RU2066370C1 - Method for exploitation of multilayer oil pool - Google Patents

Abstract

FIELD: oil production. SUBSTANCE: productive and injection wells are arranged under block-closed scheme. At late stage of development trend of increasing coefficient of productivity of the productive wells in the pool and location of zones with similar seam pressure are determined. Additional productive well is drilled within the block-closed system of wells. EFFECT: higher productivity.

Description

 The invention relates to the oil industry and can be used in the development of complex multi-layer deposits.

A known method for the development of oil deposits, including the selection of oil through production wells and the injection of a working agent through injection wells [1]
The known method does not allow to develop a reservoir with a high oil recovery coefficient due to the small coverage of the formation by the impact.

Closest to the proposed invention in technical essence and the achieved result is a method of developing a multilayer oil reservoir, including placing production and injection wells in a block-closed system, oil selection through production wells and pumping a working agent through injection wells [2]
The known method allows to increase the coverage of the formation by exposure, however, even with this method, undeveloped zones remain in the formation, which reduces the oil recovery of the reservoir.

 The aim of the invention is to increase oil recovery.

 This is achieved by the fact that in the method of developing a multilayer oil reservoir, including placing production and injection wells in a block-closed system, taking oil through production wells and injecting a working agent through injection wells, at the late stage of development, they determine the direction of increasing the productivity coefficient of production wells in the reservoir and the location of zones with the same reservoir pressure inside a block-closed system, carry out drilling of an additional production well from a horizontal nym portion, which is carried out through all the layers with a bias in the direction of increasing the coefficient of efficiency of production wells, and the beginning and end of the horizontal shaft disposed in zones of the same formation pressure.

 The essential features of the invention are: placement of production and injection wells in a block-closed system; selection of oil through production wells; injection of a working agent through injection wells; determining the direction of increasing the productivity coefficient of producing wells in the reservoir and the location of zones with the same reservoir pressure; placement at a late stage of development inside a block-closed system of an additional producing horizontal well; conducting a horizontal section of the well through all layers; conducting a horizontal section of the well with a bias in the direction of increasing the productivity of producing wells; conducting the beginning and end of the trunk in areas with the same reservoir pressure.

 When placing wells in the deposits in a block-closed system, the injection wells have four rows forming a rectangle. Production wells are arranged in rows within this rectangle.

 A working agent pumped through injection wells displaces oil to the center of the rectangle, from where it is taken through production wells. At the same time, with the entry into the late stage of field development, zones with undeveloped oil reserves remain in the reservoir. The case of developing a multilayer field is complicated by the fact that the remaining oil can be located in different areas of these layers. In the process of oil selection by vertical wells, the efficiency of oil recovery practically does not change. Therefore, at a late stage of development, the selection of oil is carried out by a horizontal well, located in such a way as to ensure the extraction of the largest amount of crude oil. For this, an additional production well is drilled from existing wells inside a block-closed system for placing wells from existing wells. The horizontal section of the well is conducted through all the layers with a slope towards increasing the productivity of producing wells, and the beginning and end of the well are carried out in zones with the same reservoir pressure. Moreover, to increase the flow of oil, the horizontal section of the producing horizontal well can be perforated with a large number of perforation holes in the reservoirs with lower permeability and a smaller number of perforation holes in the reservoirs with higher permeability.

 The main criteria in favor of choosing such a technology for developing old fields are: the cost of drilling horizontal wells from existing wells is much cheaper than drilling a new well (up to 2 times); previously allocated territories for well construction are used; all previously built communications are used; coverage with oil reserves development is increasing due to the involvement of separate layers, lenses, stagnant zones in the development of non-drained reserves; the efficiency of oil field development is increasing by increasing the potential for the effectiveness of hydrodynamic methods for regulating development.

The method is implemented on the Abdrakhmanovskaya area of the central part of the Romashkinskoye field (horizon D ₁ ).

The average geological parameters of horizon D are the initial oil-saturated thickness of 16.6 m; porosity 0.203; permeability average about 647 microns ² ; initial reservoir pressure of 17.5 MPa; reservoir temperature 38 ^o C; formation oil density 806 kg / m ³ ; oil viscosity, MPa • s 3.4.

Horizon D ₁ multi-layer. Within the oil-bearing floor, up to 10 reservoirs are found.

The average coefficient of dissection is 5.6; sand factor 0.47. The average thickness of individual formations is 2-4 m, low productivity less than 2.0 m. Water cut of 94.6%. Production and injection wells are placed in a block-closed system, the circuit of which consists of 18 injection wells, 3 rows of production wells of 4 wells are placed inside the circuit in a row (12 production wells). Their productivity increases from west to east, as evidenced by the increase in productivity coefficient from 0.66 m ³ / day atm to 6 m ³ / day atm. Next, the reservoir pressure and the direction of the zones with the same reservoir pressure are determined in each well by the reservoir. In this example, from south to north. From the existing vertical well located inside the circuit, choose the direction of the horizontal wellbore. its drilling was carried out from a depth of 1728 m and at a depth of 1742 m switched to a horizontal trunk. The azimuth of drilling is 110 ^o , the length of the horizontal well is 200 m. The rate of set of curvature is 4.7 ^o per 1 m of the well and the radius of curvature is 14 m. Moreover, as can be seen from the above data, the horizontal section of the well was drawn through 10 layers with a slope towards the east ( where the well productivity is highest). The beginning and end of the well was carried out in zones with the same reservoir pressure (17.5 MPa), and its perforation was carried out at a depth of 1742 m.

 Then, oil was taken through production wells and the working agent was injected through injection wells. As the working agent used water.

According to the results of well research, the productivity coefficient increased from 0.66 m / day • atm to 55 m / day • atm, and oil recovery by 0.5%
The application of the proposed method will increase oil recovery by 0.4-0.5%

Claims (1)

 A method of developing a multilayer oil reservoir, including placing production and injection wells in a block-closed system, taking oil through production wells and injecting a working agent through injection wells, characterized in that, at a late stage of development, they determine the direction of increasing the productivity coefficient of production wells in the reservoir and location zones with the same reservoir pressure inside a block-closed system, carry out drilling of an additional production well with horizontal a section that is conducted through all formations with a slope in the direction of increasing the productivity coefficient of producing wells, and the beginning and end of the horizontal well are placed in zones with the same reservoir pressure.