RU2478769C1 - Method for well drilling - Google Patents

Abstract

FIELD: mining.SUBSTANCE: method for well drilling includes rotation and axial feed of a layout with a chisel and supply of a drilling mud via an inner cavity of the layout for landing, lowering and cementing of a casing string. The well is drilled not reaching the payout bed by 5-40 m, drilling pipes are lowered with a packet at the end. The packet is installed above the lower interval of the absorption zone. A clayey solution is injected along the pipe string into the absorption zone with density of 1.080-1.350 g/cm, containing a fibrous filler or rubber crumb in the amount of 0.5-3.0 mper 10 mof the solution with pump capacity of not more than 15 m/hour until the pressure of 2.8-3.2 MPa is pulled at the well head. Injection is stopped. Well injection capacity is identified. If the injection capacity differs from zero, solution injection is continued, zero injection capacity is achieved. Serially a string of drilling pipes with a packet is lifted into each interval of the absorption zone, and operations are repeated. In the last upper interval they lift the string of drilling pipes with the packet from the well, and the string of drilling pipes with a chisel at the end is lowered with speed of 0.5-1.0 m/s. Via every 300-400 m of lowering the well is washed with drilling mud, which is gradually being replaced. The string of drilling pipes with the chisel is lifted from the well. The drilling layout is lowered, and the well drilling is finalised to the design elevation.EFFECT: higher efficiency of absorption zones insulation.

Description

The invention relates to the construction of wells and may find application in drilling wells through the zones of absorption of drilling fluid.

A known method of drilling a well, comprising rotating and axially feeding the assembly with a bit and supplying washing liquid from the internal cavity of the assembly through the bit to the bottom, while in the absorption zone of the washing liquid, part of the flow of washing liquid from the internal cavity of the assembly is directed into the annulus above the bit (RF Patent No. 2024723, CL ЕВВ 21/00, publ. 15.12.94).

There is a known method of opening the formations, according to which, when opening the layers to the roof, rotation and axial feeding of the assembly with a chisel and supply of flushing fluid through the internal cavity of the assembly to the bottom are performed. Then the casing with a wedge landing ring in the shoe part is lowered and cemented. Continue the autopsy with the supply of washing fluid through the internal cavity of the layout to the bottom to the formation with partial or complete absorption of the washing fluid. When opening a formation with partial or complete absorption of washing liquid, the annulus of the well is separated above the formation with partial or complete absorption of washing liquid. The entire flow of flushing fluid is supplied through the internal cavity of the assembly into the annulus of the well above the place of separation while simultaneously creating in the annular space below the place of separation of reduced pressure and depression on the formation and ejecting liquid with slurry from the bottom through the internal cavity of the assembly into the annulus above the place of separation, mixing with flushing fluid and towards the wellhead (RF Patent No. 2279535, publ. 2006.07.10 - prototype).

Known methods allow to avoid the absorption of washing liquid by the absorption zone, however, the methods do not contribute to isolation of the absorption zone, which leads to the absorption of cement when attaching the well, the violation of the integrity of annular cement ring.

Closest to the proposed invention in technical essence is a method of drilling a catastrophically absorbing formation by drilling, including determining the absorption interval, as well as characteristics such as the intensity of absorption, the presence of dips in the drilling intervals, changes in the mechanical drilling speed from drilling materials and geophysical studies in neighboring drilled wells. The reservoir pressure of the absorbing formation is determined and opened by drilling using a clay solution treated with a filler. Before preparing the clay solution, the reservoir pressure of the absorbing formation is determined by the mathematical dependence. The opening of the absorption interval with partial absorption is started using a clay solution with a viscosity of 35-40 s and a density that provides an excess of the column pressure of the drilling fluid above the reservoir by 0.3 ÷ 0.4 MPa, with the content of fibrous fillers 8-10% of the volume of the drilling fluid , with the layout of the bottom of the drill string weighted drill pipe with a length of 75 ÷ 100 m with a diameter of 165 ÷ 178 mm and with a bit without a nozzle. Washing the bottom of the well with the specified drilling fluid is carried out with a capacity of not more than 14-15 l / s If the circulation of the drilling fluid is lost, the content of the filler in it is increased to 25–35%, and the face is flushed during deepening with a pump capacity of 3-4 l / s until the circulation is restored. After complete penetration of the absorption interval, the absorption zone is fixed by injection of cement mortar. (RF patent No. 2259460, publ. 2005.08.27).

The known method does not allow to fully isolate the zone with catastrophic absorption.

The proposed invention solves the problem of isolating the absorption zones when drilling a well.

The problem is solved in that in the method of drilling a well, which includes injecting into the open interval of the absorption zone of a drilling fluid with a fibrous filler, according to the invention, the well is drilled, not reaching the productive formation by 5-40 m, drill pipes with a packer at the end are lowered into the well, the packer placed above the lower interval of the absorption zone, set the packer, clay pipe with a density of 1080-1350 g / cm ³ containing fibrous filler or crumb rubber at the rate of 0.5-3.0 m ³ per 10 m ³ solution is pumped through the pipe string into the absorption zone at a pump productivity of not more than 15 m ³ / h until the pressure at the wellhead is 2.8-3.2 MPa, the injection is stopped, the injectivity of the well is determined at a wellhead pressure of 2.3-2.5 MPa, with a throttle response different from zero, continue pumping the solution, achieve zero injectivity, when the zero injectivity is reached, raise the drill pipe string with the packer and place the packer over the next highest absorption zone interval, repeat the operations as in the lower interval of the absorption zone, gradually raise the storm column flax pipes with a packer in each interval of the absorption zone and repeat the operations, after completion of work in the last upper interval of the absorption zone, lift the drill pipe string with the packer from the well and lower the drill pipe string with a drill bit at a speed of 0.5-1.0 m / s at the end, after every 300-400 m of descent, the well is washed with drilling fluid and the drilling fluid containing fibrous filler or rubber crumb is gradually replaced in the well with drilling fluid without fibrous filler or rubber crumb, the drill string is raised GOVERNMENTAL pipes bit at the end of the borehole, the drill is lowered and the arrangement doburivayut well to the design level.

SUMMARY OF THE INVENTION

Drilling of wells is complicated by the presence of absorption zones, the isolation of which presents significant difficulties. The proposed method solves the problem of isolating the absorption zones in the well. The problem is solved as follows.

When drilling a well, rotation and axial flow of the assembly with a bit and supply of flushing fluid through the internal cavity of the assembly to the bottom, casing run and cementing are performed. A well is drilled before reaching a productive formation of 5-40 m. Drill pipes with a packer at the end are lowered into the well. The packer is placed over the lower interval of the absorption zone, the packer is installed. Clay solution with a density of 1080-1350 g / cm ³ containing fibrous filler or rubber crumb at the rate of 0.5-3.0 m ³ per 10 m ^{3 of} solution is pumped through the pipe string into the absorption zone with a pump capacity of not more than 15 m ³ / hour to create a pressure at the wellhead of 2.8-3.2 MPa. Stop downloading. These parameters are selected as the most optimal for isolation of the absorption zone. The injectivity of the well is determined at a wellhead pressure of 2.3-2.5 MPa. As a rule, the throttle response is zero. With a throttle response other than zero, the solution is continued to be pumped. Achieve zero throttle response. Upon reaching zero pick-up, a drill pipe string with a packer is lifted and the packer is placed above the next highest absorption zone interval. The operations are repeated as in the underlying interval of the absorption zone. Successively raise the drill pipe string with the packer into each interval of the absorption zone and repeat the operations. Thus, isolate all intervals of the absorption zones. After completion of work, in the last upper interval of the absorption zone, a drill pipe string with a packer is lifted from the well and a drill pipe string with a bit at the end is lowered at a speed of 0.5-1.0 m / s. Such a low speed of descent allows you to keep the insulating material in the intervals of the absorption zones, and the presence of the bit allows you to perform an operation similar to the template wells. After every 300-400 m of descent, the well is washed with drilling fluid and the drilling fluid containing fibrous filler or rubber crumb is gradually replaced in the well with a drilling fluid without fibrous filler or rubber crumb. Raise the drill pipe string with a bit at the end from the well, lower the drill assembly and drill the well to the design mark.

As the fibrous filler, a fibrous filler such as cord fiber, textile fiber, technical wool (hive), and the like can be used.

As a result, when cementing the well with cement after completion of drilling the entire well, there is no absorption of cement, which indicates the complete isolation of the absorption zones.

Case Studies

Example 1. Drill a well with a depth of 1628 m. Rotate and axial feed the layout with a bit and supply flushing fluid through the internal cavity of the layout to the bottom. A well is drilled before reaching a 20 m productive formation. Drill pipes with a packer at the end are lowered into the well. The packer is placed above the lower interval of the absorption zone at a depth of 1530 m. The interval of the absorption zone is 17 m. The packer is installed. Clay solution with a density of 1.25 g / cm ³ containing fibrous filler — cord fiber at the rate of 2.0 m ³ per 10 m ^{3 of} solution at a pump capacity of 14 m ³ / h is pumped through the pipe string into the absorption zone to create pressure at the wellhead 3 MPa. Stop downloading. The injectivity of the well is determined at a wellhead pressure of 2.4 MPa. Pickup is zero. A drill string with a packer is lifted and the packer is placed above the next highest absorption zone interval at a depth of 1110 m. A clay solution with a density of 1.25 g / cm ³ containing rubber crumb at the rate of 0.5 m ^{3 is} pumped into the absorption zone along the pipe string. 10 m ^{3 of the} solution with a pump capacity of 15 m ³ / h until the pressure at the wellhead is 2.8 MPa, the injection is stopped, the injectivity of the well is determined at a wellhead pressure of 2.3 MPa. Pickup differs from zero. They continue to pump the solution, achieve zero injectivity. Upon reaching zero injectivity, a drill pipe string with a packer is lifted and the packer is placed over the next highest absorption zone interval at a depth of 660 m. A clay solution with a density of 1.25 g / cm ³ containing fibrous filler - uluk is 3.0 m ³ per 10 m ^{3 of the} solution with a pump capacity of 13 m ³ / h until the pressure at the wellhead is 3.2 MPa. Stop the injection, determine the injectivity of the well at a pressure at the wellhead of 2.5 MPa. Pickup is zero. A drill string with a packer is lifted from the well and a drill string with a bit at the end is lowered at a speed in the range of 0.5 to 1.0 m / s. After 300, after 350 and after 400 m of descent, the well is washed with drilling fluid and the drilling fluid containing fibrous filler or rubber crumb is gradually replaced in the well with drilling fluid without fibrous filler or rubber crumb. Raise the drill pipe string with a bit at the end from the well, lower the drill assembly and drill the well to the design mark. Casing is run and cemented.

As a result, it is possible to completely isolate the absorption zones and completely prevent the absorption of cement during cementing of the casing.

The application of the proposed method will solve the problem of isolating the absorption zones when drilling a well.

Claims (1)

A method of drilling a well, including rotating and axially feeding the assembly with a bit and supplying flushing fluid through the internal cavity of the assembly to the bottom, lowering and cementing the casing, characterized in that the well is drilled before reaching the producing formation by 5-40 m, and lowered into the well drill pipes with a packer at the end, the packer is placed over the lower interval of the absorption zone, the packer is installed, a clay solution with a density of 1080-1350 g / cm ³ containing fibrous filler or rubber is pumped through the pipe string into the absorption zone a new crumb at the rate of 0.5-3.0 m ³ per 10 m ^{3 of the} solution with a pump capacity of not more than 15 m ³ / h until the pressure at the wellhead is 2.8-3.2 MPa, stop pumping, determine the injectivity of the well at the pressure at the mouth of 2.3-2.5 MPa, at an injectivity other than zero, continue to pump the solution, achieve zero injectivity, when the injectivity is reached, raise the drill pipe string with the packer and place the packer over the next highest absorption zone interval, repeat the operation as in the underlying interval of the zone is absorbed I, successively raise the drill pipe string with the packer to each interval of the absorption zone and repeat the operations, after completing work in the last upper interval of the absorption zone, lift the drill pipe string with the packer from the well and lower the string at a speed of 0.5-1.0 m / s drill pipes with a chisel at the end, after every 300-400 m of descent, wash the well with drilling fluid and gradually replace the drilling fluid containing fibrous filler or rubber crumb in the well with a drilling fluid without fibrous filler or crumb rubber, raise the drill pipe string with a chisel at the end from the well, lower the drill assembly and drill the well to the design mark.