to the outer diameter of the housing 1 inside each tubular element with openings 2 of the housing 1 is introduced predetermined size and pour the magnesium and aluminum alloy in equal proportions into the annular space between the template and the tubular element with holes 2 of the housing 1, forming a protective casing 3 in the form of a layer of magnesium and aluminum alloy with a thickness of 2 mm with filled holes 2, hermetically sealed to form an inner a smooth equal bore diameter of 146.5 mm inside each tubular element with holes 2.

In this case, the protective casing 3 and the tubular element with the holes 2 of the housing 1 form a monolithic tight and impact-resistant connection.

Each protective casing 3 is placed on the inner surface of the tubular element with holes 2 of the housing 1 by pouring, using known methods and / or means.

300 pieces of tubular elements with holes 2 and with a protective casing 3 are hermetically connected to each other by threaded connections 4 in the form of a nipple coupling, thereby collecting a Well filter with a soluble element with a total length of 3000 m ± 0.5 m.

After that, a casing string is assembled, consisting of a section of blind casing and installed in the upper interval to the productive horizon, and a Well filter with a soluble element, which is then installed in the productive horizon, and an annular packer 7 is placed above them, which serves to sealing annular space between the productive horizon and the cement ring, which, in turn, is pumped into the annulus in the interval of deaf pipes.

This column is lowered into the well with circulation along the entire length through the shoe and rotation to the design depth.

Drilling to the roof of the productive horizon (point T1) and to the final face with one section (one bit diameter) is a newly developed drilling technology.

Next, a production casing string is run consisting of: A well filter with a soluble element installed in the production horizon, an annular packer 7 installed in the open hole in the roof of the production horizon, and blind casing installed above the reservoir and to the wellhead.

Next, cementing the annulus above the annular packer 7 (productive horizon).

Before activating the casing packer 7, it is possible to produce:

- Complete flushing of the annulus to remove sludge.

- Treatment of the bottom-hole zone to remove or destroy the filter cake.

- Recoat the gravel filter.

After activation of the annular packer 7, development or secondary opening is performed by opening the holes 2 by dissolution.

After carrying out the necessary technological operations, the SBT-73 mm drill pipe string is lowered to the casing shoe, the holes 2 of the Well filter with the soluble element are opened by dissolution.

To do this, a drill pipe string SBT-73 is lowered into the Well with a soluble element, and a chemical solution is injected in the form of a mixture of an acid solution consisting of 10% hydrochloric acid and 15% hydrofluoric acid by direct washing into the installation interval of the Well with soluble element into its internal space with simultaneous rotation of the column SBT - 73.

After that, SBT-73 is lifted from the injection zone of the acid solution mixture for 3 hours, a reaction is expected by the interaction of the mixture of acid solution with magnesium and aluminum alloy 3 and the removal of magnesium and aluminum alloy 3 from the holes 2 in the housing 1, opening them.

After 3 hours, the tubing or BT column is re-run and washed through reverse circulation, removing the products of the interaction of the mixture of acid solution, consisting of 10% hydrochloric acid and 15% hydrofluoric acid solution, with an aluminum and magnesium alloy 3 from the inner surface of housing 1 and from holes 2 of the housing 1, as well as from the inner space of the Well filter with a soluble element.

After that, the well is put into operation and its development is carried out: the fluid from the reservoir through open holes 2 in the housing 1 enters the Well filter with a soluble element.

This example allows you to:

- Drilling a long section along the producing formation followed by lowering the casing with a casing of the entire drilled interval due to the possibility of washing along the entire length of the casing through the shoe and rotating during the descent, as well as the possibility of descent using the floating section.

- Flush to remove drilling products (cuttings) from the interval of the reservoir along the entire length.

To process the bottom-hole zone in the interval of the reservoir and to clean the pores of the reservoir, which will improve the filtration properties of the reservoir.

- To increase the area of formation fluid filtration inside the production string, as well as increase the efficiency of drilling and subsequent field development.

- Increase the flow rate of wells.

- To ensure an increase in the volume of fluid from different zones with different permeability due to the installation of a Well filter with a soluble element of different density of holes 2 in a specific interval.

- It is much faster and without the use of special equipment to wash the gravel or install a different type of filter in the annulus with reverse and direct washing through the shoe of the column until the casing packer 7 is activated and cemented.

- If necessary, install a Wellbore filter with a soluble element together with MSHF equipment in the interval of productive formations and subsequently drill the internal tooling of the liner (push balls, plugs and landing seats) and MSHF operations. After all, the operation is performed to open the holes 2 in the housing 1. As a result, to obtain the alignment of the drainage contour and a multiple increase in the efficiency of MSGRF operations.

- When descending in combination with blind casing pipes to the productive horizon, first activate the annular packers installed at the beginning and end of the Well Filters with a soluble element and annular 7 installed above the productive horizon to cement. Then drill the inner space of the casing rig (push balls, plugs and seat seats) and, after all, perform an operation to open the holes 2 in the housing 1.

This will also make it possible to test the formations in each tubular element with openings 2 of the housing 1 and selectively select oil, preventing formation water from entering (if necessary, formation gas).

Example 3

Drilling to the roof of the productive horizon is carried out using the standard drilling technology today. Next, the production casing is launched, followed by cementing the annulus. Then, a horizontal section is drilled along the reservoir and then the casing - the liner with an annular packer 7 installed inside the previous casing is run.

For this, a Well filter with a soluble element is preliminarily made, comprising a housing 1 with holes 2, consisting of 20 pieces of tubular elements, each of which represents a section of the casing pipe with a size of 114.3 × 10.2 and a length of 11.7 m. In each the tubular element of the housing 1 produce holes 2 with a size of 12 mm at the rate of 30 holes 2 per 1 linear meter of the tubular element 1, for example, by drilling.

Next, a protective cover 3 is placed on the inner surface of each tubular element with holes 2 of the housing 1. For this purpose, each tubular element with holes 2 of the housing 1 is placed in a container with an inner diameter equal to the outer diameter of the housing 1, a template is introduced inside each tubular element of the housing 1 with holes 2 with dimensions that ensured the dimensions of the protective casing 3

Rotating the template, pour magnesium into the annular space between the template and the housing 1 with a size of 0.2 cm, forming a protective casing 3 in the form of a layer of magnesium with a thickness of 0.2 cm and filling the holes 2, hermetically overlapping them with the formation of an internal smooth equal diameter equal to 89.9 mm inside each tubular element with holes 2.

Each protective casing 3 is placed on the inner surface of the tubular element with holes 2 of the housing 1 by pouring using known methods and / or means, while the protective casing 3 and the tubular element with holes 2 of the housing 1 form a monolithic tight and impact-resistant joint.

Tubular elements with holes 2 and with a protective casing 3 of the housing 1 are hermetically connected to each other by threaded connections 4 in the form of a nipple coupling.

After that, the assembly is assembled with a liner casing, which consists of a Well filter with a soluble element and one or several sets of MSGRP equipment (two packers 5 and a circulation sleeve 6) are installed in the column, depending on the geological conditions and technical and technological tasks, and a casing packer 7 installed inside the previous casing.

The assembled assembly is lowered into the drilled interval of the productive horizon with the possibility of descent with rotation, washing along the entire length of the shank through the shoe and guide element or by the floating pipe method.

First, they carry out a full washing of the annulus to remove sludge and, if necessary, additionally carry out:

- treatment of the bottom-hole zone to remove or destroy the filter cake

- reclamation of the gravel filter, if necessary.

Then, after activation of the casing packer 7 installed inside the previous transport column, the transport column is undocked.

After that, work is carried out on hydraulic fracturing according to known technology.

Then, in order to intensify the inflow, open holes 2 in the housing 1 by lowering the tubing string 60 mm to the casing shoe, open the holes 2 of the Well filter with a soluble element by dissolving.

To do this, a tubing tubing string is lowered inside the Well filter with a soluble element - 60 mm - a chemical solution is injected in the form of a 30% hydrofluoric acid solution by direct washing into the installation interval of the Well filter with a soluble element into its internal space.

After that, the tubing is lifted from the hydrofluoric acid injection zone, within 2 hours a reaction is expected by the interaction of hydrofluoric acid with magnesium 3 and the removal of magnesium 3 from holes 2 in the housing 1, opening them.

After 2 hours, the tubing string is re-run and washed through reverse circulation, removing the products of the interaction of hydrofluoric acid with magnesium 2 from the inner surface of the housing 1 and from the holes 2 of the housing 1, as well as from the inner space of the Well filter with a soluble element.

If necessary, the operation to dissolve and remove the protective housing 3 and open the holes 2 can be repeated.

After opening the holes 2, the well is put into operation and its development is carried out: the fluid from the reservoir through open holes 2 in the housing 1 enters the Well filter with a soluble element.

The proposed technical solution allows you to:

- to drill a long section of the reservoir with subsequent descent of the casing with a casing of the entire drilled interval due to the possibility of washing along the entire length of the casing through the shoe and with rotation during descent, as well as the possibility of descent by the floating pipe method.

- flush to remove drilling products (cuttings) from the interval of the reservoir along the entire length

- to treat the bottom-hole zone in the interval of the reservoir and the pore cleaning of the reservoir, which will improve the filtration properties of the reservoir

- to increase the area of formation fluid filtration into the production string, as well as increase the efficiency of drilling and subsequent field development.

- multiply increase the area of formation fluid intake into the column, as well as the flow rate of the well

- to provide a more even profile of drainage of the productive horizon, which, in turn, can provide more stable and long-term operation of the well, as well as the volume of fluid from different zones with different permeability due to the installation of a larger or smaller number of perforated well filters with different hole densities in a specific interval.

Example 4

From the shoe of the previous string (conductor or technical), drilling is carried out to the roof of the productive horizon and further drilling along the productive formation with one bit diameter to the maximum possible depth of descent of the production string.

Next, the production casing string is run as a part of: A well filter with a soluble element with tubular elements with holes 2 and a casing 3, hermetically connected to each other, of one size installed in the production horizon, the casing packer 7 installed in the open hole above the production horizon, deaf casing pipes 8 installed above the reservoir and to the wellhead, as well as at the bottom of the tubular elements with holes 2 and the casing 3, hermetically connected to each other, of the first size. After activation of the annular packer 7, the annulus is cemented above the packer 7 (productive horizon).

If necessary, MSGRP equipment can be included in the Wellbore filter with a soluble element (not shown in the figure).

Then drill along the productive horizon with a bit of smaller diameter. With the subsequent descent of the tubular elements with holes 2 and the casing 3, hermetically connected to each other, the second size is smaller than the first size.

An annular packer 7 is installed, installed at the bottom of the tubular elements with holes 2 and a casing 3, hermetically connected to each other, of the first size in the interval of blind pipes 8, which may also have MSGRF equipment.

Subsequently, openings 2 are made in the Wellbore filter with a soluble element.

Pre-made downhole filter with a soluble element, the housing of which consists of tubular elements of two sizes, hermetically connected to each other, while:

- A well filter with a soluble element, the housing of which consists of 200 pieces of steel tubular elements of the first size, tightly interconnected by means of a threaded connection 4 in the form of a nipple coupling: complaints of nipple threaded joints and couplings 4. Each of the tubular elements of the first standard size is a section casing pipe made of steel grade R-110, measuring 177.8 × 9.2 mm and length 11.5 m with drilled holes 2 with a diameter of 5 mm at the rate of 40 holes 2 per 1 linear meter of tubular element, then on the inner surface of each tubular element with holes 2 of the housing 1 with a size of 177.8 mm × 9.2 mm × 11.5 m have a protective casing 3, for this purpose, inside each tube element with holes 2 of the housing 1, a template of predetermined dimensions is introduced into the annular space between the template and the tubular element with holes 2 case 1 with a size equal to 0.15 cm is closed with a layer of chemically soluble filler in the form of aluminum o braraza protective casing 3 with a thickness of 0.15 cm, which filling the holes 2 hermetically closes them and forms an internal smooth equal diameter diameter of 156.4 mm In this case, the protective casing 3 and the tubular element with holes 2 form a monolithic tight and impact-resistant connection.

Each protective casing 3 is located on the inner surface of the tubular element of the housing 1 with holes 2 by pouring, using known methods and / or means.

- A well filter with a soluble element, the housing of which consists of 59 pieces of tubular elements of the second standard size, hermetically connected to each other by means of a threaded connection 4 in the form of a nipple coupling.

Each of the tubular elements with holes 2 of the second standard size is a section of casing made of plastic (fiberglass-reinforced plastic or carbon fiber) with a size of 114.3 × 15 mm and a length of 10.5 ± 0.2 m with cut holes 2 at the rate of 30 holes 2 per 1 running meter of the housing 1. The holes 2 are made in the form of slots 12 mm × 3 mm in size, made, for example, by mechanical cutting. Next, on the inner surface of each of the 59 tubular elements with holes 2 of the housing 1, a protective casing 3 is arranged. For this, the inner surface of each tubular element with holes 2 is preliminarily treated with an adhesive resin and the protective housing 3 is introduced in the form of a pipe made of zinc sheet (pipe with a weld seam) 0.15 cm thick and a length equal to the length of the tubular element with holes 2 of the housing 1, hermetically closing the holes 2, which forms an inner smooth equal bore diameter 81, 3 mm inside each tubular element with holes 2 of the housing 1. If necessary, into the holes 2 forms of the same size are inserted from said alloy, which are also fixed by means of glue to the housing 1.

Nipple threaded connections 4 are cut into 59 pieces of tubular elements with openings 2 and with a protective casing 3 and all threaded connections 4 are treated with adhesive and tightly connected to each other by couplings, followed by heat treatment, thereby collecting a Well filter with a soluble element with a total length of 619 ± 0.2 m. Tubular elements with holes 2 and with a protective casing 3 of the second standard size are hermetically connected to each other by a threaded connection 4.

After that, they drill from the shoe of the technical string or conductor with a bit with a diameter of 220.7 mm to the roof of the productive horizon and along the horizon to the depth of the possible descent of the operational casing (in our case 2100 m). Next, the production casing string of 177.8 mm is assembled, consisting of: tubular elements with holes 2 and a protective casing 3 of the first standard size, tightly interconnected, measuring 177.8 × 9.2 mm installed in the production horizon, and blind casing pipes 8 installed above the reservoir and to the wellhead and below the tubular elements with holes 2 and with a protective casing 3 of the first size, an annular packer 7 installed in an open trunk in the roof of the reservoir, and blind casing 8, installed above the reservoir and to the mouth.

The descent is carried out with washing along the entire length through the shoe of the column with simultaneous rotation until the actual bottom. Before packing, they carry out various technological operations to optimize the inflow and clean the annulus. After activation of the annular packer 7 installed in the open trunk in the roof of the productive horizon, the annulus is cemented above the packer 7 (productive horizon).

If necessary, MSGRP equipment (not shown in the figure) can be included in the Wellbore filter with a soluble element.

Next, drill the casing rigs (cork plugs, balls and landing saddles) and drill along the productive horizon with a bit with a diameter of 152.4 mm to the possible depth of casing run - the liner, followed by lowering the liner, consisting of tubular elements with holes 2 and with a protective casing 3 of the second standard size, hermetically connected to each other, size 114.3 × 15 mm

The descent is carried out with washing along the entire length through the shoe of the column with simultaneous rotation (if possible according to the operational characteristics of the pipe) until the actual bottom or by the method of the floating section.

The descent of the shank is carried out by the transport column SBT-89. Prior to packing, various technological operations are described previously. An annular packer 7 is installed, which is installed in the interval of blind pipes 8 of the lower part of the tubular elements with holes 2 and with a protective casing 3 of the first size, hermetically connected to each other, measuring 177.8 × 9.2 mm to seal the annulus between the tubular elements with holes 2 and a protective casing 3 of the first standard size and tubular elements with holes 2 and a protective casing 3 of the second standard size, while the first standard size is larger than the second standard size.

Disconnect the shipping column SBT-89.

This soluble element well filter may also have MSHF equipment (not shown in the figure).

In the case of the availability of MSHF equipment, MSHF operations are carried out in the Wellbore filter with a soluble element.

Further, it opens the holes 2 in the Well Filter with a soluble element, which consists of tubular elements with holes 2 of the housing 1 of two sizes and a protective casing 3, tightly interconnected.

Further, in order to intensify the inflow, openings 2 are made, for which purpose a column consisting of NKT-60 with a length of 20 m longer than the tubular elements with openings 2 of the housing 1 of the second size and with a protective casing 3, tightly interconnected, and SBT-89 the rest.

A 30% caustic soda alkali solution (caustic soda) is injected into the interval of the Well Filter with a soluble element. After that, the combined column is lifted from the injection zone of a 30% caustic soda alkali solution (caustic soda), within 3 hours a reaction is expected by the interaction of a 30% sodium hydroxide solution with aluminum and zinc of protective casings 3 and the removal of the aluminum and zinc layer of the protective casing 3 from holes 2 in the housing 1, opening them.

After 5 hours, the combined tubing NKT-60 and SBT-89 are re-run and washed through reverse circulation, removing the products of the interaction of a 30% caustic soda alkali solution (caustic soda) with aluminum and zinc 3 from the inner surface of the housing 1 and from the openings 2 of the housing 1, as well as from the interior of a Wellbore filter with a soluble element.

If necessary, the operation to dissolve and remove the protective housing 3 and open the holes 2 can be repeated.

This arrangement allows for all the previously announced advantages in examples 1-3 to significantly increase the length of drilling along the productive horizon and especially ERD type wells (with a large departure from the vertical).

Thus, the claimed design of the casing - filter with soluble elements in the form of a Well filter with a soluble element allows you to:

- increase the length of drilling in the productive section by lowering the Well filter with a soluble element with a casing of the entire drilled productive interval, which ultimately leads to an increase in the area of fluid flow into the Well filter with a soluble element and, accordingly, leads to an increase in production of formation fluid that:

- many times increases the feasibility and economic feasibility of drilling various horizontal, directional wells, including those with a large deviation from the vertical (ERD), casing drilling with installation in the production interval, as well as sidetracks, which ultimately increases the efficiency drilling ceteris paribus

due to

- increase the rigidity of the design of the Well Filter with a soluble element;

- increase the permissible moment of rotation and the possibility of lowering the Well filter with a soluble element with circulation along the entire length of the production casing or liner through the shoe or guide element;

- having tightness along the entire length, perform MSGRP operations, before opening holes 2;

- having tightness along the entire length, activate the shut-off packers when installed with separate Well Filters

with a soluble element for the selective selection of reservoir fluid, before opening the holes 2.

It also allows you to reduce material costs and manpower when lowering the Well Filter with a soluble element into the trunks of various horizontal, directional wells, including those with a large departure from the vertical (ERD) and sidetracks.

An increase in the length of a Well Filter with a soluble element in the reservoir increases the area of formation fluid entering the production casing after conducting multi-stage hydraulic fracturing, not only through special ports, but also through open holes 2 in the housing 1 of the Well Filter with a soluble element through which the formation fluid flows throughout its length, multiplying the production of formation fluid by several times, since the “larger section” of the reservoir is “working,” and during the operation of the Well Filter with the soluble element, the drainage profile of the reservoir is aligned along the entire trunk of a horizontal, directional well, including with large deviations from vertical (ERD).

A well filter with a soluble element improves the quality of cleaning the borehole from mechanical impurities formed during the drilling of the well and during the descent of the casing or liner.

Also, a Well filter with a soluble element improves the quality of the processing of the annulus in the bottomhole zone of the reservoir and allows various technological operations to intensify the reservoir fluid, as well as its filtering due to the possibility of such operations as:

- reclamation of gravel filters and acceleration of its implementation with / without special devices, as well as a significant reduction in cost and simplification of these works;

- the descent of the Well filter with a soluble element with an external filter element, which is very difficult to produce with standard leaky perforated pipes.

Claims (6)

1. A downhole filter with a soluble element, comprising a housing with holes that are hermetically sealed with a chemically soluble material that is removed under the influence of a chemical solution for a predetermined time, characterized in that the soluble element is made in the form of a protective casing located on the inner surface of the housing with holes the possibility of forming an equally bore smooth inner diameter, and is a layer of chemically soluble material of a given thickness, which provides a tight seal on the inner surface of the housing and in the openings of the housing, hermetically closing them, and enhancing the housing with openings, while the housing with openings is at least one tubular element with holes. 2. A well filter with a soluble element according to claim 1, characterized in that the chemically soluble material is a chemically soluble metal or composite metal, an acid-soluble or alkali soluble metal or composite metal, which makes it possible to remove it from the inner surface of the housing with holes. 3. A downhole filter with a soluble element according to claim 1, characterized in that the holes in the housing are cut or drilled in various geometric shapes. 4. A downhole filter with a soluble element according to claim 1, characterized in that the openings in the housing are made with dimensions sufficient for the flow of formation fluid. 5. The downhole filter with a soluble element according to claim 1, characterized in that the chemical solvent is an acid solution or a mixture of solutions of acids or chemically active liquids. 6. A downhole filter with a soluble element according to claim 1, characterized in that the tubular elements with holes are hermetically connected to each other.

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