RU2490415C1 - Method to construct well of small diameter in complex rocks - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: direction is drilled with a chisel with diameter of 393.7 mm for the depth of 30-50 m, cased with a string with diameter of 324 mm, and the casing string annulus is cemented. From the direction a well is drilled on a natural aqueous suspension for an intermediate collar pipe with a chisel with a diameter of 295.3 mm for the depth of 150-190 m, at the same time the zone of landslides and absorbing for 20-40 m lower. In the zone of landslide and absorbing sludge is washed from a bottomhole by drilling mud with density of 1.12-1.20 g/cm³. The drilled well is cased with a string with diameter of 245-273 mm, and the casing string annulus is cemented by filling of cement mortar at the bottom and on the top to filling of the zone of landslides and absorbing. From the intermediate collar pipe they drill a collar pipe with a chisel with a diameter of 215.9 mm for the depth of 260-350 m at the natural aqueous suspension, at the same time the second zone of landslides and absorbing is tunneled for 100-150 m below. In the zone of landslides and absorbing the sludge is washed from the bottomhole with drilling mud with density of 1.12-1.20 g/cm³, cased with a string of 178 mm in diameter, and the casing string annulus is cemented by pouring of the cement mortar at the bottom and top before pouring of the zone of landslides and absorbing. From the collar pipe they drill a well for an operating string with a chisel with diameter of 144-155.6 mm to design elevation, the operating string with a diameter of 114 mm is lowered, the casing string annulus is cemented. Ending of the well may be arranged with a horizontal shaft.

EFFECT: method improvement.

2 cl

Description

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

A known method of construction, operation, conservation and liquidation of a well, including drilling a wellbore in a given direction, lowering and securing several casing strings, including the last one, 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 viscous-plastic 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 from the stability and permeability of the rocks passed, the next next at least one casing string is lowered, it is fastened 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, install the packer over the reservoir and cause swab inflow, operate the well, and then, if necessary, preserve and / or liquidate (Public Number tion 2005123568, published. 2007.01.02).

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

Closest to the proposed invention in technical essence is a method of building a small diameter well, including drilling a wellbore in a given direction, lowering and securing several casing strings. The first part of the wellbore - the direction is drilled with a bit with a diameter of 245-296 mm, the second part - the conductor is drilled with a bit with a diameter of 178-216 mm, the third part is drilled with a bit with a diameter of 144-156 mm, the fourth part is drilled with a bit with a diameter of 93-114 mm, as a drilling mud using process water density of 1,00-1,09 kg / m ^3, enriched with suspended particles of solid drilling cuttings, consumption and industrial water pressure is set greater than the absorption process water absorption zones, autopsy production interval are using pecifications water with the addition of a mixture of surfactants mark ML-81B in an amount of 1-3%, after drilling the borehole from the bottom to the mouth, or to the absorption zone is filled with mud density of 1,12-1,16 kg / m ³ carried logging studies, lower the layout for drilling, pump technical water and rotate the drill bit 2-4 times the interval of the reservoir at a speed of 20-30 m / h, lower the production casing and cement the annulus of the well, while in the first column portion is used with an outer diameter of 245 mm, the second part - with a diameter of 178 mm, the third part - with a diameter of 114 mm, the fourth portion - with a diameter of 102 mm, providing a wall thickness of the cement sheath is not less than 19 mm. If there is an absorption zone, cementing is carried out in the direction from the bottom to the absorption zone and from the mouth to the absorption zone (RF Patent No. 2393320, publ. 06/27/2010 - prototype).

Due to the small diameter of the well, the known method requires less drilling costs, the design of the well is less metal-intensive. However, the method does not provide for the construction of wells in complex rocks.

The proposed invention solves the problem of building a small diameter well in complex rocks.

The problem is solved in that in the method of constructing small diameter wells in complex formations, they drill a direction with a bit with a diameter of 393.7 mm to a depth of 30-50 m, casing a column with a diameter of 324 mm (12 inches) and cement annular space, from the direction they drill into a natural aqueous suspension (EMU) a well under an intermediate industrial conductor with a bit with a diameter of 295.3 mm to a depth of 150-190 m, while the zone of landslides and removals is 20-40 m lower, in the zone of landslides and removals, mud is washed from the bottom with a drilling mud density of 1.12- 1.20 g / cm ^3, etc. cased drill a borehole with a column with a diameter of 245-273 mm (9-10 inches) and cement the annular space by pouring cement mortar from below and above to fill the landslide and absorption zone; from the intermediate industrial conductor, drill a conductor with a bit with a diameter of 215.9 mm to a depth of 260-350 m at EMU while the second zone of landslides and removals is 100-150 m lower, in the zone of landslides and removals the mud is washed out from the bottom with a drilling fluid with a density of 1.12-1.20 g / cm ³ , it is cased with a column with a diameter of 178 mm (7 inches) and cement annular space by pouring cement mortar ora bottom and top to fill the landslide and absorption zone, from the conductor, drill a well under the production casing with a bit with a diameter of 155.6 mm to the design level, lower the production casing with a diameter of 114 mm (4 inches), cement annular space.

Well completion may be performed with a horizontal wellbore.

SUMMARY OF THE INVENTION

The construction of a small diameter well reduces construction costs while maintaining the flow rate or injectivity of the well. However, the small diameter imposes restrictions on the possibility of building a well in difficult geological conditions, when during drilling at some horizons there are rocks accompanied by rock collapses and absorption of drilling fluid or drilling fluid. The small diameter of the wellbore imposes restrictions on the use of traditional measures to isolate complex rocks, and sometimes makes the construction of small-diameter wells impossible. The proposed invention solves the problem of building a small diameter well in complex rocks. The problem is solved as follows.

The direction is drilled with a chisel with a diameter of 393.7 mm to a depth of 30-50 m, a column is encased with a diameter of 324 mm (12 inches) and the annular space is cemented. From the direction, a well is drilled to the EMU under an intermediate industrial conductor with a bit with a diameter of 295.3 mm to a depth of 150-190 m, while the zone of landslides and removals is 20-40 m lower. A value of 20-40 m is prescribed for the complete opening of the zone and entry into stable rocks in order to avoid exposure of the shoe of the industrial conductor. EMU is water mixed with particles of cuttings. Water is defended in barns, but some of the rock particles remain in the water in the form of suspensions. Such a liquid is called EMU. In the area of landslides and removals, they switch from EMU to the drilling fluid and wash the cuttings from the bottom with a drilling fluid with a density of 1.12-1.20 g / cm ³ . The drilled well is cased with a column with a diameter of 245 mm (9 inches) and the annular space is cemented by pouring cement mortar from below and from above to fill the landslide and absorption zone. From the intermediate industrial conductor, a conductor is drilled with a bit with a diameter of 215.9 mm to a depth of 260-350 m at the EMU, while the second zone of landslides and removals passes 100-150 m lower. The value of 100-150 m is assigned for the full opening of the Artinsky horizon and the entrance to the Upper Carboniferous, as these formations may be potential areas of complication in the form of absorption or overflow of formation fluid. In the area of landslides and removals, they switch from EMU to the drilling fluid and wash the cuttings from the bottom with a drilling fluid with a density of 1.12-1.20 g / cm ³ . The well is cased with a column with a diameter of 178 mm (7 inches) and the annulus is cemented by pouring cement mortar from below and from above to fill the landslide and absorption zone. From the conductor, a well is drilled under the production casing with a bit with a diameter of 155.6 mm to the design level, a production casing with a diameter of 114 mm (4 inches) is lowered, the annulus is cemented. Well completion may be performed with a horizontal wellbore.

Thus, the two zones of landslides and removals occur at diameters characteristic of conventional wells with conventional ones, i.e. not small diameters. This makes it possible to apply traditional measures for well construction in such rocks to isolate them. For each zone of landslides and removals, they use their own conductor and plant and cement each zone separately. In the future, build a well as a small diameter well.

The use of such a construction method leads to a certain increase in the cost of the well compared to a small-diameter well. However, it is unrealistic to build a small-diameter well in its pure form in such rocks. In such conditions, until recently, only wells of ordinary diameter were built. Despite the upper part of the well, made with a large diameter, the cost of the proposed well is significantly less than the cost of a well of normal diameter.

Case Studies

Example 1. Build a well of small diameter in complex rocks. The direction is drilled with a chisel with a diameter of 393.7 mm to a depth of 40 m, cased in a column with a diameter of 324 mm (12 inches) and cement annular space. From the direction, a well is drilled to the EMU under an intermediate industrial conductor with a bit with a diameter of 295.3 mm to a depth of 170 m.The zone of landslides and removals is located at a depth of 100-120 to 140-155 m.The zone of landslides and removals pass 30 m lower. In the zone of landslides and absorption, mud is washed from the bottom with a drilling fluid with a density of 1.16 g / cm ³ . The drilled well is cased with a column with a diameter of 245 mm (9 inches) and the annular space is cemented by pouring cement mortar from below and from above to fill the landslide and absorption zone. From the intermediate industrial conductor, a conductor is drilled with a bit with a diameter of 215.9 mm to a depth of 300 m at EMU.The second zone of landslides and removals is located at a depth of 190-210 to 230-250 m.The second zone of landslides and removals passes 120 m lower. In the zone of landslides and removals, the slurry from the bottom is washed out with a drilling fluid with a density of 1.16 g / cm ³ , a column is planted with a diameter of 178 mm (7 inches) and the annulus is cemented by pouring cement from above and below to fill the landslide and absorption zone. From the conductor, a well is drilled under the production casing with a bit with a diameter of 155.6 mm to the design level of 1,500 m, a production casing with a diameter of 114 mm (4 inches) is lowered, the annulus is cemented. Well completion is performed with a horizontal wellbore.

Example 2. Drill the direction with a chisel with a diameter of 393.7 mm to a depth of 30 m, casing a column with a diameter of 324 mm (12 inches) and cement annular space. From the direction, a well is drilled to the EMU under an intermediate industrial conductor with a bit with a diameter of 295.3 mm to a depth of 150 m, while the zone of landslides and absorption is 20 m lower. In the zone of landslides and absorption, they switch from EMU to the drilling fluid and wash the sludge from the bottom with a drilling fluid with a density of 1.12 g / cm ³ . The drilled well is cased with a column with a diameter of 245 mm (9 inches) and the annular space is cemented by pouring cement mortar from below and from above to fill the landslide and absorption zone. A conductor is drilled from an intermediate industrial conductor by a bit with a diameter of 215.9 mm to a depth of 260 m at the EMU, while the second zone of landslides and removals passes 100 m below. In the zone of landslides and absorption, they switch from EMU to the drilling fluid and wash the sludge from the bottom with a drilling fluid with a density of 1.12 g / cm ³ . The well is cased with a column with a diameter of 178 mm (7 inches) and the annulus is cemented by pouring cement mortar from below and from above to fill the landslide and absorption zone. From the conductor, a well is drilled under the production casing with a chisel with a diameter of 140 mm to the design level of 1100 m, a production casing with a diameter of 114 mm (4 inches) is lowered, the annulus is cemented. Well completion may be performed with a horizontal wellbore.

Example 3. Drill the direction with a chisel with a diameter of 393.7 mm to a depth of 50 m, casing a column with a diameter of 324 mm (12 inches) and cement annular space. From the direction, a well is drilled to the EMU under an intermediate industrial conductor with a bit with a diameter of 295.3 mm to a depth of 190 m, while the zone of landslides and removals is 40 m lower. In the area of landslides and removals, they switch from EMU to the drilling fluid and wash the cuttings from the bottom with a drilling fluid with a density of 1.20 g / cm ³ . The drilled well is cased with a column with a diameter of 273 mm (10 inches) and the annular space is cemented by pouring cement mortar from below and from above to fill the collapse and absorption zone. From the intermediate industrial conductor, a conductor is drilled with a bit with a diameter of 215.9 mm to a depth of 350 m at the EMU, while the second zone of landslides and removals passes 150 m below. In the area of landslides and removals, they switch from EMU to the drilling fluid and wash the cuttings from the bottom with a drilling fluid with a density of 1.20 g / cm ³ . The well is cased with a column with a diameter of 178 mm (7 inches) and the annulus is cemented by pouring cement mortar from below and from above to fill the landslide and absorption zone. A well is drilled from the conductor under the production casing with a bit with a diameter of 155.6 mm to the design level of 1300 m, a production casing with a diameter of 114 mm (4 inches) is lowered, the annulus is cemented. Well completion may be performed with a horizontal wellbore.

As a result, it is possible to solve the problem of building a small diameter well in complex rocks.

The application of the proposed method will allow you to build wells of small diameter in complex rocks.

Claims (2)

1. A method of constructing a small-diameter well in complex rocks, which consists in drilling a direction with a bit with a diameter of 393.7 mm to a depth of 30-50 m, casing a column with a diameter of 324 mm and cementing the annulus, from the direction of drilling a well under a natural water suspension intermediate industrial conductor with a bit with a diameter of 295.3 mm to a depth of 150-190 m, while the zone of landslides and removals pass 20-40 m lower, in the zone of landslides and absorption wash mud from the bottom with a mud with a density of 1.12-1.20 g / cm ³ , casing drilled wells inu column with a diameter of 245-273 mm and cement annular space by pouring cement mortar from below and above to fill the landslide and absorption zone, from the intermediate industrial conductor, drill a conductor with a bit with a diameter of 215.9 mm to a depth of 260-350 m on a natural water suspension, while the second the zone of landslides and removals is 100-150 m lower, in the zone of landslides and removals the mud is washed out from the bottom with a mud with a density of 1.12-1.20 g / cm ³ , it is cased with a column with a diameter of 178 mm and the annular space is cemented by pouring cement near and above, before filling in the landslide and absorption zone, from the conductor, drill a well under the production casing with a bit with a diameter of 140-155.6 mm to the design level, lower the production casing with a diameter of 114 mm, cement annular space. 2. The method according to claim 1, characterized in that the well completion is performed with a horizontal wellbore.