RU2012792C1 - Method for development of oil field - Google Patents

Abstract

FIELD: development of oil field. SUBSTANCE: method includes drilling of wells spaced in geometric pattern presenting two regular hexagons turned relative to each other through 30 deg. with producing wells located on sides, in corners and centers of hexagons. Additional wells are drilled to expose discontinuous formation and located inside inner hexagons symmetrically to outer hexagon. Producing wells are perforated stage by stage. After breakthrough of injected agent into producing wells located in corners of inner hexagon, the second stage is started. Subjected to exposure is entire producing section in wells located on sides of outer hexagon, with their treatment up to breakthrough of displacing agent and subsequent transition to injection. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to the oil industry, in particular to methods for developing oil deposits.

 Closest to the proposed one is a method of developing an oil deposit, including opening an oil-saturated productive section by a grid of wells according to a 19-point double hexagon pattern with producing wells in the center, on the sides and in the corners of the hexagons, pumping the displacing agent through injection wells located in the corners of the hexagon, translation for the injection of wells located on the sides of the hexagon, and the selection of fluid before the injection agent breaks into the wells [1].

 The disadvantage of this method is the low coefficient of oil recovery and a large amount of produced water along the way.

 The aim of the invention is to increase the coefficient of oil recovery and reduce the volume of produced water along the way.

 This goal is achieved by the fact that in the known method of developing an oil deposit, including opening an oil-saturated productive section by a grid of wells according to a 19-point double hexagon pattern with producing wells in the center, on the sides and corners of the hexagons, pumping the displacing agent through injection wells located in the corners hexagon, transfer for injection of wells located on the sides of the hexagon, selection of fluid before the injection agent breaks into the wells, in the presence of an intermittent part of the production section, additional production wells located inside the internal hexagon symmetrically to the external hexagon are drilled, stage-by-stage perforation of production wells is performed, and at the first stage, the discontinuous part of the section is opened in wells located on the sides of the external hexagon and in production additional wells, after the injected agent breaks into the wells, located in the corners of the inner hexagon, go to the second stage, while opening in the wells located on the sides of the outer hexagon, the entire productive section, and after a breakthrough of the displacing agent into these wells, they are transferred under water injection.

The essence of the proposed method is to increase the coverage of the reservoir and the rate of oil extraction by intensively developing reserves concentrated in intermittent low-permeability formations both at the early and late stages of development, remote from the injection line. In conditions of heterogeneous formations, the possibility of involving intermittent layers with permeability from K ₂ and below is limited (in this case, K ₁ > K ₂ > K ₃ > K ₄ > K ₅ > K ₆ > K ₇ , Fig. 1). Dissection of the entire thickness of the reservoir does not allow to increase the coefficient of coverage by development of the discontinuous part of the reservoir and is 0.5 according to geophysical studies. At the same time, in most of the well, the interlayer of the low permeable discontinuous part remains uninvolved in the development.

In FIG. 1 is a diagram of the geological structure of formations in the Nizhnevartovsk region and the sequence of putting wells into operation with the following designations: K ₁ -K ₉ — interlayers of different permeability and intermittence; 1-4 - injection wells, producing, additional producing, central; 1 ¹ - production wells located on the sides of the external hexagon; in FIG. 2 - a general layout of production and injection wells; in FIG. 3 - location of injection and production wells, the position of the pillars of the residual oil saturation; in FIG. 4 is a diagram of the location of production and injection wells, and after the introduction of additional wells, the position of the pillars of the residual oil saturation at the time of the breakthrough of the injected agent.

A method implemented in one of the fields Nizhnevartovsky area in the following sequence: drilled 19-wells, placing them in a geometric grid representing the two correct deployed relative to one another at ³⁰ ° hexagon with production wells P _i on the sides and corners of the internal hexagon and center (Fig. 2). At the same time, in the production wells P _i located on the sides of the external hexagon, the discontinuous part of the formation is opened, and in the production wells located in the corners of the internal hexagon and in the center, the entire section is opened. In the injection wells N _i located in the corners of the external hexagon, the entire section is opened and the displacing agent is injected. The ratio of the number of producing wells to injection wells is 2: 1.

The second stage of development begins from the moment the injected agent breaks into production wells located in the corners of the internal hexagon. The hydrodynamically connected reservoir is drilled, worked out until the injection agent breaks out, and then transferred to the injection well P _i , located on the sides of the external hexagon.

At the time of the injection agent breakthrough into the production wells P _i on the sides of the external hexagon there remain reservoir zones that are not covered by active production - residual oil saturation zones (Fig. 3). The maximum coverage rate is 0.7.

Additional production wells C _{i are} drilled, placing them inside the internal hexagon symmetrically to the external. At the same time, the intermittent part of the productive section is opened for more active involvement in the development.

The fluid is sampled simultaneously from the production P _i and additional Ci wells, the working agent is injected through the wells located in the corners and on the sides of the external hexagon (Fig. 4).

 The coverage factor of such a system is 0.89, the ratio of the number of producing wells to injection wells is 1: 1. At the same time, the target zones of residual oil saturation are significantly reduced. The selection process continues after a pumped agent breaks into production wells. The conditions for the development of oil reserves are significantly improved due to the relative position of production and injection wells, concentration, movement and reduction of the whole zones of residual oil saturation, active impact on low-productivity - discontinuous zones of the reservoir. The exposure coverage ratio reaches 0.97.

Claims (1)

 METHOD FOR DEVELOPING AN OIL DEPOSIT, including opening an oil-saturated productive section by a grid of wells according to a 19-point double hexagon pattern, pumping a displacing agent through injection wells located in the corners of the hexagon, selecting a fluid until the injected agent breaks into the wells, characterized in that, with the aim of oil recovery and reduction of volumes of produced water in wells in the presence of an intermittent part of a productive section, additional production wells are drilled x wells located inside the internal hexagon symmetrically to the external hexagon, stage-by-stage perforation of production wells, and at the first stage, the discontinuous part of the section is opened in wells located on the sides of the external hexagon and in additional production wells, after the injected agent breaks into wells located in the corners of the internal hexagon, go to the second stage, while opening in the wells located on the sides of the outer hexagon, the entire productive section, and after When a displacing agent breaks into these wells, these wells are transferred for water injection.

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