RU2393320C1 - Slim hole well construction method - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: there performed is borehole sinking, lowering and attachment of casing and production strings. The first part of the well bore - direction is drilled with diametre of not more than 300 mm, the second part - conductor is drilled with diametre of not more than 220 mm, the third part is drilled with diametre of not more than 160 mm. As drilling solution during drilling of the direction, there used is clay solution with density of 1.12-1.20 kg/m³, during drilling of conductor and the main bore - service water with density of 1.00-1.09 kg/m³. Flow rate of service water is determined with lost circulation zones exceeding the service water absorption. Opening of production interval is performed by using service water with addition of mixture of surface-active substances, "МЛ-81 Б" grade, in quantity of 1-3%. After drilling the well bore from the bottomhole to the mouth, or in case of lost circulation zone, to lost circulation zone, is filled with clay solution with density of 1.12-1.20 kg/m³. Logging investigations are performed. Drilling installation is lowered, water service is pumped and the productive formation interval is passed by means of rotary bit for 2-4 times with speed of 20-30 m/hour. As production string there used is string with outer diametre providing the thickness of cement sheath wall of not less than 16 mm.

EFFECT: reducing the costs of well construction.

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Description

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

A known method of operating a well, comprising drilling a well along a predetermined profile and lowering casing of various types, including countersunk perforated outside the well. They are fastened with removable anchors. They are isolated in the well by preliminary injection of heat-resistant, sedimentation-resistant, highly structured, anticorrosive, viscoplastic fluid-sealant in conjunction with a sealed medium separator. The production column is not perforated; it is attached to the mouth of the previous column with additional force from squeezing out of the well by the weight of a column of hydraulic seal acting on a sealed medium separator from the wellhead. A sealed medium separator is placed in a secret perforated column above the roof of the reservoir. At its end, a centralizer is placed on rollers with a hydromonitor nozzle for erosion of sediments and compensation of hydro-gas impacts from the reservoir side. The control and management of the annular, annular and tube spaces is carried out by the circulation of the hydraulic lock fluid through hydraulic valves, environmental control sensors installed above the sealed separators among all the columns. Removable anchors with sealed dividers are brought into transport position. After preliminary circulation of the hydraulic fluid seal, the pipe structures of the columns with their rigging are completely removed and completely replaced (RF Patent No. 2139413, publ. 1999.10.10).

The known method is complicated, requires large expenses for drilling, the design of the well is metal-intensive.

Closest to the invention in technical essence is a method of construction, operation, preservation and liquidation of a well, including drilling a wellbore in a given direction, lowering and securing several casing strings, including the latter - a “liner”, a small production casing and pumping an active insulating material - a water seal . The first casing string is lowered, fastened with a fastening unit and isolated with a hydraulic seal close to the viscoplastic mass, the well is deepened, the hydraulic seal obtained from the drilling fluid is added by adding binders and neutralizing agents using a small-sized device - the unit for preparing and pumping cement to the required parameters depending on the stability and permeability of the rocks passed, lower the next next at least one casing, fasten it from below with a fastening unit, and the last the casing, the lower end of which is perforated outside the well and equipped with a coarse filter, is lowered above the oil-water circuit and fastened with a fastening unit above the roof of the reservoir, last but not least, pre-pumped by a water seal, a small production string equipped with a packer with an anchor and a secondary filter, set the packer over the reservoir and cause swab inflow, operate the well, and then, if necessary, preserve and / or liquidate (RF Patent No. 2320 849, publ. 03/27/2008 - prototype).

The known method requires large costs for drilling, the design of the well is metal-intensive.

The proposed invention solves the problem of reducing the cost of well construction.

The problem is solved in that in the method of constructing a small-diameter well, including drilling a wellbore, running and securing casing and production strings, according to the invention, the first part of the wellbore is the direction of drilling with a diameter of not more than 300 mm using clay mud with a density of 1.12-1 , 20 kg / m ³ , the second part - the conductor is drilled with a diameter of not more than 220 mm, the third main part is drilled with a diameter of not more than 160 mm, technical drilling water with a density of conductor and the third part is used 1.00-1.09 kg / m ³ , the consumption of process water is set by absorption zones exceeding the absorption of process water, the production interval is drilled using process water with the addition of a mixture of surface-active substances of the ML-81B grade in an amount of 1-3%, after drilling a wellbore from the bottom to the mouth or, in the presence of an absorption zone, to the absorption zone is filled with clay mud with a density of 1.12-1.20 kg / m ³ , wireline surveys are carried out, the layout for drilling is lowered, technical water is pumped and pass with a rotating bit 2 -4 times productive formation interval at a speed of 20-30 m / h, wherein as casing and production tubing string is used with an outer diameter allowing annulus in cement annulus wall thickness not less than 16 mm.

In the interval of the reservoir, the wellbore is drilled with a diameter of 160 to 93 mm.

SUMMARY OF THE INVENTION

Up to 60% of well construction costs depend on its diameter. Typically, for drilling the direction of the well, a bit with a diameter of 393.4 mm is used, when drilling a conductor, a bit with a diameter of 295.3 mm, and when drilling the main shaft, a bit with a diameter of 215.9 mm. When switching from a bit diameter of 215.9 mm to a bit diameter of 143.9 mm, the cement consumption for attaching casing strings is reduced by more than half, the volume of drill cuttings and earthwork, and the flow rate of drilling mud and metal are reduced. In this case, the flow rate of wells does not depend on their diameter. The cost of 1 m of drilling during traditional drilling is 9220 rubles, while drilling a small diameter - 5517 rubles, i.e. 40 percent less. The proposed invention solves the problem of drilling small diameter wells and, consequently, reduce the cost of well construction. The problem is solved as follows.

During the construction of small-diameter wells, they drill a well with a given direction, drill the conductor and the main wellbore, launch and fix casing and production strings. The direction is drilled with a diameter of not more than 300 mm, for example, a bit with a diameter of 295.3 mm. A conductor is drilled with a diameter of not more than 220 mm, for example, with a chisel with a diameter of 215.9 mm. The main trunk is drilled with a diameter of not more than 160 mm, for example, with a bit with a diameter of 146 or 155.6 mm. In the interval of the productive trunk, drilling with a diameter of 160 to 93 mm is possible, for example, with a chisel with a diameter of 93.114 or 155.6 mm. As the drilling fluid, when drilling in the direction, a clay mud with a density of 1.12-1.20 kg / m ^{3 is used} , the rest use industrial water with a density of 1.00-1.09 kg / m ³ . Since in most cases during drilling there are mud absorption zones, the consumption of process water is set in excess of the absorption zones of industrial water. This parameter is determined from the practice of drilling neighboring wells in a given field. The drilling of the reservoir interval is carried out using industrial water with the addition of a mixture of surface-active substances of the ML-81B grade in an amount of 1-3%, which contributes to a more complete removal of rock particles from the bottom of the well, washing and the absence of mudding of the bottom-hole zone with clogging substances. After drilling, the wellbore from the bottom to the mouth (in the absence of an absorption zone) or to the absorption zone is filled with clay mud with a density of 1.12-1.20 kg / m ³ , logging is carried out, the drilling assembly is lowered, technical water is pumped through the assembly and rotated the chisel passes 2-4 times the interval of the reservoir at a speed of 20-30 m / h. This aligns the walls of the well in the interval of the reservoir. The production casing is lowered and the annulus of the well is cemented. To ensure the wall thickness of the cement ring in the annular space of at least 16 mm, casing and production casing with appropriate outer diameters are used. In this case, a casing string with an outer diameter of, for example, 245 mm, in a conductor, for example, 178 mm, in the main shaft, for example, 114 mm, is used as a casing string in the direction.

In the interval of the reservoir, it is possible to use a production string or shanks of small diameter of the order of 50-102 mm to create an increased thickness of the cement ring in the annular space.

In the presence of an absorption zone, cementation is carried out in the direction from the bottom to the absorption zone and from the mouth to the absorption zone.

ML-81B is produced according to TU 2481-007-48482528-99, it is a detergent, it is a moving viscous liquid from yellow to brown in color with a mass fraction of surfactant of 30%. It is a mixture of nonionic and anionic surfactants. Designed for use in formulations used to treat bottom-hole zones of production and injection wells, with the aim of intensifying production or injectivity, to remove asphalt-resin-paraffin deposits and reduce hydraulic losses in wells and pipelines, especially during the extraction and transportation of high-viscosity oils and water-oil emulsions, as well as for cleaning oil tanks, tankers and machine parts.

Concrete example

A prospecting well is drilled in the carbonate sediments of the Kizelovsky horizon 1354 m deep. Under the direction of the well from the surface to a depth of 54 m, drilling is carried out using a clay drilling mud with a density of 1.80 kg / m ³ with a bit with a diameter of 295.9 mm. A column of direction with a diameter of 245 mm is lowered to a depth of 54 m and the annular space is cemented. After hardening of the cement, pressure testing is carried out with a pressure of 3 MPa for tightness - tightly. Cement stone is drilled at a depth of 46-54 m and the direction is pressurized - hermetically. Further drilling under the conductor is carried out using industrial water with a density of 1.04 kg / m ³ with a bit with a diameter of 215.9 mm to a depth of 360 mm. A conductor column with a diameter of 168 mm is lowered to a depth of 360 m. Cement annular space is cemented. After hardening of the cement, pressure testing is carried out with a pressure of 7 MPa for tightness - tightly. Cement stone is drilled in the range of 350-360 m and the conductor is pressure tested at a pressure of 3.5 MPa when the shoe is drilled - hermetically. Further drilling is carried out using industrial water with a density of 1.04 kg / m ³ with a bit with a diameter of 146 mm to a depth of 1344 m. A production casing with a diameter of 114 mm is lowered into the well before the bottom at a depth of 1344 m. Cement annular space. The annular space is pressure tested with a pressure of 10 MPa - tightly. Drilling the interval of the productive formation at a depth of 1344-1354 m using industrial water with the addition of a mixture of surface-active substances of the ML-81B grade in an amount of 2% with a 114 mm diameter bit. The reservoir interval is cased with a column of 50.8 mm diameter. Cement annular space and pressure tested with a pressure of 10 MPa - hermetically.

The consumption of process water is set equal to 15 l / s, i.e. absorption zones exceeding the absorption of industrial water (as a rule, the absorption is 5-10 l / s). After drilling, the wellbore from the bottom to the mouth is filled with a clay solution with a density of 1.14 kg / m ³ , logging is carried out, the layout for drilling is lowered, industrial water is pumped and the production layer passes 3 times the interval of the reservoir at a speed of 25 m / h.

As a result, it is possible to build a well of small diameter, not inferior in its characteristics to a conventional well.

The use of industrial water with a density in the range from 1.0 to 1.09 kg / m ³ , the addition of ML-81B in the range from 1 to 3%, the use of a clay solution with a density in the range from 1.12 to 1.20 kg / m ³ , driving a productive interval from 2 to 4 times with a speed ranging from 20 to 30 m / h leads to a result similar to that in the example of a specific implementation.

Application of the proposed method will allow to reduce the cost of well construction.

Claims (2)

1. A method of constructing a small-diameter well, including drilling a wellbore, launching and securing casing and production strings, characterized in that the first part of the wellbore is drilled with a diameter of not more than 300 mm using clay mud with a density of 1.12-1.20 kg / m ³ , the second part - the conductor is drilled with a diameter of not more than 220 mm, the third main part is drilled with a diameter of not more than 160 mm, technical water with a density of 1.00-1.09 kg / m is used as drilling mud for drilling the conductor and the third part ^3, consumption ma Eskov water is specified by absorption zones exceeding the absorption of industrial water, the production interval is drilled using industrial water with the addition of a mixture of surface-active substances of the ML-81B grade in an amount of 1-3%, after drilling the wellbore from the bottom to the mouth or in the presence of an absorption zone up to absorption zone filled mud density of 1,12-1,20 kg / m ³ carried logging investigations, the arrangement is lowered for drilling, and the process water is pumped rotating chisel tested 2-4 times productive interval n asta a speed of 20-30 m / h, wherein in use the column with an outer diameter allowing annulus in cement annulus wall thickness not less than 16 mm as casing and production tubing. 2. The method according to claim 1, characterized in that in the interval of the reservoir, the wellbore is drilled with a diameter of 160 to 93 mm.