RU2490426C1 - Method for completion of horizontal well of small diameter - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: method involves drilling of a well by a bit with diameter of 144-155.6 mm. At that at the end of the production string with nominal diameter of 102-114 mm a baffle plate, strata cutting packer and stage cementing collar are installed; the production string is ran-in into a horizontal part of the well; the plug is installed into the baffle plate by mud circulation; then pressure in the production string is increased till the cutting packer and thereafter holes of the stage cementing collar are open; 2-4 mof drill mud are pumped at pressure of 8-11 MPa and flow rate of 10-15 l/s; flush mud containing 1-3% of surface-active substance is pumped in volume of 3-10 mat pressure of 6-8 MPa and flow rate of 5-10 l/s; then calculated volume of cement grout is pumped at pressure of 6 - 10 MPa and flow rate of 5-10 l/s; by displacing liquid the by-pass plug is displaced till setting of the stage cementing collar and closure of its apertures at pressure from 6 up to 14 MPa and flow rate of 5-10 l/s; then pressure is vented and a check is made to prove unavailability of a drain in tubular annulus; then waiting on cement hold is made, the baffle plate, strata cutting packer and stage cementing collar are drilled out and the well is developed.EFFECT: cementing of the horizontal production string of small diameter.

Description

The invention relates to the oil industry and may find application in the construction of horizontal wells of small diameter.

A known method of constructing a well of a multilayer oil field, which includes drilling a well to the design depth with opening heterogeneous formations of the Pashian horizon, geophysical surveys, launching a production string and cementing it. Drilling is performed without opening the aquifer of the section, and when cementing the production casing, a stop ring, a lip-cementing device, and a cementing check throttle valve are placed above the reservoir. At the same time, they do not violate the integrity of the clay bridge between the upper and lower layers. This method prevents getting annular water inflow in the well, allows you to save the reservoir properties of a multilayer field, saves costs during well construction (RF patent No. 2427703, publ. 08.27.2011).

The known method has limited use in purely special geological conditions.

Closest to the proposed invention in technical essence is a method of cementing a casing string in directional wells, including lowering the casing string, pumping cement slurry into the casing string, discharging the separation plug, pumping the flushing fluid, and pushing the cement slurry into the annulus. Before injecting the cement slurry, the minimum value of the volumetric flow rate of injecting the cement slurry into the casing is determined by analytical expression taking into account the curvature of the wellbore and the productivity of the grout is greater than this value is selected (RF Patent No. 2200823, publ. March 20, 2003 - prototype).

The method allows cementing only wells with a small angle of inclination, and is completely unsuitable for cementing horizontal wells of small diameter.

The proposed invention solves the problem of cementing the production casing of a horizontal well of small diameter.

The problem is solved in that in the method of completing a horizontal small-diameter well, the wells are drilled with a bit with a diameter of 144-155.6 mm, at the end of the production string with a nominal diameter of 102-114 mm, a stop ring, a packer-cutter and a stepped cementing coupling are placed, lowered the production casing in the horizontal part of the well, by installing the drilling fluid in the stop ring, increase the pressure in the production casing until the packer-cutter opens and then the holes of the stepped coupling cementing, pump 2-4 m ^{3 of} drilling fluid at a pressure of 8-11 MPa and a flow rate of 10-15 l / s, pump buffer fluid in a volume of 3-10 m ³ containing 1-3% surfactant at a pressure of 6- 8 MPa and a flow rate of 5-10 l / s, pump the calculated volume of cement mortar at a pressure of 6 to 10 MPa and a flow rate of 5-10 l / s, press the separation plug through the squeezing fluid until it is inserted into the step cementing clutch and closes its windows at a pressure of 6 to 14 MPa at a flow rate of 5-10 l / s, release pressure, make sure that there is no spout in the pipe consistency of, exposure process is performed on the waiting on cement, drilled out stop ring packer cutter formations, and the coupling stage cementing and master hole.

SUMMARY OF THE INVENTION

The construction of small diameter wells can significantly save time and materials. However, the construction of such wells causes a number of technological difficulties, especially manifested when drilling horizontal shafts. The classic version of well drilling, when a well is drilled to a producing formation, casing, cementing, drilling a producing formation with a smaller diameter, is not acceptable for small diameter wells, because a decrease in diameter in the interval of the reservoir leads to a decrease in the already small diameter of the well, difficulties in processing, re-opening, development of the well, small flow rate of the well. In addition, the wellbore of such a well is horizontal or subhorizontal even before the reservoir. It is impossible to leave such a trunk uncased because of possible water manifestations from the overlying strata, the influence of the productive stratum on the overlying strata. In this regard, the question arose of the construction of such a well and, especially, of cementing the production string of a horizontal small-diameter well. In the proposed invention, this problem is solved as follows.

The borehole of a small diameter for the production string, both vertical and horizontal, is drilled with a bit with a diameter of 144-155.6 mm. As a production string, a casing string with a nominal diameter of 102-114 mm is used. The use of columns with larger nominal diameters is impossible due to its inability to withstand bending stresses when moving from a vertical to a horizontal section. At the end of the production casing with a nominal diameter of 102-114 mm, a stop ring, a packer-cutter and a step cementing coupling are placed. The production casing is lowered into the horizontal part of the well to the boundary of the reservoir. By pushing the drilling fluid through the production string with an open annulus, a plug is placed in the stop ring at the wellhead. Increase the pressure in the production string until the packer-cutter is opened and the horizontal uncased wellbore is cut off in the interval of the reservoir. The pressure in the production string is further increased to open the openings of the step cementing clutch. 2-4 m ^{3 of} drilling fluid is pumped through the production casing at a pressure of 8-11 MPa and a flow rate of 10-15 l / s, buffer fluid is pumped in a volume of 3-10 m ³ containing 1-3% surfactant at a pressure of 6 -8 MPa and a flow rate of 5-10 l / s, pump the calculated volume of cement mortar at a pressure of 6 to 10 MPa and a flow rate of 5-10 l / s, push the separation plug through with a squeezing fluid until it is inserted into the step cementing clutch and closes its windows at pressure from 6 to 14 MPa at a flow rate of 5-10 l / s. Relieve pressure in the production casing and make sure that there is no spout in the pipe space. Carry out technological exposure to wait for the hardening of cement, drill a stop ring, a packer-cutter and a stepped cement clutch and drill a well.

The above pumping modes and volumes of materials are designated as the most optimal for ensuring high-quality cementing of the annulus of a small-diameter well. Going beyond the limits of regimes entails a failure in the creation of a cement stone, the appearance of discontinuities, poor-quality cementing and water breakthrough.

Non-ionic or anionic substances, for example, such as ML-72, ML-80, ML-81B, etc., are used as a surfactant.

Case Studies

Example 1. Build a horizontal well of small diameter. Drilling a borehole under the production casing is performed by a bit with a diameter of 155.6 mm The horizontal trunk is placed in the interval of the reservoir. The bottom of the well is at a depth of 1181 m, the filter part is 17.5 m, the angle of inclination at a depth of 1181 m is 83.5 degrees. At the end of the production casing with a nominal diameter of 114 mm, a stop ring, a packer-cutter of the layers and a step cementing coupling are placed. The production casing is lowered into the horizontal part of the well. The stop ring is located at a depth of 1163.5 m. By circulation of the drilling fluid with a density of 1.28 g / cm ³ , a stopper is placed in the stop ring. The pressure in the production casing is increased to 13 MPa until the packer-cutter opens and then to 16 MPa until the openings of the step cementing clutch open. Pumped 2 m ^{3 of} drilling fluid at a pressure of 8 MPa and a flow rate of 10 l / s, pumped buffer liquid - water in a volume of 3 m ³ containing 1% surfactant ML-72, at a pressure of 6 MPa and a flow rate of 5 l / s, pumped the estimated volume of cement in a volume of 19.3 m ³ at a pressure of 10 to 6 MPa and a flow rate of 5 l / s, press the separation plug through the squeezing liquid until it is inserted into the step cementing sleeve and closes its windows at a pressure of 6 to 14 MPa at a flow rate of 5 l / s, release pressure, make sure that there is no spout in the pipe space, rovodyat exposure process waiting cement hardening, stop-ring drilled out, the packer-clipper seams and clutch master stage cementing and well.

Example 2. Build a horizontal well of small diameter. Drilling a borehole under a production casing is performed by a bit with a diameter of 144 mm. The horizontal trunk is placed in the interval of the reservoir. The bottom of the well is at a depth of 1180 m, the filter part is 18 m, the angle of inclination at a depth of 1181 m is 83 degrees. At the end of the production casing with a nominal diameter of 102 mm, a stop ring, a packer-cutter of the layers and a step cementing coupling are placed. The production casing is lowered into the horizontal part of the well. The stop ring is located at a depth of 1163 m.

By circulating the drilling fluid with a density of 1.27 g / cm ³ , the plug is placed in the stop ring, the pressure in the production string is increased to 15 MPa and the packer-cutter is opened, and then to 18 MPa and the holes of the cemented coupling are opened, 3 m ^{3 of} drilling fluid is pumped at a pressure of 9 MPa and a flow rate of 12 l / s, pump buffer fluid in a volume of 7 m ³ containing 2% of the surfactant ML-80, at a pressure of 7 MPa and a flow rate of 8 l / s, pump the calculated volume of cement in a volume of 19 m ³ at a pressure of from 9 to 6 MPa and a flow rate of 8 l / s, p squeeze the separation plug with water before landing in the step cementing clutch and close its windows at a pressure of 7 to 13 MPa at a flow rate of 8 l / s, release pressure, make sure that there is no spout in the pipe space, carry out technological exposure to wait for cement to harden, drill out stop - a ring, a packer-cutter and a stepped cementing coupler and master the well.

Example 3. Perform as example 1. By circulating the drilling fluid, install the plug in the stop ring, increase the pressure in the production string to 14 MPa and open the packer-cutter, and then to 17 MPa and open the holes of the step cementing coupler, pump 4 m ^{3 of} drilling fluid at a pressure of 11 MPa and a flow rate of 15 l / s, pump water in a volume of 10 m ³ containing 3% of the surfactant ML-81B, at a pressure of 8 MPa and a flow rate of 10 l / s, pump the calculated volume of cement in a volume of 19.3 m ³ at a pressure of from 11 to 7 MPa and a flow rate of 10 l / , push the separation plug through with water until it fits into the step cementing sleeve and closes its windows at a pressure of 7 to 14 MPa at a flow rate of 10 l / s, release pressure, make sure that there is no spout in the pipe space, carry out technological exposure to wait for cement to harden, drill a stop ring, a packer-cutter and a stepped cementing coupler and master the well.

As a result, it is possible to complete the well and to cement the production casing of a horizontal well of small diameter with high quality cement stone. Tests with a caliper proved the absence of caverns, discontinuities of cement stone in the annulus of the well.

The application of the proposed method will allow to build small diameter wells with horizontal shafts while providing high-quality cement stone in the annulus.

Claims (1)

A method of completing a horizontal small-diameter well, according to which the well is drilled with a bit with a diameter of 144-155.6 mm, a stop ring, a packer-cutter and a stepped cementing sleeve are placed at the end of the production string with a nominal diameter of 102-114 mm, and the production string is lowered into the horizontal part of the well, by installing a drilling fluid in the stop ring, increase the pressure in the production string until the packer-cutter and then the holes of the stepped cement coupling are opened Hovhan, pumped 2-4 m ³ of mud at a pressure of 8-11 MPa and a flow rate of 10-15 l / s, the buffer liquid is pumped in a volume of 3.10 m ^3, containing 1-3% of surfactant, at a pressure of 6- 8 MPa and a flow rate of 5-10 l / s, pump the calculated volume of cement mortar at a pressure of 6 to 10 MPa and a flow rate of 5-10 l / s, press the separation plug through the squeezing fluid until it is inserted into the step cementing clutch and closes its windows at a pressure of 6 to 14 MPa at a flow rate of 5-10 l / s, release pressure, make sure that there is no spout in the pipe space, p they hold technological exposure to wait for the cement to harden, drill a stop ring, a packer-cutter and a stepped cementing coupler, and drill the well.