RU2344263C1 - Method of incompetent rocks driving in well drilling - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention is related to the field of oil and gas wells drilling, namely to methods for prevention of well walls damage and collapse in drilling of intervals with incompetent rocks. Method comprises well deepening in interval of layer with incompetent rocks and reinforcement of well walls in specified interval by profile shutters. Deepening of interval with incompetent rocks and reinforcement of well walls are done by subsequent sections. Length of section is selected so that incompetent rocks do not collapse in process of chisel lifting and installation of profile shutter. Installation of profile shutters is done with overlapping with subsequent reduction of internal diameter of installed profile shutters in working position at deepening with expansion of well shaft at the first section of layer interval or in a butt joint at subsequent deepening with expansion of all sections of well shaft.

EFFECT: exclusion of emergency situations related to collapse and/or break of incompetent rocks, provision of method simplicity and cost production.

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Description

The invention relates to the field of drilling oil and gas wells, and in particular to methods of preventing destruction and collapse of the walls of wells when drilling intervals with unstable rocks.

It is known “Device for drilling wells in unstable and destroyed rocks with simultaneous casing” (patent RU No. 2262578, ЕВВ 7/20, publ. Bulletin No. 29 from 10/20/2005), by which a drilling method is carried out, including drilling wells with flushing wells and lowering the casing immediately after the drilling tool.

The disadvantages of this method are:

- when lowering the casing string, especially in deviated wells, emergency situations associated with sticking the casing string are possible;

- the complexity and high cost of the used drilling tool;

- poor-quality cementing along the entire perimeter and length of the casing, which can cause unauthorized interstratal flows, since when drilling large intervals of unstable rocks, the borehole accumulates behind the casing.

The closest in technical essence and the achieved result is the "Method of driving unstable clay rocks during the drilling of oil and gas wells" (patent RU No. 2256762, ЕВВ 7/00, 21/00, publ. Bulletin No. 20 of July 20, 2005) including the deepening of the well with a chisel in the interval of the formation with unstable clay rocks using a viscoplastic flushing fluid in a laminar flow regime in the annular channel of the wellbore, the flushing fluid flow rate being selected 20-30% less than the critical flow rate at which the change occurs laminar to the turbulent regime, wherein the viscoelastic fluid is selected with the highest possible filtration.

The disadvantages of this method are:

- the great technological complexity of obtaining a laminar flow of a viscoplastic washing fluid over the entire length of the interval of unstable rocks, since the well channel in this section has an imperfect cylindrical shape;

- increased wear of the drilling tool, as in the viscoplastic washing fluid there are solid inclusions that play the role of an abrasive;

- reducing the working life of pumping units, since for pumping a viscoplastic fluid during washing it is necessary to maintain a constant high pressure.

The technical task of the invention is the creation of a cheap and reliable method of sinking unstable rocks, allowing trouble-free descent, installation and cementing of casing strings.

The technical problem is solved by the method of sinking of unstable rocks while drilling a well, which includes deepening the well in the interval of the formation with unstable rocks and strengthening the walls of the well in the specified interval with profile overlays.

New is that deepening the interval with unstable rocks and strengthening the walls of the well is carried out in successive sections, the length of the section being chosen so that there is no collapse of unstable rocks during the raising of the bit and installation of the profile overlap, while the installation of profile overlaps is performed with overlapping overlapping reducing the inner diameter of the installed profile shutoffs in the working position when deepening with the expansion of the wellbore at the first training heel formation interval or butt sequential extension of the recess portions of the wellbore.

Figure 1 shows the stage of drilling with the expansion of the wellbore in the first section.

Figure 2 shows the installation phase of the first profile overlap.

Figure 3 shows the stage of drilling the second section of the well.

Figure 4 shows the installation phase of the second profile overlap overlap with a decrease in the internal diameter of the profile overlap in the working position.

The technical problem is solved by the method of penetration of unstable rocks (for example, shale) when drilling wells 1, including the deepening of the well 1 sections 2 and 2 'bit 3 (see Figure 1) with expander 4 or without expander (see Figure 3) in the interval of the formation 5 with unstable rocks with the strengthening of the walls of the well profile shutoff 6 (see Figure 2) and 6 '. The length of the sections L ₁ (see Figure 1) and L2 (see Figure 3) and the interval of the formation 5 are determined previously by geological studies and analysis of unstable rocks to exclude collapse or collapse of unstable rocks during the rise of bit 3 (see Figure 1 and 3) and the installation of the profile overlap 6 (see Figure 2) and 6 '(see Figure 4). Depending on the length of the penetration of the interval of the reservoir 4 choose the method of fastening the walls of the well 1 profile overlap.

For small-sized penetration intervals of the formation 5 (up to 150 m), use the method of installing profile overlap overlap 7 (see Figure 4). To do this, deepen the first section 2 (see Figure 1) with a bit 3 with an expander 4 to a length L ₁ , expanding the walls of the well 1. The bit 3 and the expander 4 are removed from the well 1 and lowered into this section 2 (see Figure 2) profile shutter 6, which is mounted flush. Further, the deepening of the second section 2 'is carried out only by a bit 3 (see Figure 3) for a length L ₂ . After that, the bit 3 is removed from the well 1 and the profile overlap 6 'is lowered (see Figure 4), which is installed with a slight overlap of the lap 7 with the bottom of the profile overlap 6. As a result, the inner diameter of the second overlap 6' in the working position will be less than the previous overlap 6. If necessary, in a similar manner using a bit 3 (see FIG. 3) of even smaller diameter, another profile overlap 6 (not shown) is installed. In this way, the installation of more than three shutoffs 6 (see Figure 4) and 6 'is not recommended, since the inner diameter of the well is significantly reduced due to a decrease in the diameters of the shutoffs.

For large penetration intervals of the formation 5 (more than 200 m), a method of installing butt-to-face profile overlap (not shown) is used. Why deepen the first section 2 (see Figure 1) with a bit 3 with an expander 4 to a length L ₁ , expanding the walls of the well 1. The bit 3 and the expander 4 are removed from the well 1 and are lowered into this section 2 (see Figure 2) profile shutter 6, which is mounted flush. Further, the deepening of the second section 2 'is carried out only by a bit 3 (see Figure 3) with an expander (not shown) for a length L ₂ . After that, a chisel 3 with an expander is removed from the well 1 and the profile shutter 6 'is lowered (see Figure 4), which is installed end-to-end (not shown) with the bottom of the profile shutter 6 and flush in the well 1. As a result, the inner diameter of the second shutter 6 'in working position will not decrease. Moreover, with a gap between the profile overlappers 6 and 6 'up to 15-20 cm, the destruction and collapse of unstable rock are impossible. If necessary, in a similar way using a bit 3 (see Figure 1) with an expander 4, you can install another profile overlap 6 (not shown). The number of installed overlap 6 and 6 'in this way is not limited.

Most often, in the deposits of the Republic of Tatarstan, it is sufficient to install two overlap 6 (see Figure 4) and 6 'overlap 7.

An example of a specific implementation.

The interval of penetration of formation 5 of unstable rocks was 80 m. Before this interval, we drilled a bit 3 (not shown) with a diameter of 216 mm. Then changed the layout and added the expander 4 (see Figure 1). Then deepen the first section 2 (see Figure 1) with a bit 3 with an expander 4 to a length L ₁ = 50 m, expanding the walls of the well 1 to a diameter of 237 mm The bit 3 and the expander 4 are removed from the well 1 and a profile shutter 6 with a length of 45 m is lowered into this section 2 (see FIG. 2), which is installed flush. Further, the deepening of the second section 2 'is carried out only with a bit 3 (see Figure 3) with a diameter of 215.9 mm for a length L ₂ = 45 m. After that, a bit 3 is removed from the well 1 and the profile overlap 6' is lowered (see Figure 4 ) 40 m long, which is installed with an overlap of 7 (with an overlap of 0.5-1 m) with the lower part of the profile overlap 6. The inner diameter of the second overlap 6 'in the working position is smaller than the overlap 6 and amounted to 195 mm. As a result, the interval of the formation 5 of the well 80 m is covered by the total length of the profile overlap 6 and 6 'of about 44 m, excluding the collapse and collapse of unstable rocks. Further drilling is carried out by conventional methods with a bit 3 (not shown) with a diameter of 190.5 mm.

The proposed method is reliable, since it almost completely eliminates emergency situations associated with the collapse and / or collapse of unstable rocks, it is simple and cheap, since it does not require special equipment for drilling wells.

Claims (1)

A method of penetrating unstable rocks while drilling a well, including deepening the well in the interval of the formation with unstable rocks and reinforcing the walls of the well in the specified interval with profile overlays, characterized in that the deepening of the interval with unstable rocks and strengthening of the walls of the well is carried out in successive sections, the length of the section being chosen such so that there is no collapse of unstable rocks during the raising of the bit and installation of the profile overlap, while the installation of profile overlap it produces an overlapping lapped with consequent reduction of the inner diameter of the installed profile liner in operative position with a recess with an extension on the first wellbore portion of the formation interval or butt sequential extension of the recess portions of the wellbore.

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