RU2474669C1 - Construction method of well shaft through unstable clay mine rocks - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: when the well shaft is being constructed through unstable clay mine rocks, a vertical section is built. The section of initial deviation is drilled with increase in and stabilisation of a zenith angle of less than 60° by means of a navigation telemetric system. Flushing fluid is used with the base represented with clay flushing fluid with density ρ=1250-1400 kg/m³ with addition of modified disperse silica in the quantity of 0.1-0.3 vol. %. Casing string is lowered to the well with entry to upper lime, and casing string annulus is cemented. Productive part is opened by drilling the shaft using polymer-clay solution with density ρ=1112-1200 kg/m³ with increase in the zenith angle required for achieving the horizontal plane in the middle of the project formation.

EFFECT: avoiding cases of severe accidents when developing unstable rocks at high zenith angle.

1 dwg

Description

The invention relates to the field of drilling directional and horizontal shafts of oil and gas wells on Devonian deposits.

A known method of drilling a horizontal well (RF Patent No. 2159318, publ. 11/20/2000), including the drilling of a vertical section, a section of the initial curvature and drilling of a horizontal section, while the stabilization of the zenith angle is carried out to the interval of stable rocks located below the bottom of the reservoir and the extension of the zenith angle up to 80 °, and the drilling of the horizontal section is carried out to a length that ensures, after the zenith angle is set to more than 90 °, the productive formation is opened at the design point with subsequent penetration oh the inclined or horizontal section in the reservoir.

It should be noted that in the description of this patent there are no recommendations for trouble-free drilling of clay rocks, in particular, the Kynovsky horizon when drilling horizontal wells on Devonian deposits.

There is also a method of drilling horizontal wells with a remote bottom (RF Patent No. 2278939, publ. June 27, 2006). The method includes sinking of a vertical section, a section of initial curvature with a set of zenith angle according to the project, sections of a set of zenith angle with horizontal access and drilling of a horizontal shaft.

A common drawback of the above methods is that they do not take into account a number of problems when drilling Kynovsky clay during the construction of horizontal wells on the Devonian deposits, which is accompanied, as is known, by complications of the wellbore shedding, collapses and caverns, resulting in collapse of the inclined arch the borehole is blocked by an annular rock channel, hence the sticking of the drilling tool. Despite the large expenditures of time, labor and material resources associated with the study, his release is unsuccessful. In particular, the technology for the construction of inclined and horizontal wells according to well-known patents does not stipulate at what zenith angle the Kyn clay is exposed, the nature of the flow of drilling fluid in the annular channel, which drilling fluid is used in this case, since under the action of the drilling fluid, the barrel also breaks down wells as a result of deterioration of the mechanical properties of Kynovsky mudstones and also leading to sticking of the drill string. It is also not provided for the creation and control of the necessary load on the bit when drilling with a downhole screw motor with a large displacement of the faces from the wellhead for accelerated passage of Kyn clay.

Closest to the proposed invention in technical essence is a method of constructing a horizontal well for Devonian deposits, which includes drilling a vertical section, a section of initial curvature with a set of zenith angle according to the project, sections of a set of zenith angle with horizontal access and drilling a horizontal wellbore. To reduce the likelihood of a tool being stuck, the clay of the Kynovsky horizon passes at an zenith angle of less than 60 °, and if the zenith angle is 50-60 °, then the casing is lowered into the well with the entrance to the upper limestone and cemented, and if the zenith angle is 45-40 ° and less, then the well is cased with a casing string and cemented after reaching the bottom of the well of the productive horizon by drilling along the design profile. The specific value of the zenith angle of entry into the upper limestone at the base of the Kynovsky horizon is determined by the distance from the upper limestone to the design oil reservoir and the radius of curvature when typing curvature in this interval to its required value (RF Patent No. 2421586, published on June 20, 2011 - prototype).

The disadvantage of this method is the appearance of complications and even accidents during the passage of unstable rocks of the overlying horizon at a large zenith angle.

The objective of the invention is the prevention of complications and the elimination of severe accidents during the passage of unstable rocks at a large zenith angle.

The problem is solved in that in the method of guiding the wellbore through clay unstable rocks, including drilling a vertical section, a section of initial curvature with a set and stabilization of the zenith angle of less than 60 °, lowering the casing into the well with the entrance to the upper limestone and cementing the annulus, sinking sections of the set of zenith angle with access to the horizontal and horizontal drilling of the barrel, according to the invention, the wiring section of the initial curvature is carried out using stabilizing the layout of the bottom of the drill string (BHA) and flushing fluid with stable parameters on a clay drilling mud, in which a clay flushing fluid with a density of ρ = 1250-1400 kg / m ³ with the addition of modified dispersed silica in the amount of 0.1- 0.3 vol.%, Zenith angle up to 60 ° is set using a navigation telemetry system, wiring is carried out at a flow rate of flushing fluid from 12 to 15 l / s, the productive part is opened by drilling a barrel on a polymer-clay mortar with a density ρ = 1112-1200 kg / m ³ with a set of zenith angle necessary for reaching the horizontal in the middle of the design layer.

SUMMARY OF THE INVENTION

As the practice of constructing a horizontal well on the Devonian sediments has shown, the particular difficulty caused by the complication, in particular, shedding, cavern formation, collapse and sticking of the drilling tool, is the penetration of the Kynovsky horizon, the thickness of which is from 16 to 35 m, which is the cover of the oil deposits of the Pasha horizon and zhivsky layer of oil fields of Tatarstan. It is represented by lamellar shales (mudstones), which are classified as brittle rocks, and are not subject to plastic deformation. Since mudstones in the rock mass are in equilibrium under the influence of rock and pore pressures, when opening with drilling, the equilibrium is disturbed and stresses arise on the walls of the well. The latter are determined by the ratio of the interacting rock and pore pressures and the column pressure of the flushing fluid. If the stress exceeds the strength of the bearing capacity of the rocks, then the walls of the borehole instantly collapse, hence, as a result, a sticking of the drilling tool occurs. Caverns are mainly formed during the sinking of unstable clay rocks - clay shales of the Kynovsky, Pashiysky horizons as a result of surface, capillary and osmotic hydration of the mud filtrate, the strength characteristics of the Kynovsky clays in the near-trunk zone are deteriorating. The proposed method solves the problem of preventing complications and eliminating cases of severe accidents during the passage of unstable rocks at a large zenith angle. The problem is solved as follows.

A set of zenith angle up to 60 ° is made using a navigation telemetry system, which when drilling provides to the surface data on the spatial position of the drilled face. As a navigation telemetry system, the following can be used: a tele-system with a Geolink hydraulic communication channel and a tele-system with an electromagnetic communication channel ZTS-42EM-M. When conducting a wellbore, a vertical section is drilled, an initial curvature section with a set and stabilization of the zenith angle of less than 60 °, a casing is lowered into the well with an entrance to the upper limestone and cemented annular space, a penetration of sections of a zenith angle set with horizontal access and horizontal well drilling .

Posting of the initial curvature section is carried out using the stabilizing arrangement of the lower part of the drill string, which is a bit, nipple centralizer, sub, downhole motor and weighted drill pipes (UBT). Posting of the initial curvature section is carried out using washing fluid with stable parameters: viscosity - 40-50 s; fluid loss - 6.4 cm ^3/30 min; pH 6.5-8. By stable it is understood that the drilling fluid does not change its properties for the entire drilling process. A clay drilling fluid with a density of ρ = 1250-1400 kg / m ³ with the addition of modified dispersed silica in an amount of 0.1-0.3 vol.% Is used as a base on a clay drilling mud. Dispersed silica according to TU 245810-001-50618596-2000 is a powder from white to gray-yellow with a hydrogen index of suspension 2-10, hydrophobicity 96-99.8%, bulk density 40-245 g / dm ³ and specific surface 140 -380 m ² / g.

The mechanism of action of the hydrophobic modification of the Quartz MDK is based on the ability to fix on the surface of the pore channels of the reservoir and, along with partial adhesion colmatation of the feather space, substantially hydrophobize it in the bottomhole zone, which, in turn, leads to spontaneous pulling of oil from areas with increased oil saturation i.e. areas not covered by exposure. As a result, the oil saturation of the bottom-hole formation zone and its phase permeability for oil in both zones (washed and non-washed) are equalized, which leads to an increase in the flow rates of wells in the liquid and a decrease in the water cut of the produced products.

Posting in unstable Kyn clay is carried out at a minimum (from 12 to 15 l / s) flow rate of flushing fluid at the so-called transitional mode (between laminar and turbulent flushing fluid flow regimes), which ensures the removal of cuttings from the wellbore and short-term wall stability wells without forming erosive erosion.

The productive part is opened by drilling a trunk accompanied by a navigation system and a geological and technical research station (GTI) on a polymer-clay solution with a density ρ = 1112-1200 kg / m ³ , which is a polymer-based water-based clay suspension with a set of zenith angle required to reach the horizontal in the middle of the design layer.

As a result, it is possible to draw a well without complications and tacking of the drilling tool.

Case Studies

Figure 1 shows a diagram of the construction of the well.

In Fig. 1, the following notation is adopted: 1 - conductor with a diameter of 245 mm, 2 - production casing with a diameter of 168 mm, 3 - a liner with a diameter of 114 mm, 4 - a layer of Kyn clay, 5 - a layer of "upper limestone", 6 - Pasha horizon.

Drilling a well with a diameter of 215.9 mm. A vertical section is drilled, then an initial curvature section with a set and stabilization of the zenith angle equal to 50-60 °, i.e. less than 60 ° with the support of a MWD type television system to a depth corresponding to the opening depth of Kyn clay. Posting of the initial curvature section is carried out using the stabilizing arrangement of the lower part of the drill string, which is a bit 215.9T3-GAU-R437, nipple centralizer NS-214, an elongated sub 0.4 m long, downhole motor DV-172M; weighted drill pipe UBT ⌀165 (178) -16 m. In this case, flushing fluid with stable parameters is used: viscosity - 40-50 s; fluid loss - 6.4 cm ^3/30 min; pH 6.5-8 on a clay mud of the following composition: lump clay; a piece of chalk; carboxymethyl cellulose; bicarbonate of soda; KMK-BUR2 or SCM; catamine AB; oil; neonol (AF9-12); modified disperse silica MDC "Quartz" in an amount of 0.1-0.3 vol.%.

Wiring is carried out at a flow rate of flushing fluid from 12 to 15 l / s, avoiding going beyond the specified boundary values. Changes in the density of the washing liquid are allowed in the range from 1250 to 1400 kg / m ³ , not allowing them to go beyond the specified limits. The amount of modified dispersed silica is maintained in the range from 0.1 to 0.3 vol.%, Not allowing going beyond these limits.

Exceeding these limits leads to complications and tacking of the tool while drilling the well.

Conduct geophysical surveys. Locate the current face. They continue to deepen without a telesystem with stabilization of the zenith angle to the sole of the “upper limestone”. Casing with a diameter of 168 mm is lowered into the well with the entrance to the upper limestone and the annulus is cemented.

Drilling is continued with a bit with a diameter of 144 mm accompanied by the MWD television system with an intensity of zenith angle set, which provides access to the Pashi horizon at 90 ° to the design layer. The opening of the productive part is carried out by drilling the barrel on a polymer-clay solution with a density ρ = from 1112 to 1200 kg / m ³ . Maintain the density of the polymer-clay solution within these limits, avoiding going beyond these limits.

Next, drill a trunk horizontally 100 m long, without changing the drilling mode and drilling fluid parameters. A small diameter trunk is cased with a shank of 114 mm diameter and the annular space is cemented.

As a result, it is possible to drill a well without complications and accidents.

Application of the proposed method will prevent complications and exclude cases of severe accidents during the passage of unstable rocks at a large zenith angle. The introduction of this technology allows you to drill a horizontal wellbore on the deposits of the reservoir without the involvement of expensive technologies and equipment, respectively, with a minimum drilling time.

Claims (1)

A method of drilling a borehole through clay unstable rocks, including sinking a vertical section, a section of initial curvature with a set and stabilization of the zenith angle of less than 60 °, lowering the casing string into the well with an entrance to the upper limestone and cementing the annulus, sinking sections of a set of zenith angle with exit horizontal and horizontal drilling, characterized in that the wiring section of the initial curvature is carried out using a stabilizing layout of the lower part urilnoy column and the washing liquid with the stable parameters in clayey mud, which is used as the base clay wash liquid density ρ = 1250-1400 kg / m ³ with the addition of the modified particulate silica in an amount of 0.1-0.3 vol.%, zenith angle up to 60 ° is set using a navigation telemetry system, wiring is carried out at a flow rate of flushing fluid from 12 to 15 l / s, the productive part is opened by drilling a trunk accompanied by a navigation system and a geological station technical studies on polymer-clay mortar with a density ρ = 1 from 1112 to 1200 kg / m ³ with a set of zenith angle necessary to reach the horizontal in the middle of the reservoir.

Images