RU2564314C1 - Method of recovery of passability of open horizontal wellbore - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: at implementation of the method on the wellhead with open horizontal wellbore collect the bottom-hole assembly is assembled which consists of (bottom-up) a bit, a right branch pipe 4 m long and a calibrator, the bottom-hole assembly is lowered into the well at the string end to the beginning of open wellbore interval, simultaneous rotation of the string with the rotation frequency 20 rpm and direct washing along the string of drilling pipes are performed with the flow rate 10 l/s, then by axial movement of the string with reference to the open wellbore at a speed no more than 20 m/h the wellbore passability is recovered. Before each jointing of the string of pipes the washing by one and a half volume of the string of drilling pipes is performed with triple working-out in places of screwing and slacking-off with the bottom-hole assembly reciprocation, the string with the bottom-hole assembly is extracted from the well, at the string end the spherical funnel with a gauge is lowered down to the interval of open horizontal wellbore, the backflow with the flow rate 7 l/s is performed, with simultaneous movement of the string with the maximum speed 0.5 m/s with reference to the open wellbore. Before jointing of each drilling pipe the washing by one and a half volume of the string of drilling pipes with the bottom-hole assembly reciprocation to the length of the drilling pipe is performed, avoiding slacking-off of the string of drilling pipes in the well above 5 t from own weight, after washing of an open horizontal wellbore the string of drilling pipes with the spherical funnel and the gauge template is extracted from the well.

EFFECT: improvement of reliability and efficiency of passability recovery.

2 dwg

Description

The invention relates to the repair of horizontal wells, in particular, and can be used to restore patency of an open horizontal wellbore after a rock collapse.

A known method of washing a borehole (patent RU No. 1783109, IPC E21B 21/00, publ. 12/23/1992), including the descent into the well of a drill string with a large diameter element installed above the bit, and flushing the well. The drill string is lowered to the bottom of the cavity, then fluid is supplied into the well, intermediate flushing is carried out, counter flow flows are created in the annular space of the well at the level of the cavity location by periodic ups and downs of the drill string, after which the cuttings are removed from the annular space of the well by flushing.

The disadvantages of this method are:

- firstly, the low efficiency of restoring patency of the wellbore;

- secondly, the duration and complexity of the method associated with periodic ups and downs of the drill string;

- thirdly, exactingness in implementation, since it is necessary to observe hydraulic conditions (flow rate, pressure) to create an impact of oncoming flows in the annular space of the well.

Also known is a method of cleaning a wellbore from rock (Ya.M. Rasizade, A.I. Kurdachev, A.V. Letitsky, N.M. Sherstnev. Experience in using a viscoelastic separator to clean a wellbore when drilling and attaching it // RNTS. Drilling. - 1975. - No. 12. - S. 33), which consists in the fact that they collect the layout of the bottom of the drill string, consisting of a bit, a weighted drill pipe (UBT), a reamer and drill pipes. The layout is lowered into the well, being worked out and the pumps are switched on for intensive flushing.

The disadvantages of this method are:

- firstly, the low efficiency of restoring the patency of the wellbore after a rock collapse, since during intensive washing large pieces (20-50 mm or more) are carried off the bottom and, accumulating above the bit, enter the gap between the pipes and the wall of the well, spells, tool tightening occur, ending with rock collapse by sticking and breaking pipes;

- low reliability of the implementation of the method, since each time the washing is turned off, the layout is jammed by the settled rock raised by intensive washing above the bit;

- high duration of the implementation of the method, since the presence of an expander in the composition of the bottom of the drill string reduces penetration when restoring the patency of the trunk.

The closest in technical essence and the achieved result is a method of restoring patency of a borehole after a rock collapse (patent RU No. 2171352, IPC E21B 21/00, published July 27, 2001), which includes assembling a bottom hole assembly consisting of a drill bit and UBT, descent into the borehole of the assembly at the end of the drill pipe string, rotation of the drill string and the inclusion of flushing, descent of the assembly with flushing lead to the zone of rock accumulation and landing, then tear off the bit from the accumulated rock, according to water and reduce the amount of injected flushing fluid, a large piece of rock is destroyed by a bit from the “overhang”, when a spell occurs, the bit is lifted above the collapse zone and the fracture process is repeated, after the bit or part of the entire collapse zone has passed without stopping rotation, they include flushing to the maximum possible value and, pacing the layout within the passed zone, wash out the fine cuttings destroyed by the bit from the well at maximum washing, the process is carried out to normal without puffs, landing passes according to ol layout.

The disadvantages of this method:

- firstly, the low reliability of the implementation of the method, due to the fact that when restoring the patency of the borehole there is a high probability of sticking of the drill pipe string with a bit due to the presence of a weighted drill pipe (UBT) in the bottom of the drill string (BHA), " lying ”on the lower surface of the open horizontal wellbore, due to the fact that the drill collar has a larger outer diameter and smaller inner diameter, which is why the annular section decreases in the well in the drill collar interval and a high guide is created avlicheskoe followed sliming resistance and tack, and there is a possibility of deviation ( "leaving aside") bit of the restored horizontal wellbore due to lack of stiffness of the BHA;

- secondly, low recovery efficiency of the open hole of a horizontal well after a rock collapse. This is due to the fact that the process of restoring the permeability of a borehole by drilling with a bit is combined with flushing, which is effective in a vertical well, but has low efficiency in restoring the patency of an open wellbore of a horizontal well, since flushing fluid is supplied to the drill pipe string when directly flushing a horizontal wellbore, and rises along the annular space of the well, while all particles of the sludge move along the annular space and tend to descend to the lower wall of the horizontal the ontal trunk, not allowing to completely restore the bore of the open horizontal wellbore;

- thirdly, there is no way to control the restoration of patency of the wellbore, i.e. technological operation for the wellbore patterning, since if it is necessary to lower it into the well after restoring the flow area of an additional pipe string, for example, a cementless perforated liner, it is necessary to template the wellbore for the liner being lowered into it.

An object of the invention is to increase the reliability and efficiency of restoring the patency of a well after a rock collapse in an open horizontal wellbore with the possibility of patterning the restored flow section of a horizontal wellbore.

The stated technical problem is solved by the method of restoring patency of an open horizontal wellbore, including assembling the layout of the bottom of the drill string, consisting of a bit, lowering the layout at the end of the drill pipe string, rotating the drill string and turning on flushing, restoring patency of the wellbore with the layout pacing to normal without puffs and landings passing the layout along the wellbore.

What is new is that at the wellhead with an open horizontal borehole, a bottom hole assembly consisting of a bit, a 4 m long right pipe and a calibrator is assembled, the bottom hole assembly at the end of the drill pipe string is lowered to the beginning of the open horizontal hole interval then rotate the drill string at a speed of 20 rpm and then directly flush the drill pipe with a flow rate of 10 l / s, then axially move the drill string relative to open horizontal borehole with a speed of not more than 20 m / h, the patency of the open horizontal wellbore is restored over the entire length, and before each extension of the drill pipe string, the drill pipe string is washed one and a half times with a three-fold study in the places of tightenings and landings with layout pacing, a drill pipe string is removed from the well with the bottom of the drill string, and then a spherical funnel is lowered into the well at the end of the drill pipe string with a template up to the interval of the open horizontal bore, then backwash with a flow rate of 7 l / s, while moving the drill string at a speed of no more than 0.5 m / s relative to the open horizontal borehole along its entire length, and before building up each drill the pipes are flushed in a half times the volume of the drill string with the layout pacing to the length of the drill pipe, preventing the drill string from landing in the well more than 5 tons of its own weight, at the end of flushing and an open horizontal wellbore, a drill pipe string with a spherical funnel and a template from the well is removed.

In FIG. 1 and 2 show the implementation scheme of the proposed method.

The proposed method is implemented as follows.

At the wellhead with an open horizontal wellbore 1 (see Fig. 1), for example, 142.9 mm in diameter, the bottom assembly of drillstring 2 is assembled, consisting of a bottom 3 upward bit 3, a right pipe 4 4 m long and a calibrator 5.

As bit 3, for example, a roller cone bit of standard size 142.9 M-GAU R558 with an outer diameter of 142.9 mm equal to the diameter of the restored open horizontal barrel 1 is used.

As the right branch pipe 4 with a length of 4 m, the right branch pipe of the drill pipe TBLV - 73 · 9.19 is used.

As a calibrator 5, for example, a KS-142.9-T calibrator is used, with an outer diameter of 142.9 mm equal to the diameter of the restored open horizontal barrel 1. A spiral calibrator (KS) with inserts made of hard alloy is designed to calibrate the wellbore and preserve it diameter in medium and hard formations.

The layout of the bottom of the drill string 2 at the end of the drill pipe string 6 is lowered into the well before the start of the interval of the open horizontal bore 1, for example, 1350 m and a diameter of 142.9 mm. As the string of drill pipes 6, a drill string of pipes of mark TBPN 73 · 9.19 is used.

Perform simultaneous rotation of the drill pipe string 6 with a frequency of 20 rpm and direct washing with the injection of drilling fluid, such as waste water, with a density of 1100 kg / m ³ along the drill pipe string with a flow rate of 10 l / s.

Next, by axial movement of the drill string 6 relative to the open horizontal wellbore 1 with a speed of not more than 20 m / h, the patency of the open horizontal wellbore 1 is restored over the entire length. For example, from the beginning of an open hole in the interval of 1350 m to the end of the open hole (bottom) of the well in the range of 1570 m, i.e. over 220 m, with the use of drill pipes in the amount of 22 pieces with a length of 10 m each.

Before each extension of the drill pipe string 6, the open horizontal borehole is flushed in a volume of one and a half times the drill string 6 with three times worked out in the places of tightenings and landings with the layout paced to the length of the drill pipe to be expanded, i.e. to a length of 10 m

We determine the volume of the internal space of the drill pipe string TBPN 73-9.19, starting from the length: L = 1350 m.

We obtain volume: V ₁ = 1.5 · (3.14 · d ^2/4) · L = 1,5 · 3,14 · (0,073- (0,00919 · m 2)) ^2/4 · 1350 m = 4.74 m ³ .

Thus, before each extension of the drill pipe string 6, one and a half times the volume of the drill pipe string 6 is flushed, starting from a volume of V ₁ = 4.74 m ³ (in the range of 1350 m), and then with each extension of the drill pipe string 10 m is adjusted washing volume in one cycle to a volume of V ₁ = 5.51 m ³ (in the range of 1570 m).

The drill string 6 is removed from the well with the layout of the bottom of the drill string 2.

The reliability of the implementation of the method increases. This is due to the fact that when restoring the passability of the horizontal wellbore, the likelihood of sticking the drill string is sharply reduced due to the absence of a weighted drill pipe in the BHA 2, which is a source of high hydraulic resistance, which also allows you to save the cross section of the annular space of the open horizontal wellbore, as well as due to placement in the BHA 2 behind the bit 3 of the right pair 4 and calibrator 5, giving it rigidity, which completely eliminates the possibility of deviation (“leaving in side ”) bits from a horizontal well being restored 1 well.

Then, a spherical funnel 7, for example, with a diameter of 127 mm and with a template 8, is lowered into the well at the end of the drill pipe string 6 (see Fig. 2) with a template 8 before the start of the interval (1350 m) of the open horizontal shaft 1 with a diameter of 142.9 mm.

As a template, three pipes are used with an outer diameter equal to the outer diameter of the perforated liner (not shown in FIGS. 1 and 2), which will need to be lowered into the reconstructed open horizontal shaft 2 (see FIG. 2) of the well, for example, 114 mm in diameter.

Then, backwash is performed at a flow rate of 7 l / s, while the drill string 6 is moved relative to the open horizontal bore 1 of the well from the start interval of the open bore 1 of the well (1350 m) at a speed of not more than 0.5 m / s, for example, 0, 4 m / s, until the end of the open borehole (bottom) of the well is reached in the interval of 1570 m.

Before building up each drill pipe, the well is flushed in one and a half times the volume of the drill pipe string with the layout pacing to the length of the drill pipe (10 m).

Thus, before each extension of the drill pipe string 6, one and a half times the volume of the drill pipe string 6 is flushed, starting with a volume of V ₂ = 4.74 m ³ (in the range of 1350 m), and then with each extension of the drill pipe string 10 m is adjusted washing volume in one cycle to a volume of V ₂ = 5.51 m ³ (in the range of 1570 m).

It is not allowed to drill string 6 in the well more than 5 tons of its own weight, for example, when the weight of drill string 6, for example equal to 15 tons, is not allowed to unload drill string 6 less than 10 tons, while monitoring is carried out according to the weight indicator set at the wellhead.

At the end of the flushing of the open horizontal wellbore 2, the drill string 5 with a spherical funnel 6 and template 7 is removed from the well.

The proposed method has a high efficiency of restoration of an open horizontal wellbore after a rock collapse, since the process of restoring patency of a horizontal wellbore is divided into two stages:

1) sinking (development) of the open horizontal wellbore with a chisel, which allows you to restore the patency of the open horizontal wellbore by direct flushing;

2) flushing of the open horizontal wellbore after restoring patency with the combination of a technological operation for patterning, while backwashing is carried out by supplying flushing fluid to the annular space of the open horizontal wellbore with the removal of cuttings from the annular space along the drill pipe string.

The proposed method allows you to control the restoration of patency of the open horizontal wellbore by means of patterning the open horizontal wellbore, and if necessary, after restoring the bore of the open horizontal wellbore, lower an additional pipe string, for example, a cementless perforated liner, into the open horizontal wellbore.

The proposed method allows to increase the reliability and efficiency of the method when restoring patency of a well after a rock collapse in an open horizontal wellbore and has the ability to template a restored flow area of a horizontal wellbore.

Claims (1)

A method of restoring patency of an open horizontal wellbore, including assembling a layout of the bottom of the drill string, consisting of a bit, lowering the layout at the end of the drill pipe string, rotating the drill string and flushing, restoring patency of the wellbore with the layout pacing to normal without tightenings and landings passing the layout along the wellbore, characterized in that at the wellhead with an open horizontal wellbore, the assembly of the bottom of the drill string is assembled, from bottom to top, from the bit, the right pipe 4 m long and the calibrator, the bottom of the drill string is lowered into the borehole at the end of the drill string until the start of the open horizontal bore interval, then the drill string is rotated simultaneously at a frequency of 20 rpm and the pipe is flushed directly drill pipe string with a flow rate of 10 l / s, then by axial movement of the drill pipe string relative to the open horizontal wellbore with a speed of not more than 20 m / h, open-hole patency is restored horizontal wellbore along the entire length, and before each extension of the drill pipe string, the drill pipe string is flushed in one and a half times with three times working in the places of tightening and fittings with the layout pacing, the drill pipe string with the bottom assembly of the drill string is removed from the well, and then into the well at the end of the drill pipe string, a spherical funnel with a template is lowered to the interval of the open horizontal shaft, then backwash with a flow rate of 7 l / s, simultaneously by varying the movement of the drill string at a speed of not more than 0.5 m / s relative to the open horizontal wellbore along its entire length, and before building up each drill pipe, flush the drill string in one and a half times with walking the layout to the length of the drill pipe, avoiding landing drill pipe strings in the well more than 5 tons of its own weight; after washing the open horizontal wellbore, the drill string with a spherical funnel and a template from the well are removed azhiny.

Images