RU2584467C1 - Method of developing high-viscosity oil field - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: invention relates to oil industry. In method of developing high-viscosity oil deposit at development of high-viscosity oil well horizontal shafts are arranged in series one after another ends to each other in dome part of deposit. Well used is a well with horizontal shaft with rising end equipped with filter, perforated in initial part of horizontal shaft and in ascending end. Wells are equipped with first column of tubing string with packer installed between perforated sections of filter, and second column of tubing string with pump with end to packer. In each well steam pumping is performed at first column of tubing string, and product extraction at second column of tubing string.

EFFECT: technical result - increase of the deposit oil recovery factor.

1 cl, 2 dwg, 1 ex

Description

The invention relates to the oil industry and may find application in the development of high-viscosity oil fields.

A known method of developing deposits of highly viscous oil or bitumen, including the construction of an upper injection well and a lower producing well with horizontal sections located one above the other, which are equipped with filters, pumping a heat carrier through a horizontal injection well with heating the formation, creating a steam chamber and selecting products through a horizontal producing well (RF Patent No. 2555713, publ. 07/10/2015).

Closest to the proposed invention in technical essence is a method of developing a highly viscous oil and / or bitumen deposit by steam injection into a formation, includes the construction of a horizontal main production well and an upstream horizontal injection well, steam injection into horizontal wells, and after creating a permeable zone between the wells injection of steam into the injection well and selection of products from the producing well. At the same time, additional horizontal production wells are built, located in series and parallel to the main one. Moreover, horizontal production wells are located above the oil-water contact, but 5-8 m below the injection well. The distance between the bottom of one horizontal production well and the other entrance to the roof in horizontal projection should be at least 5 m. Steam injection into production wells before starting sampling is carried out in a volume of 2-10 t / m of the total length of horizontal sections, after which regulated production is selected from production wells so that the bottomhole pressure in each production well is not m lower than the reservoir pressure of the bottom water (RF patent No. 2496979, publ. 10.27.2013 - prototype).

A common disadvantage of the known technical solutions is the low oil recovery of the field.

The proposed invention solves the problem of increasing oil recovery.

The problem is solved in that in a method for developing a highly viscous oil field, including arranging horizontal wellbores sequentially one after another, injecting steam and selecting products, according to the invention, when sequentially arranged, horizontal wellbores have ends to each other in the domed part of the reservoir, wherein as wells use wells with a horizontal wellbore having an upward end, equipped with a filter perforated in the initial part of the horizontal wellbore and in a running end, equipped with a first tubing string with a packer installed between the perforated portions of the filter, and a second tubing string with a pump end to the packer, with steam being pumped through the first tubing string in each well, and selection of products for the second tubing string.

SUMMARY OF THE INVENTION

Existing methods for developing a highly viscous oil deposit allow one to select the main oil reserves from the deposit. However, reserves in the dome zone remain undeveloped. As a result, the oil recovery of the reservoir remains at a low level. The proposed invention solves the problem of increasing oil recovery deposits of highly viscous oil due to the development of reserves in the dome zone of the well. The problem is solved as follows.

When developing a highly viscous oil deposit, a well with a horizontal wellbore located near the bottom of the reservoir is drilled. In FIG. 1 shows a profile of a high viscosity oil field development site.

In FIG. 1, the following designations are adopted: 1 - horizontal wellbore, 2 - upward end of the horizontal wellbore, 3 - perforated filter section at the beginning of the horizontal section, 4 - perforated filter section in the upward hole, 5 - tubing string, 6 - end of the tubing string -compressor pipes, 7 - packer, 8 - column tubing, 9 - pump. The angle between the axis of the ascending end and the vertical can be from 0 to 85 °.

The horizontal wellbore 1 is performed with an ascending end 2 to a height of up to half the thickness of the reservoir. Supply the well with a horizontal wellbore to the casing, cement the annulus above the horizontal wellbore. A filter perforated at the beginning of the horizontal section 3 and at the end part 4 is lowered into the horizontal wellbore. The end part of the filter 4 is placed at the ascending end of the horizontal well 2. The tubing string 5 with packer 7 is lowered into the well. The end of the tubing string 6 can be performed with a quenched end and perforated end. Place the end of the tubing string 6 at the upstream end of the well 2. The packer 7 is placed at the end of the horizontal wellbore 1 before the upstream end 2 in the filter section between the perforated sections. A second column of tubing 8 with pump 9 is additionally lowered into the wellbore. The end of the second tubing string is left open and placed until the packer 7. The coolant (steam) is pumped into the formation through the tubing string 5 with packer 7 and perforation holes of the filter 4 in the ascending end of the horizontal well 2. Select products through the perforations of the filter at the beginning of the horizontal well 3 and feed the products to the wellhead along the pump-compressor string spring pipes 8 with pump 9.

On the deposits, horizontal wells are positioned sequentially one after another, while horizontal wells are positioned with ends to each other in the domed part of the reservoir.

In FIG. Figure 2 shows the location of wells in a highly viscous oil reservoir. In FIG. 2 the following designations are accepted: 1 - horizontal wellbore, 2 - upward end of the horizontal wellbore, 10 - high-viscosity oil reservoir, 11 - domed part of the reservoir.

Steam is pumped through the ascending ends of 2 wells. At the same time, a large area of the heated steam zone of high pressure is created in the domed part, displacing oil to horizontal wellbores, through which production is selected. Due to this, the coverage of the reservoir is increased by steam, the oil recovery of the reservoir is increased.

Concrete example

Example 1. Develop a reservoir of highly viscous oil with the following characteristics: depth 120 m, reservoir temperature 8 ° C, reservoir pressure 0.8 MPa, porosity 34%, permeability 1.3 μm ² , oil saturation 70%, reservoir thickness 12 m. The reservoir terrigenous. The viscosity of the oil is 18260 MPa * s, the density of the oil is 0.960 g / cm ³ .

Drill a well to a depth of 130 m 2 m above the oil-water contact. A wellbore with a diameter of 244.5 mm is 250 m long before reaching the horizontal in the reservoir. A horizontal well is 500 m long and 168 mm in diameter; at the end of the horizontal well, an ascending end is drilled to a height of 5 m to the midpoint between the horizontal well and the roof of the reservoir. They supply the well with a horizontal bore with a casing string of 244.5 mm in diameter, cement the annulus above the horizontal bore. The filter from the perforated pipes is lowered into the horizontal wellbore with the ascending end of the wellbore. The filter has perforation at the beginning of the horizontal shaft and at the upstream end. A tubing string with a diameter of 73 mm and a packer is lowered into the well. Place the end of the tubing string at the upstream end of the well. The packer is placed at the end of the horizontal wellbore in front of the upstream end in the area between the portions with the perforations of the filter. A second column of tubing with a diameter of 73 mm and a pump is additionally lowered into the horizontal wellbore. The end of the second tubing string is placed near the packer. The pump installation is installed at the beginning of the horizontal section in the interval of the casing. The coolant (steam) is injected into the formation through a tubing string with a packer and filter openings in the end of the horizontal shaft. The products are taken through a filter at the beginning of the horizontal wellbore and the products are fed to the wellhead through a tubing string with a pump.

The second well is drilled similarly.

A pair of wells are placed sequentially one after the other with the ends to each other in the domed part of the reservoir.

The coolant (steam) is injected into the formation through the tubing string and perforations in the end of the horizontal wellbore of each well. In each well, products are taken through perforations at the beginning of the horizontal wellbore and products are delivered to the wellhead through a string of tubing with a pump.

As a result, it is possible to warm the productive layer to its full thickness and to select additional oil reserves from the reservoir. Oil recovery increases by 3% and amounts to 39.8%.

The application of the proposed method will improve oil recovery deposits.

Claims (1)

A method of developing a highly viscous oil field, including arranging horizontal wellbores sequentially one after another, injecting steam and selecting products, characterized in that, in a sequential arrangement of horizontal wellbores, have ends to each other in the domed part of the reservoir, using wells with horizontal barrel having an upward end, equipped with a filter, perforated in the initial part of the horizontal trunk and in the upward end, equipped the first column of tubing with a packer installed between the perforated sections of the filter, and the second column of tubing with a pump with the end to the packer, while in each well, steam is injected along the first string of tubing, and the selection of products by second tubing string.

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