RU2592924C1 - Method of extracting broken and stuck pipes string of flexible pipes from well - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil and gas industry. Method involves lifting of flexible pipe string from well above point of break, its drawing on surface, cutting of broken bottom section of flexible pipe string, its drawing through injector and preventers unit of coil tubing unit, unfastening preventer unit from wellhead equipment, connection of check valve and adapter with processing assembly to lower part of flexible pipe string, lowering processing assembly into well at same string of flexible pipes, arrangement of processing assembly at depth at 1-2 m above point of sticking, attachment of assembly in inner cavity of tubing string, lifting of flexible pipe string with processing Assembly at wellhead to preventer with tube plates, closure of pipe rams, unfastening surface equipment of coil tubing unit above preventer with tube plates from wellhead, its disconnection and suspension with help of lifting mechanism, extraction of processing assembly gate chamber, its disconnection from tubing, lowering fishing assembly into gate chamber above head of flexible pipe string stuck part, input of flexible pipe string stuck part head into inner cavity of overshoot, securing fishing assembly in inner cavity of tubing string by means of hydraulic anchor, drawing of flexible pipes stuck pipes string part with help of hydraulic jack with force of not more than 700 kN and extraction of flexible pipes stuck pipes string part from well.

EFFECT: higher reliability and probability of extraction of flexible pipes stuck pipes string with its broken upper part from well, reduced duration of repair works.

1 cl, 4 dwg

Description

The invention relates to the oil and gas industry, in particular to extracting a dangling and stuck string of flexible pipes from a well, in particular to extracting a dangling and stuck string of flexible pipes using an overshot that is lowered into the well on a flexible pipe string “at equilibrium”, that is, in a stopped, unstressed well under pressure.

Deposits of Western Siberia entered the final stage of development, characterized by low reservoir pressures, a high degree of water cut in the reservoir and the destruction of the bottom-hole zone of the reservoir. Under these conditions, well repair due to unwillingness to contaminate the formation with killing fluid is most often carried out using a flexible pipe of a coiled tubing installation. Often this repair is complicated by various accidents, including a sticking and subsequent breakdown of a string of flexible pipes lowered into the well being repaired [Kustyshev A.V. Complex well repairs. - M .: IRC Gazprom, 2010. - 165 p.].

A known method of extracting a stuck pipe string from a well [Amirov A.D., Ovnatanov S.E., Yashin A.S. Overhaul of oil and gas wells. - M .: Nedra, 1975. - 194].

The disadvantage of this method is the inability to remove the stuck string of flexible pipes from the well without killing the well.

A known method of extracting dangling pipes from a well, including lowering a tap on a drill pipe string, connecting a tap to a dangling pipe sleeve, pacing and lifting a dangling pipe string from a well, while an overshot and a dangling pipe string are further attached to the drill pipe string concentrically to the tap and below it they are caught with an overshot, a ragged pipe is passed into the overshot internal cavity and fixed with an overshot collet for the lower end of a dangling pipe coupling, the lifting of a dangling pipe string is carried out on a fishing r zbe and tap collet overshot [RU 2301879 C1, MPK E 21 B 31/20, publ. 2007].

The disadvantage of this method is the insufficient efficiency of extraction of the stuck string of flexible pipes, especially the impossibility of removing it from the well, in which the upper end part during the accident is increased in diameter due to fatigue fracture or the formation of longitudinal cracks, which complicates the work of a rifled fishing tool (such as a tap )

The problem to which the claimed technical solution is directed is to provide the possibility of extracting a dangling and stuck string of flexible pipes from a stopped well under pressure (without killing it) using the same flexible pipe string that was previously removed from the well and lowered into emergency a well under pressure, or rather, "at equilibrium" of pressure at the bottom and in the pipe, without killing it.

Achievable technical result, which is obtained as a result of the invention, is to increase the reliability of extraction of dangling pipes from the well with minimal installation and maintenance costs.

The objective and technical result is achieved in that the method of extracting a dangling and stuck string of flexible pipes from a well under pressure, equipped with production and elevator columns and wellhead equipment, is characterized in that it involves removing from the well above the point of breakage of a free section of the string of flexible pipes, stretching a free portion of the flexible pipe to the surface, cutting off the bottom of the free portion of the flexible pipe, pulling the free portion of the flexible pipe through the injector and the block coils of the coiled tubing installation, unblocking the preventer block from the wellhead equipment, attaching the check valve flexible pipe string and the processing sub to the cut bottom of the indicated portion of the column, lowering the processing assembly into the well above the sticking point, smooth tolerance with minimal speed and washing the processing assembly to the deformed head the stuck part of the column of flexible pipes, fixing the processing assembly in the inner cavity of the elevator column using a hydraulic anchor, about the end mill operation of the deformed head of the stuck part of the dangling and stuck column of flexible pipes with a slow release of the column together with the end mill when creating a circulation of flushing fluid until the flushing fluid appears in the annular space between the lift column and the deflated flexible pipe string, lifting the flexible pipe string with the processing assembly to wellhead to preventer with tube dies, closure of tube dies, unfastening of ground equipment of coiled tubing installation above the preventer with pipe dies from the wellhead, disconnecting and suspending it using a lifting mechanism, removing the processing assembly and disconnecting it from the string of flexible pipes, lowering the fishing assembly including overshot, hydraulic jack and hydraulic anchor into the lock chamber, attaching it to the flexible pipe, mounting on the lock chamber of the disconnected part of the ground equipment of the coiled tubing unit, descent into the well of the fishing assembly above the deformed head of the stuck part of the columns processed by the face mill flexible pipes, introducing the deformed head of the stuck part of the flexible pipe string into the overshot cavity, carefully covering with the overshot of the deformed head of the stuck part of the flexible pipe string until flushing fluid appears in the annular space between the lift column and the deflated flexible pipe string, fixing the fishing assembly in the internal cavity of the lift column pulling the stuck portion of the flexible pipe string with a hydraulic jack and extracting the torn and stuck portion of the string of gy side pipes from the well.

The causal relationship between the essential features of the proposed technical solution and the technical result is as follows. The claimed combination of actions and their sequence will ensure reliable extraction of the dangling and stuck string of flexible pipes from the emergency well, which is under pressure, taking into account the required safety standards. The use of the previously extracted part of the flexible pipe for the subsequent descent of the processing assembly and fishing assembly can reduce material and technical costs.

In FIG. 1. The layout diagram of the equipment of an emergency well with a dangling and stuck string of flexible pipes is shown; FIG. 2 - the same, when machining with an end mill a deformed head of the stuck part of the string of flexible pipes, in FIG. 3 - the same, when catching the head of the stuck part of the flexible pipe string with an overshot, in FIG. 4 - the same, when removing the stuck part of the string of flexible pipes from the well in engagement with overshot. The arrows in the figure show the direction of the circulating fluid.

The method is as follows.

To a stopped unpressurized emergency well, which is under pressure, equipped with production 1 and lift 2 columns, and with a coiled tubing installation installed on the mouth, including the actual installation 3 with a drum 4 of flexible pipes 5, a guiding groove 6, an injector 7, a preventer unit 8 with a preventer with shear dies 9, with a preventer with spider wedge dies 10, with a preventer with tube dies 11, with a preventer with blind dies 12, initially they remove from the well a free (torn) section of the flexible pipe string Ub 5. From the lower part, extracted from the well of the flexible pipe 5, the damaged part of the pipe is cut off to exclude its possible destruction with further use.

Next, a flexible pipe 5 with a non-return valve and a sub (Fig. Not shown) is passed through the injector 7 to a level above the shear dies 9 of the preventer unit 8. The ground equipment 13 of the coiled tubing unit 3 is unfastened above the preventer with pipe dies 11 from the wellhead equipment 14 of the well being repaired , disconnect and suspend it using a lifting mechanism, such as a truck crane (not shown).

A flexible pipe 5 is pulled out of the injector 7 and mounted on the wellhead equipment 14 (for example, on a fountain reinforcement buffer) a lock chamber (not shown in Fig.). A processing assembly is lowered into it, consisting of an end mill 15 sequentially from bottom to top, a metal trap 16, a downhole motor 17 and a hydraulic armature 18 (with an inner diameter smaller than the outer diameter of the elevator column 2). Connect the processing assembly to the sub (not shown) of the flexible pipe string 5. Mount on the lock chamber (not shown) the disconnected part of the ground equipment (trough 6, injector 7 and the upper part of the preventer unit 8) of the coiled tubing 3.

Then the same flexible pipe 5 is lowered (or if there is a need to replace the old string of flexible pipes with a new one, with a constant diameter) with the processing assembly into the well above the point of cliff 19 (or sticking), for example, to a depth of 1-2 m remaining the stuck portion 23 of the column of flexible pipes, for example, a sand plug 20, smoothly allow, at minimum speed and when circulating with washing liquid 21, the processing assembly to the deformed head 22 of the torn stuck portion 23 of the column of flexible pipes.

Fix the processing assembly in the inner cavity of the elevator column 2 using a hydraulic anchor 18 and process the deformed head 22 of the stuck portion 23 of the column of flexible pipes 5 using the end mill 15 to create a circulation of the washing fluid 21 until it appears in the annular space 24 between the column of flexible pipes 5 and an elevator column 2, while small particles of the destroyed metal from the deformed head 22 of the stuck portion 23 of the flexible pipe string are captured in a metal trap 16.

Then the column of flexible pipes 5 with the processing assembly is lifted to the preventer with pipe dies 11, the pipe dies 11 are closed, sealing the string of flexible pipes 5. The ground equipment 13 of the coiled tubing is installed above the preventer with pipe dies 11 from the wellhead equipment 14 of the well being repaired, disconnected and suspend it using a lifting mechanism, for example, using a truck crane (not shown). Remove the processing assembly from the lock chamber, disconnect it from the sub of the flexible pipe string 5. Connect the ground equipment of the coiled tubing unit 1 to the wellhead equipment 14 of the well being repaired.

The ground equipment 13 of the coiled tubing unit 3 is unfastened above the preventer with tube dies 11 from the wellhead equipment 14 of the well being repaired, disconnected and suspended using a lifting mechanism, for example, a truck crane (not shown).

The fishing assembly is lowered into the lock chamber (not shown in Fig.), Consisting of overshot 25 sequentially installed from the bottom up, hydraulic jack 26 and hydraulic armature 18. The fishing assembly is connected to the sub of the flexible pipe string 5, the detached part of the ground coiled tubing equipment is mounted on the lock chamber installation 3.

The string of flexible pipes 5 with the fishing assembly is lowered into the well to the permissible possible depth (in particular, 1-2 m) above the deformable head 22 of the torn stuck portion 23 of the string of flexible pipes. A deformed head 22 of the stuck portion 23 of the column of flexible pipes is carefully introduced into the inner cavity of overshot 24 and covered with a fishing assembly to cover the deformed head 22 of the ragged stuck portion of the pipe string 23 with a minimum descent speed (providing smooth descent) and the circulation of washing liquid 21 until it appears in the annular space 24 between the flexible pipe string 5 and the lift string 2.

The fishing assembly is fixed in the inner cavity of the elevator column 2 suspended on the wellhead equipment 14 using a hydraulic anchor 18. The stuck portion 23 of the flexible pipe string is pulled out of the sand plug 20 that gripped it using the hydraulic jack 26. The stuck stuck portion 23 of the flexible pipe string is pulled due to the vertical movement of the output rod (not shown) of the hydraulic jack 26, which is located in the inner cavity of the hydraulic jack 26 with a force of not more than 700 kN.

Then from the well remove the sand plug 20, already formed from destruction of the bottom-hole zone of the productive formation 27, the stuck portion 23 of the flexible pipe string that was previously stuck and cut off in the upper part (above the sand plug).

The inventive method allows you to reliably and with a high degree of probability to remove the stuck string of flexible pipes with a broken upper part from the well, reduce the duration of the repair work from 12 months to three, reduce the cost of the work and the cost of repairing the well by 3-4 times.

Claims (1)

A method of extracting a dangling and stuck string of flexible pipes from an emergency well under pressure, equipped with production and elevator columns and wellhead equipment, including removing from the well above the point where the free section of the flexible pipe string was cut off, pulling the free portion of the flexible pipe to the surface, cutting off the bottom of the free flexible pipe section, pulling a free flexible pipe section through the injector and the block of preventers of the coiled tubing unit, unfastening the block of preventers from wellhead equipment, attaching to the cut bottom of the indicated portion of the column of flexible pipes of the non-return valve and the sub with the machining assembly, lowering the machining assembly into the well above the sticking point, smooth tolerance with a minimum speed and washing of the machining assembly to the deformed head of the stuck portion of the string of flexible pipes, fixing machining assembly in the inner cavity of the elevator column using a hydraulic anchor, end-face treatment of the deformed head of the tacked hour tying and grabbing a string of flexible pipes with a slow release of the column together with the end mill when creating a circulation of flushing fluid until the flushing fluid appears in the annular space between the lift column and the deflated string of flexible pipes, lifting the string of flexible pipes with a processing assembly at the wellhead to a preventer with pipe with dies, closing pipe dies, unfastening the ground equipment of the coiled tubing installation above the preventer with pipe dies from the wellhead, disconnecting and hanging using the lifting mechanism, removing the processing assembly and disconnecting it from the flexible pipe string, lowering the fishing assembly including the overshot, hydraulic jack and hydraulic anchor into the lock chamber, attaching it to the flexible pipe, mounting the coiled tubing installation on the lock chamber of the disconnected part , descent into the well of the fishing assembly above the deformed head processed by the end mill of the stuck part of the string of flexible pipes, the input of the deformed head of the stuck part of the stake the flexible pipes into the overshot inner cavity, carefully covering with the overshot the deformed head of the stuck part of the flexible pipe string until flushing fluid appears in the annular space between the lift column and the deflated flexible pipe string, securing the fishing assembly in the internal cavity of the lift column, pulling the stuck flexible pipe string with using a hydraulic jack and extracting the tattered and stuck part of the string of flexible pipes from the well.

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