RU2548269C1 - Method of reinforcement of well troublesome zone using shaped shutter - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: method comprises expansion of the well interval, run of the shaped shutter and equipment for well local reinforcement. For expansion the assembly is run to depth of the troublesome zone, is rotated, flushing water circulation is ensured, reamer rams are cut in rock without tool feed, shelf is made in the rock, axial load is ensured and the shelf interval is expanded, interval and diameter of the shelf are determined, the shutter length is determined. In the shelf interval the following are run: the shutter with speed 0.5 m/s max, equipment for well local reinforcement, containing easy drilled shoe, seating head with ball and roll expanders, shutter is levelled by pressure creation, axial load is ensured, pipes string is rotated with expanders. After each 5-7 turns rotation is stopped, initial axial load is restored, and rotation is continued with assembly with expanders release from the shutter until complete release, well is flushed, shutter is reamed. Upon the shoe achievement under mode of the cylindrical sections reaming the turnout is performed with shoe staying in the well, assembly is lifted, and diameter of the roll expander section is measured, assembly containing drillbit and pipes string is assembled, run is performed, and internal diameter of the shutter is wiper tripped until free passage, shoe is drilled.EFFECT: increased reliability of troublesome zone isolation.

Description

The invention relates to the oil industry and may find application in fixing a well complication zone with a profile overlap.

There is a method of isolating the zones of complications in the well with profile shutoffs, including straightening it in the well with internal pressure and calibrating the inner diameter with a flare, while in the section of the profile overlap installed against the absorption zone, a disconnecting packer element is placed above and below the latter, and the inner diameter of this section is calibrated carry out to a diameter of 3-5% higher than the original (USSR copyright certificate No. 1679030, publ. 09/23/1991).

The disadvantages of this method are:

- large energy costs when calibrating the overlap, as the inner diameter is calibrated by 3-5% higher than the original, which leads to accelerated wear of the flare, landing and jamming of the tool;

- the risk of cracks on the walls of the profile overlap due to the large number of radial effects of a variable magnitude at such a degree of calibration that can lead to "fatigue" (that is, to weakening of bonds in the crystal lattice) of the metal.

Closest to the proposed invention in technical essence is a method of isolating complication zones in a well with a profile cutter, including profiling the shutoff pipes, making internal threads on the coupling ends and external threads on the nipple ends, or calibrating the profile ends with chamfering for welding, tightly screwing sections of the profile pipes between themselves or welding, the shutter descent into the necessary pre-expanded interval of the well, the radial expansion of the profile pipes by creating hydraulic pressure, flaring up to tight hermetic pressing them to the walls of the well. Profiling is carried out from cylindrical pipes, the inner diameter of which is 5-8% larger than the internal diameter of the wellbore, the installation interval is expanded to a diameter at which the full expansion of the profile pipes occurs while they are pressed against the walls of the well. Before lowering into the well, the upper end of the overlapper is equipped with a flare mill with a mill for breaking the shoe and an expanding flare machine, and the lower end with an easily drilled shoe. The expanding flare tool has a diameter in the working position, which allows flaring the internal diameter of the overlap in the narrowest places to a diameter exceeding the diameter of the wellbore by at least 1.5% (RF patent No. 2418151, publ. 05/10/2011 - prototype).

The disadvantage of this method is the low reliability of isolation of the zones of complications in the well, which is manifested in the appearance of an inflow or absorption after the zone is blocked by a blocker.

The proposed invention solves the problem of increasing the reliability of isolation of the complication zone in the well.

The problem is solved in that in the method of fastening the zone of complication of the well with a profile cutter, including extending the interval of the well, lowering the extended interval of the profile cutter and equipment for local fastening of the well, radial expansion of the profile overlap by creating hydraulic pressure in it, flaring the profile cutter before pressing against the walls of the well, according to the invention, to expand the interval of the borehole, an assembly of a drill bit, reamer and drill pipe string is assembled, they align the assembly to the depth of the complication zone, rotate the assembly at a frequency of 60-70 rpm, circulate the flushing fluid through the assembly with a capacity of 15-16 l / s and a pressure of 5.0-6.0 MPa, cut the dies of the expander into the rock without tool feed for 10-15 minutes, create a step in the rock, create an axial load of 3-5 tons and expand the interval of the step, determine the interval and diameter of the step, determine the length of the overlap, lower the interval of the step into the interval of the profile with a speed of no more than 0.5 m / s, in the step interval is lowered on the pipe string to the equipment of local fastening of the well, containing an easily drilled shoe, a landing head with ball and roller flare, straighten the profile overlap by creating pressure in the equipment of the local fastening of the well, create an axial load of 0.5-1 tons, rotate the pipe string with flare, every 5-7 revolutions, the rotation is stopped, the initial axial load of 0.5-1 t is restored, and with the rotation, the assembly with flare mills is freed from prof sludge blocker until complete release, wash the well, flare profile blocker with an axial load on a ball flare 8.0-12.0 t, on a flare flare 2.0-5.0 t in the cylindrical part and 1.0-4.0 t in the profile part with a rotational speed of 60-70 rpm, when reaching an easily drilled shoe in the rolling mode of cylindrical sections, a lapel is made to leave the shoe in the well, the assembly is raised and the diameter of the roller bearer section is measured, and the assembly is assembled from a bit and a column RUB produce descent and shablonirovku profile liner internal diameter at a speed of 0.5 m / s to the free passage, drilled out legkorazburivaemy shoe.

SUMMARY OF THE INVENTION

When attaching the complication zone in the well, existing methods of overlapping with profile shutoffs do not always lead to complete isolation of the complication zone (absorption or inflow). The proposed invention solves the problem of increasing the reliability of isolation of the complication zone in the well. The problem is solved as follows.

Mud pumps and electrical equipment are being prepared for the uninterrupted operation of the drilling crew in the process of expanding the wellbore to install a profile shutoff with a statement of readiness. Profiled pipes, a shoe on the overlap, expander, ball flare, roller flare, weighted drill pipes, drill pipes, benchmark and other equipment are imported to the drill. As an easily drilled shoe, a plastic shoe with a duralumin ball, which acts as a valve, is used. When descending through the shoe, the profile blocker is filled with liquid in the well, and when the drilling fluid is injected into the drill pipe, the ball blocks the flow and pressure is created to blow the profile blocker.

The borehole is expanded in the complication interval by the rotary method at a speed of 4-8 m / h, performing the following operations. Assemble the layout, i.e. the layout of the bottom of the drill string from the bit, reamer, weighted drill pipe and drilling tool - pipes used for drilling. Check the performance of the expander at the wellhead. The layout is lowered to the depth of the complication zone. When the rotor rotates at a speed of 60-70 rpm, the pump is turned on and with a productivity of 15-16 l / s and a pressure of 5.0-6.0 MPa, the expander dies are injected into the rock without feeding the tool for 10-15 minutes, depending on fortresses of rocks, accumulate a ledge. By creating an axial load of 3-5 tons, the ledge is expanded. The creation of such a step determines the stability of the overlap from displacement in the axial direction.

In the process, the timing of the expansion of the wellbore is kept. Well surveys are performed with a caliper, with a small diameter in the extended interval, the expansion is repeated, and then the caliper studies are repeated. Comparing the gamma-ray logging materials of the well and the caliper data before and after expansion and the data of hydrodynamic studies, the length of the overlap is determined, the measure is specified, i.e. the exact length of the drilling tool and the installation interval of the equipment for local fastening of the well. The length of the overlap is selected from the condition that it will cover the complication zone for 5-10 meters above and below. Equipment for local fastening of the well is assembled with an easily drilled shoe and a landing head with a ball expander, a roller expander, weighted drill pipes, drill pipes and a benchmark. The profile shutter is lowered at a speed of not more than 0.5 m / s. This speed is necessary so that during descent, the profile cutter has time to spontaneously fill with flushing fluid located in the well to prevent crushing of the shutter under the influence of hydrostatic pressure. Install the equipment for local fastening of the well in the interval of the ledge. The descent depth is specified by gamma-ray logging, clutch locator and using the included benchmark. Pressure test the pressure line. To straighten the profile overlap, create pressure on the pipe string of the drilling rig discharge line by pumping out the flushing fluid using a cementing unit or mud pumps. In the process of straightening the profile overlap, the circulation of the flushing fluid is monitored. By unloading and tensioning the drill string with a force of 10-15 tons, the stability of the overlap in the well is checked, at this load, the overlap should not be displaced. If the offset of the overlap is detected, re-create a pressure of 15.0 MPa and check for stability from axial displacement. An axial load of 0.5-1 t is created on the pipe string, the pipe string with flarers is rotated, rotation is stopped every 5-7 revolutions, the initial axial load of 0.5-1 t is restored and the assembly with flarers continues to be released from the profile overlap until rotation full liberation. Such modes of freeing the flare from the overlap guarantees the safety of the percolator and the invariance of its size, which directly affects the quality of isolation of the complication zone.

Wash the well until the circulation. The overlap is expanded at an axial load of 8.0-12.0 t on the ball flare, 2.0-5.0 t on the roller flare in the cylindrical part and 1.0-4.0 t in the profile part of the overlap with a rotational speed of 60-70 rpm Such modes are selected as providing full pressing of the shutoff to the walls of the well with isolation of the complication zone.

Upon reaching the easily drilled shoe in the rolling mode of the cylindrical sections produce its lapel.

Raise the equipment for local mounting of the well and measure the diameter of the section of the roller flare. With a small diameter or equipment failure, the equipment for local fastening of the well is expanded by the descent of the ball flare in combination with a weighted drill pipe and other drill pipes. The expansion mode is established empirically directly in the process.

Assemble the layout, i.e. layout of the bottom of the drill string from the bit, weighted and drill pipe. They make a descent and template the internal diameter of the profile overlap with a speed of not more than 0.5 m / s until free passage. A speed of 0.5 m / s is necessary so that in case of a landing, the profile overlap is not damaged. Drill an easily drilled shoe. 25-30 m ^{3 of} drilling fluid is pumped, wells are examined through blowout control equipment for injectivity.

Further deepening of the well is continued with a bit passing through the profile overlap. When drilling during hoisting operations, the entry and passage of the assembly through the profile overlap is carried out at a reduced speed of not more than 0.5 m / s.

Case Studies

Example 1. Drilling an oil well. The drilled face is at a depth of 1522 m. 9 ″ conductor lowered to a depth of 240 m, cemented. Complication zone. When drilling from a depth of 1425 m, there was a loss of circulation. According to the studies, the absorption zone (complication zone) is in the range of 1412-1445 m. The absorption zone is isolated by installing the OLKS-216C profile cutter in the interval: 1412-1445 m.

Prepare equipment, mud pumps, electrical equipment for the smooth operation of the drilling crew in the process of expanding the wellbore to install the profile shutoff with the preparation of the act of readiness. Profiled pipes are brought into the drill pipe, an easily drilled shoe onto the shutter, the РРМ-216/241 expander, a landing device with the РШ-196 ball flare tool, РШ-216УВ ball flare tool, РР 180/216 П roller flare machine, UBT-178 weighted drill pipes, TBPN-127.

The borehole is expanded in the range of 1407-1450 m by the rotary method at a speed of 6 m / h, performing the following operations: they assemble the bottom of the drill string from a bit with a diameter of 215.9 mm, an expander, weighted drill pipes with a total length of 50 m and a drilling tool. Check the performance of the expander at the wellhead. The layout of the bottom of the drill string is lowered to a depth of 1407 m. When the rotor rotates at 65 rpm, the pump is turned on and with a productivity of 15 l / s and a pressure on the riser of 5.5 MPa, the expander dies are injected into the rock without axial load for 12 minutes, a step is produced . By creating an axial load of 4 tons, the borehole is expanded to a depth of 1450 m. In the process, the borehole is timed.

Well surveys are performed with a caliper - a PF-73 M device. Diameter in an extended interval of 230 mm. Repeat the expansion, and then repeat the study with a caliper. Diameter in an extended range of 236 mm. Comparing the gamma-ray and caliper materials before and after the expansion and the hydrodynamic research data of the well, the overlap length is specified, the measure of the drilling tool and the installation interval of the equipment for local fastening of the well, which is 43 m (complication zone 1412-1445), are specified.

Equipment for local fastening of a well with a length of 43 m is assembled with a drilled shoe and a landing head with a ball reamer, a roller reamer, a drill string, drill pipes, a benchmark and a drill pipe. The profile shutter is lowered at a speed of 0.5 m / s. Install the equipment for local mounting of the well in the range of 1407-1450 m. The interval is specified according to the actual length of the pipes of the equipment for local mounting of the well. The descent depth is specified by the gamma-ray logging method of the couplings locator using the included benchmark.

Pressure grouting pressure line at 20.0 MPa.

To straighten the profile cutter, create a pressure in the pipe string of 13.5 MPa by forcing the flushing fluid using the cementing unit CA-320. By unloading and tensioning the drill string with a force of 12 tons, the stability of the overlap in the well is checked. There is no bias.

At an axial load of 0.5 t without taking into account the weight of the overlap, the drill string with a flare is rotated free of the cutter, while every 6 turns of the tool, the rotor is stopped, the initial axial load of 0.5 t is restored and the rotation of the bottom of the drill string with flare is continued with the rotation of the rotor from the soffit to full release.

Wash the well until the circulation.

The overlap is expanded at an axial load of 10.0 tons on a ball expander, 3.5 tons on a roller expander in a cylindrical part and 2.5 tons in a profile part with a rotation speed of 65 rpm. Upon reaching easily drilled shoe in the rolling mode of the cylindrical sections produce a lapel of the shoe.

Raise the layout and measure the diameter of the section of the roller flare. Diameter less than 216 mm. The flare tool is lowered into the well and the equipment for local fastening of the well is expanded. The flaring mode is set as before. The diameter of the flare tool raised from the well is 216 mm.

They assemble the layout of the bottom of the drill string from a 215.9 mm drill bit, weighted drill pipes and drill pipes, run and profile the internal diameter of the profile overlap at a speed of 0.5 m / s until free passage, drill an easily drilled shoe. After expanding the equipment for local fastening of the well and drilling the shoe, 28 m ^{3 of} drilling fluid is pumped, the well is examined through an anti-blowout equipment for injectivity.

Further deepening of the well is continued with a bit with a diameter of 215.9 mm. When drilling during hoisting operations, the entry and passage of the assembly through the profile overlap is carried out at a reduced speed of not more than 0.5 m / s.

Example 2. Perform as example 1.

The borehole is expanded in the range of 1407-1450 m by the rotary method at a speed of 4 m / h.

The layout of the bottom of the drill string is lowered to a depth of 1407 m. When the rotor rotates at 60 rpm, the pump is turned on and with a productivity of 15 l / s and a riser pressure of 5.0 MPa, the expander dies are injected into the rock without feeding a tool for 10 minutes, and a step is produced . By creating an axial load of 3 tons, the borehole is expanded to a depth of 1450 m. In the process, the borehole is timed.

To straighten the profile cutter, create a pressure in the pipe string of 12.0 MPa by forcing the flushing fluid using mud pumps. In the process of straightening the profile overlap, the circulation of the flushing fluid is monitored. By unloading and tensioning the drill string with a force of 10 tons, the stability of the overlap in the well is checked. There is no bias.

With an axial load of 0.7 tons without taking into account the weight of the overlap, a drill string with a flare is freed from the overlap by turning to the right, while every 5 turns of the tool, the rotor is stopped, the initial axial load of 0.7 tons is restored and the rotation of the bottom of the drill string is continued with the rotation of the rotor flarers from the overlap, to complete liberation.

Wash the well until the circulation. The overlap is expanded at an axial load of 8.0 tons on a ball expander, 2.0 tons on a roller expander in a cylindrical part and 1.0 tons in a profile part with a rotation speed of 60 rpm. Upon reaching easily drilled shoe in the rolling mode of the cylindrical sections produce a lapel of the shoe.

They assemble the layout of the bottom of the drill string from a 215.9 mm drill bit, weighted drill pipes and drill pipes, run and profile the internal diameter of the profile overlap at a speed of 0.4 m / s until free passage, drill an easily drilled shoe. After expanding the equipment for local fastening of the well and drilling the shoe, 25 m ^{3 of} drilling fluid is pumped, a well is examined through the blowout equipment for injectivity.

Example 3. Perform as example 1.

The borehole is expanded in the range of 1407-1450 m by the rotary method at a speed of 8 m / h

The layout of the bottom of the drill string is lowered to a depth of 1407 m. With a rotor rotation of 70 rpm. turn on the pump and with a capacity of 16 l / s and a pressure on the riser of 6.0 MPa, the dies of the expander are injected into the rock without feeding a tool for 15 minutes, a step is produced. By creating an axial load of 5 tons, the wellbore is expanded to a depth of 1450 m.

The profile shutter is lowered at a speed of 0.3 m / s.

To straighten the profile cutter, create a pressure in the pipe string of 15.0 MPa by forcing the flushing fluid using the cementing unit CA-320.

By unloading and tensioning the drill string with a force of 15 tons, the stability of the overlap in the well is checked. There is no bias.

With an axial load of 1 t without taking into account the weight of the overlap, a drill string with a flare is freed from the cutter to the right, while every 7 revolutions of the tool, the rotor is stopped, the initial axial load of 1 t is restored, and with the rotation of the rotor, the assembly of the bottom of the drill string with flarers is released from the cutter, until complete release.

Wash the well until the circulation. The overlap is expanded at an axial load of 12.0 tons on a ball expander, 5.0 tons on a roller expander in a cylindrical part and 4.0 tons in a profile part with a rotation speed of 70 rpm. Upon reaching easily drilled shoe in the rolling mode of the cylindrical sections produce a lapel of the shoe.

They assemble the layout of the bottom of the drill string from a 215.9 mm drill bit, weighted drill pipes and drill pipes, run and profile the inner diameter of the profile overlap at a speed of 0.3 m / s until free passage, drill an easily drilled shoe. After expanding the equipment for local fastening of the well and drilling the shoe, 30 m ^{3 of} drilling fluid is pumped, the well is examined through the blowout equipment for injectivity.

As a result, it is possible to isolate the complication zone in the well with completely isolating the absorption zone in the well.

The application of the proposed method will solve the problem of improving the reliability of isolation of the complication zone in the well.

Claims (1)

A method of attaching a well complication zone to a profile cutter, including extending the interval of the well, lowering to the extended interval of the profile cutter and equipment for local fastening of the well, radially expanding the profile overlap by creating hydraulic pressure in it, expanding the profile cutter before pressing against the walls of the well, characterized in that for expansion interval of the well collect the layout of the drill bit, expander and drill pipe string, lower the layout to a depth These are complications, they rotate the assembly at a frequency of 60-70 rpm, circulate the flushing fluid through the assembly with a capacity of 15-16 l / s and a pressure of 5.0-6.0 MPa, insert dies of the expander into the rock without feeding the tool for 10-15 minutes, a ledge is produced in the rock, an axial load of 3-5 tons is created and the interval of the ledge is expanded, the interval and diameter of the ledge are determined, the length of the overlap is determined, the profile overlap is lowered into the interval of the ledge at a speed of no more than 0.5 m / s, in the interval step led down and for the pipe string, the equipment for local fastening of the well, containing an easily drilled shoe, the landing head with ball and roller flare, straighten the profile overlap by creating pressure in the equipment of the local fastening of the well, create an axial load of 0.5-1 t, rotate the pipe string with flare, every 5 -7 revolutions stop the rotation, restore the initial axial load of 0.5-1 tons and with rotation continue to release the layout with flarers from the profile overlap to p For complete release, the well is washed, the profile cutter is flared at an axial load of 8.0-12.0 t on the ball flare, on the roller flare 2.0-5.0 t in the cylindrical part and 1.0-4.0 t in the profile part with a rotation speed of 60-70 rpm, when reaching an easily drilled shoe in the rolling mode of cylindrical sections, make a lapel with the shoe in the well, raise the layout and measure the diameter of the roller bearer section, assemble the assembly from the bit and pipe string, run and ram sizing the internal diameter of the profile overlap with a speed of not more than 0.5 m / s to free passage, drill easily drilled shoe.