RU2531409C1 - Method of well construction in complicated mining and geological conditions for drilling and device for its implementation - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: well construction method includes drilling and cementing of drilling direction and surface casing, penetrating the interval of unstable argillaceous deposits prone to sloughing and collapsing, predrilling of the underlying area with non-sloughing rocks to a small distance, performing a battery of geophysical studies, multi-stage cementing of the well. At first cementing of the first stage is made - cementing of the unstable argillaceous deposits with the underlying area with non-sloughing rocks, at that run in of the casing section is made at a tubing string using a device consisting of a locating bushing with side wash ports to cut cement slurry excess upon cementing and connection left thread at the lower end with which a staged adaptor is connected with concentrically set shell that protect from cement slurry coming to its walls. The adapter is connected to the upper end of the cemented casing string through a cross-over shoe, inner diameter values of the adapter and cross-over shoe is selected so that they are equal to outside diameter of the casing string. Upon cutting and washing of cement slurry excess, when cementing operation is over, the drilling stem with a coupling is screwed from the adapter and lifted to the surface. Upon waiting on cement (WOC) the second stage of the well bore cementing is performed - a part of the well bore placed above the cemented first stage - using a device for multi-staged cementing by connection of the cross-over shoe with cementing ports blinded by removable plugs, to the lower end of the pipe at the casing with diameter equal to the diameter of the casing cemented at the first stage. To the lower end of the device frame a staged adapter is fixed with a drilled shoe at the lower end and return valve. Outside diameter of the adapter is selected with value equal to inner diameter of the adapter of the locating bushing of the device at the first stage of cementing and its inner diameter, diameter of gates and frame is selected as equal to the inner diameter of a pipe of the cemented casing. Running in of the casing pipe is made before setting of the butt end of a larger stage of the adapter to the inner protrusion placed under adapter connecting thread of the locating bushing at the first stage of cementing. Upon completion of cementing and WOC the top cementing plug with a saddle, shoe and cementing plugs made at the first stage of cementing are drilled out and further deepening of the downhole up to the design mark is made with a bit having less diameter.

EFFECT: accident free hole making, reduction of material costs and time for the well construction.

4 cl, 7 dwg

Description

A known method of constructing a well with wiring an interval of unstable clay deposits. The invention relates to the field of construction of a well in difficult geological conditions of drilling intervals of unstable clay deposits, prone to shedding, erosion damage and cavity formations in the trunk, causing severe accidents during penetration, in particular the interval of the Kyn horizon or similar shale clay deposits.

deposits (see Pat. RF No. 2421586, IPC Е21В 7/06, published under the title “Method for constructing a horizontal well on Devonian deposits), which includes directional drilling and a conductor with their subsequent fastening, opening by drilling unstable clay deposits of the Kynovsky horizon using downhole screw motor and in the guaranteed laminar flow mode in the annular annular channel of a viscoplastic drilling fluid with fastening properties, and fixing the well by cementing the casing.

The practice of using the well-known method of constructing a well in the oil fields of Tatarstan ensured accident-free penetration of the interval of the Kyn horizon, therefore, without complications, i.e. without shedding and collapse, cavity formation and sticking of the drilling tool. However, further deepening the well to the design level, flushing the well and conducting a complex of geophysical surveys, including additional tripping operations, requires a lot of time. It has been established that after 4-5 days after the discovery of Kyn clay, as a result of surface, capillary and osmotic hydration of the drilling fluid with the filtrate, as well as due to erosion destruction by the flow of the drilling fluid, the strength characteristics of Kyn clay in the near-barrel zone worsen, soften and, as a result, this It leads to the formation of caverns, shedding, finally, multiple drillings of the barrel, to the seizing of the drilling tool, and also creating many problems when lowering the production casing for cement tion.

There is also known a method of constructing a well (see patent RU No. 2439274, IPC E21 B 7/00, 33/10, publ. 10.01. 2012, BI No. 1), drilling and securing directions, conductor, opening drilling interval of unstable clay deposits prone to shedding, collapsing, drilling of the underlying zone with non-crumbling rocks to a length of 10 m, followed by strengthening the walls of the interval uncovered by drilling and the underlying zone with a cement bridge with its subsequent drilling and drilling to the design mark.

In technical essence, the known method is closer to the proposed one and can be adopted as a prototype.

The disadvantages of the prototype include the following. The method is not technologically feasible in implementation, requires multiple tripping operations associated with the installation of a cement bridge in the interval of unstable clay deposits and lower by 10 m and this is associated with a large investment of time and materials involving cement mixing and cementing equipment. At the same time, during the installation of the cement bridge, the risk of sticking the drill pipe string with cement mortar is not excluded, despite the measures taken, for example, by pacing and rotating the drill pipe string due to the long length of the installed bridge. As you know from the description of the patent, the total interval of the installed bridge is 50 meters or more.

In addition, the method is not effective. The created cement bridge, bounded above and below by a column of industrial water, therefore, dilution of the cement with water is not excluded, the resulting cement bridge will turn out to be of poor quality. And drilling a cement bridge after 6 hours with the same bit that was previously drilled when opening the Kyn clays of not completely hardened cement nullifies the ongoing measure because of the likelihood of destruction of the created reinforcement and exposure of the walls of the wellbore. Thus, when drilling a well to the design level, the risk of sticking a drilling tool remains. In addition, there may be problems with lowering and cementing the casing string after driving to the design level due to collapse of the barrel walls in the above interval of unstable clay deposits, leading to severe accidents. Induced criticism of the analogue is true for the prototype.

A device is known for lowering and cementing sections of casing strings (see the description for a.s. No. 899858, IPC ЕВВ 33/14 dated 18. 01. 1980), comprising a suspension housing, a supporting pipe with flushing holes, inside of which there is a sleeve with a saddle for landing a thrown ball connected to the carrier pipe by means of pins, a nut with left-hand thread on the outer surface for connection to the suspension housing, connected to the carrier pipe by a spline connection and a bearing.

Also known is a device for lowering, suspending and cementing sections of casing strings (see the description of the patent No. 2346144, IPC ЕВВ 33/14, publ. 10. 02 2009, Bull. No. 4.), containing the installation pipe lowered on the drill pipe string a coupling with side flushing windows connected to the left thread with an adapter with an inner diameter equal to the outer diameter of the cemented casing pipe, a cement plug that is discharged from the wellhead and interacts when working with a flow plug fixed with shear pins.

This device is in technical essence closer to the proposed one and can be adopted as a prototype.

A common disadvantage of both analog and prototype is the complexity of the design and not manufacturability. In addition, it does not eliminate the risk of contamination of the inner wall of the adapter suspension housing, which may not ensure a tight fit of the end of the lower casing string if stepwise cementing of the well is necessary, as well as the risk of damage to its inner wall by a drilling tool while drilling a squeezing cement plug or during its tripping operations, which will lead to poor-quality cementing of the second stage of the well.

A clutch for stepwise casing cementing is also known (see RF Patent No. 2141150, IPC 7 ЕВВ 33/14, published in BI No. 12, 04/27/2000), comprising a housing in the form of a coupling with radial cementing holes plugged with plugs, and inside the cementing holes installed above the locking flap, the upper end fixed to the landing seat and the retaining ring with a shear pin. To stop the locking flap below the cementing holes in the housing, circular eccentric steps are made.

A device for cementing the second stage of a well is also known (see Patent for a utility model of the Russian Federation No. 26245, IPC ЕВВ 33/14, published on November 20, 2002 under the name "Coupling for step cementing of a casing string"), comprising a body with connecting threads on ends with a sub at the upper end, and cementing holes, plugged with plugs, secured with calibrated screws, a retaining ring installed in the junction between the sub and the housing, locking the shutter in the form of a sleeve mounted inside the housing above the cement numbered holes, a drilled seat for a squeezing cement plug installed inside the locking flap, the casing of which together with the locking flap are fixed to the locking ring with a cut pin, and an annular ledge of the housing made below the cementing holes for stopping the lower end of the locking flap.

This device is in technical essence closer to the proposed one and can be adopted as a prototype.

A common drawback of both the analogue and the prototype is that they need a significant constructive change if necessary, cementing the well section by section, as provided for in the claimed method.

In addition, reliable sealing of the contact zones of the locking flap with the housing in the area of cementing holes is not provided, which may cause migrating formation water to enter the cavity of the column and corrode it.

Patent studies in retrospect in 20 years to establish the technical level and preliminary determine the novelty of the claimed object were carried out by the patent fund of the TatNIPIneft Institute.

An analysis of the known technical solutions in this technical field showed that the claimed technical solution has features that are not in the analogues, and their use in the claimed combination of essential features allows to obtain a new technical result. Therefore, we can assume that the claimed technical solution meets the conditions of patentability "novelty" and "inventive step".

The technical task of the present invention is the trouble-free penetration of the interval of unstable clay deposits and the creation of a trouble-free method for constructing a well in difficult mining and geological drilling conditions, reducing material costs and time.

The stated technical problem is solved by the described method, including drilling and fixing the direction of the conductor, opening the interval with drilling unstable clay deposits, prone to shedding, collapsing, cavern formation, drilling the underlying zone with crumbling rocks for a short length, followed by strengthening the walls of the open zone with the drilling and the lower interval and cement mortar, drilling wells to the design level and cementing the well.

New is that after drilling unstable clay deposits with underlying zone with non-crumbling rocks in the well, a complex of geophysical surveys is carried out, after which the well is cemented stepwise, first stage cementing is carried out - the interval of unstable clay deposits with underlying zone with non-crumbling rocks, while sections of the casing string are carried out on the drill pipe string using a device including an installation sleeve with flushing sides and holes for cutting off excess cement mortar after cementing is completed and with a connecting external left-hand thread at the lower end, to which a stepwise made adapter is connected with protective shells concentrically installed inside to prevent cement mortar from entering its walls, and this adapter is connected to the upper end of the cemented section casing strings through the sub, the inner diameters of the adapter and the sub being equal to the outer diameter of the casing pipe us, after cutting and leaching excess cement slurry at the end of the cementing operation with the drill string from the adapter sleeve is unscrewed and lifted to the surface, and after waiting on cement (WOC) cemented wellbore second stage, i.e. the rest of the well above the cemented first stage using a step cementing device by attaching a body sub with cementing windows plugged with removable plugs to the lower end of the cemented casing pipe with a diameter equal to the diameter of the cemented casing pipe in the first cementing stage, a stepwise made adapter with a drilled shoe at the lower end with a check valve, than the outer diameter of the adapter is chosen with a diameter equal to the inner diameter of the adapter of the installation sleeve of the device for the first cementing step, and its inner diameter, as well as the shutters and housings, are chosen equal to the inner diameter of the pipe of the cemented casing string, while the casing is lowered before the end face is planted larger steps of the adapter to the inner ledge, located under the connecting thread of the adapter of the installation sleeve of the device for cementing the first stage, after the end of cementing and cementing, drill-in plug with a saddle, shoe, as well as cement plugs of the first cementing stage are drilled and the hole is further deepened to the design mark with a bit of a smaller diameter, and the interval of unstable clay deposits is drilled at an accelerated rate using a downhole motor and a visco-plastic drilling mud with increased sludge-carrying capacity, with the lowest possible water loss and in the laminar regime of its flow in an annular channel le borehole.

Cementing the first stage of the wellbore with unstable clay deposits is carried out by a device containing an installation sleeve lowered on the drill pipe string with side flushing windows plugged with destructible diaphragms, connected to the left thread with an adapter with an inner diameter equal to the outer diameter of the cemented casing pipe pipe from the wellhead a resettable cementing plug covering the passage channel of a suspended cementing plug fixed with shear pins.

What is new is that the adapter of the installation sleeve is made in steps and is provided concentrically and with a gap with installed and easily drilled non-metallic protective shells to prevent the formation of a cement peel on its inner walls, one of which is helical and abuts against the inner wall of the adapter and the other is removable and connected with internal thread of the lower end of the installation sleeve, the specified gap between them being filled with thick technical oil, while the suspension cement plug is provided with a saddle m under the discharged cementing plug attached to the pins to be cut lower end of the extracted envelope.

A device for cementing the second stage of a wellbore for implementing the method, comprising a body with connecting threads at the ends with cementing holes plugged with removable plugs and an adapter at the upper end, a locking ring installed in the junction between the adapter and the body, abutting against its lower end against its lower end , a locking flap in the form of a sleeve mounted inside the housing above the cementing holes, a drillable seat for a squeezing cement plug, is installed th inside of the locking flaps which are secured to the retaining ring via the shear pin, and an annular housing shoulder formed below the cementing apertures to abut the lower end of the locking flap.

What is new is that the lower end of the housing is equipped with a stepwise made adapter with a drillable shoe with a check valve fixed to the lower end of the thread, while the outer diameter of the adapter is chosen with a diameter equal to the inner diameter of the adapter of the installation sleeve of the device for the first cementing stage, and its inner diameter, as well as flaps and bodies selected equal to the inner diameter of the pipe cemented casing.

The drawings illustrate the essence of the proposed method and devices.

Figure 1 shows a device for implementing the method used in cementing a wellbore, an interval of unstable clay deposits, in particular Kynovsky clay deposits, where an installation sleeve with side flushing holes is visible, an adapter connected to it on the left thread with protective shells installed inside, an adapter , suspended cement plug, in longitudinal section.

Figure 2 - device for cementing the upper wellbore, located higher from the cemented interval with unstable clay deposits, where you can see the sub attached to the casing with cementing side holes, damped by removable plugs, a stepwise adapter with a drilled shoe attached to the lower end of the casing through a coupler, in partial longitudinal section.

Figure 3 is a cementing plug discharged from the wellhead for landing on a saddle of a suspended cementing plug in a partial longitudinal section.

FIG. 4 is a view of A of FIG. 2, in a section.

Figure 5 - well drilled with one bit diameter with an open interval of unstable clay deposits and the underlying zone with non-crusting rocks to a shallow depth, after the cementing operation of the specified interval with unstable clay deposits, at which the block of cementing plugs was fixed in the stop ring installed in the lower end of the pipe of the casing string section, after raising the drill pipe to the surface of the casing string together with the installation sleeve of the device for the first cementing stage, in odolnom section.

In Fig.6 - the same as in Fig.5, after lowering the casing string into the well for cementing the overlying well from cemented with a device for step cementing, where you can see the part of the well to be cemented, and part of the stepwise adapter of this device when he, with his ledge, sat on the ledge of the cemented adapter of the installation coupling of the device for the first cementing stage, a drillable shoe with a valve is also visible in longitudinal section.

7 is a fragment of part of the device for cementing the second stage of the well, indicated by dashed lines, the position of the locking flap when it closed the cementing holes of the housing of the device for step cementing after completion of the cementing of the wellbore of the second stage, located above the cemented interval with unstable clay deposits ,

A device for cementing an interval with unstable clay deposits, for example, of the Kynovsky horizon, includes a stepwise made installation sleeve 1 (see Fig. 1) with a connecting thread 2 and with internal and external threads 3 and 4 at the lower end, respectively, and flushing side holes 5, muffled destructible diaphragm 6. To the external left thread 4 of the mounting sleeve is connected a stepwise made adapter 7 with a sub 8 for connecting the latter with the upper end of the pipe 9 (see Fig. 5) of the cemented columns s casing. The inner diameter of the adapter 7 and sub 8 is chosen equal to the outer diameter of the casing pipe 9 (see Fig. 5 and 6). Inside the adapter 7 with a fit to its walls, a destructible protective shell 10 (see Fig. 1) is installed, made with a left spiral of thin non-metallic material and fixed with a pin 11. Concentric to the shell 10 with a gap 12 filled with thick technical oil, another removable protective shell is installed 13, also made of a non-metallic material of the polyamide type, connected to the lower end of the mounting sleeve 1 on the thread 3. To the lower end of the shell 13 on the shear pins 14, a suspended drillable cement is fixed alignment plug 15 with a central channel 16 and a saddle 17 for cementing plug 18 discharged from the wellhead (see FIG. 3).

A device for cementing a wellbore located above the interval with unstable clay deposits contains a housing 19 (see FIG. 2) with connecting threads 20 and 21 at the ends of the upper and lower, respectively, and cementing holes 22 plugged with removable plugs B. To the upper thread 20 a sub 23. is screwed on. At the junction between the sub and the casing, a fixing ring 24 is installed (see FIG. 4), abutting against the upper end of the casing 19. Inside the casing, above the cementing holes 22, a concentric fixing c The inside of the housing with a slight interference fit to its wall is a locking flap 25, the lower end of which is made with an internal conical bore 26 with an end face less than or equal to the annular ledge 27 of the housing 19. Inside the locking flap 25, a seat 28 is concentrically mounted with an annular protrusion 29 resting on upper end of the locking flap. This ensures the reliability of closing the cementing holes with a locking flap after the completion of the cementing operation by eliminating the possibility of the saddle going down without the locking flap after the squeezing cement plug is planted on it (squeezing cement plug is not shown). The seat housing 28 and the locking flap 25 are fixed to the locking ring 24 with a cut-off calibrated pin 30. The sealing rings 31 ensure the tightness of the contact areas of the locking flap 25 with the housing 19, and the sealing ring 32 - threaded connection of the housing 1 with the sub 23.

The lower end of the housing 19 using the coupling 33 is connected by a stepwise made adapter 34 with a ledge 35 and with a drilled shoe 36 of non-metallic easily drilled material, for example, of polyamide, with a check ball valve 37 (see FIGS. 2 and 6). In this case, the outer diameter of the adapter 34 is selected with a diameter equal to the inner diameter of the adapter 7 of the mounting sleeve 1 of the first cementing stage, and its inner diameter, as well as the shutters and the lower part of the housing 19, are chosen equal to the inner diameter of the pipe 9 of the cemented casing.

A method of constructing a well using the above devices is carried out in the following sequence. Before the start of the drilling of the well, the intervals of 38 unstable clay deposits of the developed oil or gas deposits are previously revealed at previously drilled wells or exploratory drilling wells. Drilling and fastening of direction 39 and conductor 40 is carried out according to traditional technology, according to the well construction project, and then the bottom hole of the well 41 is continued to deepen to the interval of unstable clay deposits 38. Next, the underlying zone 42 with loose rocks for a short length is opened, for example, 10 -12 m. At the same time, the penetration of the Kyn and Pash horizons at oil fields in Tatarstan is especially difficult, accompanied by shedding, gland formation, and cave formations N, collapses, leading to various serious complications - tacks drilling tool and sometimes eliminate the well.

The destruction of the wellbore is determined by a number of factors: the rheological characteristics of the drilling fluid, the technological parameters of drilling and the geological features of the Kyn clay. Shale clay is the main fraction of Kyn clay, which is subject to swelling and destruction upon contact with the mud filtrate. Therefore, the drilling of shale necessary to keep as much as possible at low values of the drilling fluid filter, for example, 2-4 cm ^3/30 min and using viscoelastic or clay-free polymer emulsion drilling mud having a high inhibitory and shlamovynosyaschimi properties content in its composition Reagents - regulators of rheological and filtration properties, clay swelling inhibitors, water repellent.

Studies have noticed that with increasing depth of shale clay, it is necessary to increase the density of the drilling fluid. So, at the depths of Kyn clay in the range of 1200-1800 m, the optimal density of the drilling fluid is from 1350 kg / m ³ to 1450 kg / m ³ .

If the density of the drilling fluid is not observed in accordance with the depth of the interval of the Kyn clay, it adversely affects its carrying capacity of the cuttings and can lead to water manifestations of the formations.

Below are the recommended parameters of the drilling fluid for the interval of occurrence of Kyn clay clays of 1750-1800 m.

Density - 1400-1450 kg / m ³

Plastic viscosity - 20-30 MPa · s

Dynamic shear stress - 100-150 dPa

Conditional viscosity - 60-120 s

Filter rate -2-3 cm ³

Tunneling of Kyn clay should be carried out by a downhole screw motor with flushing in a guaranteed laminar mode of drilling fluid flow in the annular channel of the well to prevent cavern formation, as provided for in the description of patent for invention No. 2256762 entitled “Method for driving unstable clay rocks while drilling oil and gas wells ".

After successful drilling of the interval of unstable clay deposits 38, in particular of the Kyn clays, and the underlying zone 42 (see Fig. 5) with non-shedding stable rocks, it is cased, and then the well bore above it, i.e. drilled wellbore, cemented in steps.

Cementing a drilled wellbore in two stages is dictated by the fact that a lot of time is spent on the traditional well construction technology, including the prototype, after sinking unstable Kyn clay and design mark and before the casing production string is launched. This is associated with tripping for washing, calling a geophysical batch for logging a well and waiting for an interpretation, preparatory operations for cementing, etc. All this time, the well, including the interval of clay deposits, is in the aquatic environment - the borehole fluid.

Whereas the practice of drilling wells on the Devonian deposits shows that the interval of unstable clay shales of the Kynov and Pash horizons, whose thickness is from 40 to 80 m, after 3-4 days, is constantly in the aquatic environment - well formation fluid, due to hydration clay begins to lose stability due to softening of shale, crumble, causing severe complications, which makes it impossible to lower the casing without a long study of the wellbore, which requires a lot of time Meni, labor and material resources, but sometimes you have to give up doing further work. In addition, when cementing a casing string, it results in a poor-quality cement ring behind the string and, as a result, collapse, and water inflow during the initial development of the well, increasing the percentage of water cut in the formation during its operation.

To cement the first stage, the well is first washed, after which the section of the casing string with a diameter of 168 mm is lowered to the bottom, taking into account the length of the drilled interval of 38 Kynov clays and with a margin for cementing the zone with non-shedding stable rocks 42 with the length of one casing pipe, for example, 10-12 m , below and above the cemented interval of Kynovsky clay. Cementing is carried out according to traditional technology using cement mixing machines (SMN) and cementing units CA-320M and using a device for cementing the first stage, the design of which is shown in figure 1. It is connected using a sub 8 to the upper end of the casing 9 (see FIGS. 5 and 6), and its mounting sleeve 1 is connected to the thread 2 with the lower end of the drill pipe string (drill pipe is not shown). After injecting the cement mortar of the calculated volume, after its last portion from the wellhead, cement plug 18 (see FIG. 3) is launched into the column and forced through with squeezing liquid using a traditional pumping unit. The cement slurry together with the cement plug move downwardly under the overpressure fluid pressure inside the column until it sits on the landing seat 17 of the suspension squeeze plug 15. This is fixed at the wellhead to increase pressure. Then, inside the drill pipe string, the pressure is increased, by means of which the pins 14 are cut off and the cement plug 18 in the arrangement with the squeeze plug 15 is moved downward to the stop ring 43 installed in the lower end of the cemented pipe string 9 under pressure, and they are fixed in it. In this case, the cement slurry from the cavity of the casing string completely enters the annulus. Then, by increasing the pressure to a calculated value, the diaphragm 6 is destroyed and the excess cement slurry is cut off and washed out with openings 5 by creating a direct circulation, after which the drill pipe transportation column is disconnected from the adapter 7 and then the installation sleeve 1 together with the protective sheath 13 is lifted to the surface.

Next, proceed to cementing the wells of the second stage using a device for step cementing (see figure 2). It is delivered to the well in assembled form and lowered into the well by attaching to the lower end of the casing string 44 with the same diameter of 168 mm as the interval of unstable clay deposits was cased. When approaching the device to the adapter 7 at low speeds of descent, the column is slowly rotated. When the adapter 34 with the shoe 36 enters the adapter 7, the protective shell 10 begins to collapse, and when it reaches the ledge 35 to the upper ledge of the adapter 7 (see Fig. 6), it completely collapses and the adapter 34 with a slight interference fit is installed inside the adapter 7 (see Fig. .5). The well is ready for cementing the second stage. It is cemented according to conventional technology using cement mixing and cementing units, pumping into the column 44 the estimated volume of cement, previously removing plug B by hydraulic pressure. In this case, the cement mortar through the cementing window 22 enters the annular space and fills it. At the completion stage of the injection, a squeezing cement plug (not shown) is let into the column and it is pushed before landing on the saddle 28, this is recorded at the mouth by a pressure gauge. Next, the pressure is increased to the calculated value at which the pins 30 are cut off, which is noted at the mouth by a sharp drop in pressure, and the seat 28, the associated shutter flap 25, together with the cement plug, goes down until the lower end of the flap fits onto the ledge 27 of the housing 19. This moment also recorded at the mouth of the manometer by a sharp increase in pressure. This means that the cementing holes 22 are closed by a shutter 25 (see Fig. 7). Then, inside the column, the pressure is relieved and, after the OZZ, the cement plug together with the seat 28 and shoe 36 is drilled, opening the MSC passage channel, then the squeeze plugs 18, 15 and stop rings 43 are also drilled. Then the well is drilled to the design mark with a bit with a smaller diameter, for example, a bit 144 mm.

The technical and economic advantage of the invention is as follows.

Using the proposed method and the devices used for this at oil fields of the Republic of Tatarstan during well construction for Devonian deposits in difficult mining and geological conditions of drilling will reduce the construction time of wells and, therefore, accelerate their commissioning due to trouble-free drilling of unstable clay rocks, in particular Kyn clay, and subsequent timely casing until their stability is lost. In addition, the exclusion of cavern formation in the walls of the well during the penetration of Kyn clays leads to an increase in the separation of formations, which in turn eliminates the influx of water during the initial development of the well, reduces the percentage of water cut during its operation and eliminates accidents associated with crushing of the production string.

Claims (4)

1. A method of constructing a well in difficult geological drilling conditions, including drilling and securing a direction, a conductor, opening an interval of unstable clay deposits that are prone to shedding, collapsing, drilling the underlying zone with crumbling rocks for a short length, followed by strengthening the walls of the interval uncovered by drilling and the underlying zone with cement and drilling the well to the design level, characterized in that after opening by drilling unstable clay deposits with the underlying a complex of geophysical surveys is carried out in a zone with non-shedding rocks in the well, after which the well is cemented stepwise, first the cementing is carried out in the first stage - the interval of unstable clay deposits with the underlying zone with non-shedding rocks, while the casing string section is run on the drill pipe string using the device, including an installation sleeve with flushing side holes for cutting off excess cement mortar after cementing and with a connecting external left-hand thread at the lower end, to which a stepwise made adapter is connected with protective shells concentrically installed inside to prevent cement penetrating its walls, said adapter being connected to the upper end of the cemented section of the casing string through the sub, the inner diameters of the adapter and sub chosen equal to the outer diameter of the casing pipe, after cutting and washing out the excess cement mortar at the end of the cementing operation The drill string with the sleeve is unscrewed from the adapter and lifted to the surface, and after waiting for the cement to harden (GC), the second stage of the wellbore is cemented - the rest of the well above the cemented first stage, using a device for step cementing, connecting the body sub with cementing windows damped by removable plugs to the lower end of the cemented casing pipe with a diameter equal to the diameter of the cemented casing pipe in the first of the cementing stage, a stepwise made adapter with a drilled shoe at the lower end with a check valve is connected to the lower end of the device case, the outer diameter of the adapter being chosen with a diameter equal to the inner diameter of the adapter of the installation sleeve of the device for the first cementing stage, and its inner diameter, as well as the shutters and the casing is chosen equal to the inner diameter of the pipe of the cemented casing string, while the casing is lowered before the end face of the ledge is larger steps of the adapter to the inner ledge, located under the connecting thread of the adapter sleeve of the device for the first cementing stage, after the cementing is completed and the OZC, the cork plug with a saddle, shoe, and also cementing plugs of the first cementing stage are drilled and the hole is further deepened to the design mark with a bit with a smaller diameter . 2. The method according to claim 1, characterized in that the drilling of the interval of unstable clay deposits is carried out at an accelerated rate using a downhole motor and a viscoplastic drilling fluid with increased sludge-carrying capacity, with the lowest possible water loss and in the laminar flow mode in the annular channel of the wellbore. 3. The device for cementing the first stage of a wellbore with unstable clay deposits according to claim 1, comprising a mounting sleeve that is lowered onto the drill pipe string with side flushing windows plugged with destructible diaphragms, connected to the left thread with an adapter with an inner diameter equal to the outer diameter of the cemented pipe casing string, a cementing plug is discharged from the wellhead to close the passage channel of the suspended cementing plug fixed with shear pins, o characterized in that the adapter of the installation clutch is made stepwise and is provided concentrically and with a gap of installed and easily drilled non-metallic protective shells from the formation of a cement peel on its inner walls, one of which is helical and abuts against the inner wall of the adapter, and the other is removable and connected to internal thread of the lower end of the installation sleeve, the specified gap between them being filled with thick technical oil, while the suspension cement plug is equipped with a seat under a resettable cement plug fixed on shear pins to the lower end of the removable sheath. 4. The device for implementing the method of cementing the second stage of the wellbore according to claim 1, comprising a housing with connecting threads at the ends with an adapter at the upper end and cementing holes plugged with removable plugs, a locking ring installed in the junction between the adapter and the housing, abutting with its lower end face on the end face of the housing, locking the valve in the form of a sleeve mounted inside the housing above the cementing holes, a drillable seat under the squeezing cementing plug, installed inside the locking flap, which are fixed to the locking ring with a cut pin, and an annular ledge of the housing, made below the cementing holes for stopping the lower end of the locking flap, characterized in that the lower end of the housing is provided with a stepped adapter with a drillable screw fastened to the lower end shoe with a check valve, while the outer diameter of the adapter is selected with a diameter equal to the inner diameter of the adapter of the installation sleeve of the device of the first stage entirovaniya, and its inner diameter, and the damper housing and is selected equal to the inner diameter of the pipe cemented casing.

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