RU2837036C1 - Method for development of multilayer oil deposit with circular injection well in middle of section - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: invention relates to oil industry, namely to development of oil deposits, productive formations of which consist of several interlayers coinciding in structural plan. Disclosed is a method of developing a multi-formation oil deposit with a circular injection well in the middle of the section, which includes determining interlayers with different permeability, drilling injection and production wells, injection of displacement fluid into each interlayer through injection well and production of deposit from each interlayer through production wells. At that, the injection well is made circular with an entrance to the formation and a set of angle 4° by 10 m and deep perforation. At that, each perforation hole is spaced from the previous one by not more than 10 m, having at least 25-30 holes located evenly along the borehole along the spiral, with depth of 1.5-2.0 m each with varying direction of perforation as the injection borehole deepens. At that, according to results of hydrodynamic study carried out after completion of drilling of circular injection well, perforation holes in interlayers are oriented downwards or upwards at an angle to well shaft 60-70°, leaving 50-70 m from the inlet point to the bottomhole of the circular well to displace oil from the circle of the injection well to the producing vertical wells. Production wells are drilled inclined from vertical along the perimeter of the deposit section. In this case, if the upper interlayer has a lower permeability, and the lower interlayer has a higher permeability, the production well is built with distance as far as the deepening from the circular shaft of the injection well, and when the upper interlayer has high permeability, and the lower interlayer has less permeability, the production well is constructed with approaching as far as deepening to the circular shaft of the injection well.

EFFECT: increasing drainage of the productive formation in each of the heterogeneous interlayers along the section by increasing the volume of the drained rock around the circular shaft of the injection well, providing a uniform profile of injectivity in all interlayers.

1 cl, 1 dwg

Description

The invention relates to the oil industry, namely to the development of oil deposits whose productive strata consist of several interlayers that coincide structurally.

The closest in technical essence and achieved result is the method of developing a multi-layer oil deposit (patent RU No. 2613669, IPC E21B 43/20, E21B 43/14, published on 21.03.2017, bulletin No. 9), which includes determining the sections of a multi-layer deposit where the formation pressure of each interlayer excludes hydrodynamic communication between them during communication, drilling vertical injection wells in the central part of the deposit section and production wells along the perimeter inside the deposit section, while the injection wells are built vertical, and the production wells are inclined so that the injectivity profile for all interlayers from the injection well to the nearby production wells is uniform.

The disadvantage of this method is that the injection well on the deposit is vertical, so there will be uneven displacement of oil by water along the vertical of the deposit and uneven production of oil reserves from interlayers with a non-uniform cross-section, where the most permeable oil interlayers are produced more intensively.

The technical task of the invention is to increase the efficiency of production (increase the recovery factor) of sections of a multi-layer oil deposit with layer-by-layer heterogeneity, the interlayers of which have approximately equal formation pressures, by constructing wells taking into account the permeabilities of the interlayers and leveling the displacement front in sections of the deposit consisting of interlayers of different permeability, increasing the injectivity profiles of low-permeability interlayers.

The specified task is achieved by a method of developing a multi-layer oil deposit with a circular injection well in the middle of the section, including the determination of interlayers with different permeability, drilling of injection and production wells, injection of displacement fluid into each interlayer through the injection well and extraction of deposit products from each interlayer through production wells.

What is new is that the injection well in the middle of the section with differently permeable interlayers of a multi-layer deposit is made circular with an entrance to the formation and a set angle of 4° per 10 m and deep perforation, with each perforation hole being no more than 10 m away from the previous one, having at least 25-30 holes located evenly along the wellbore in a spiral, 1.5-2.0 m deep each with a changing direction of perforation as the injection wellbore deepens, while according to the results of a hydrodynamic study conducted after the completion of drilling the circular injection well, the perforation holes in the interlayers are oriented downwards or upwards at an angle of 60-70° to the wellbore, leaving 50-70 m from the entry point to the bottom of the circular well to displace oil from the circle of the injection well to the producing vertical wells, then along the perimeter of the deposit area, production wells are drilled, wherein the production wells are drilled at an angle from the vertical, and in the case where the upper interlayer has lower permeability and the lower interlayer has higher permeability, the production well is constructed with a distance from the circular bore of the injection well as it deepens, and when the upper interlayer has higher permeability and the lower interlayer has lower permeability, the production well is constructed with an approach to the circular bore of the injection well as it deepens.

The drawing shows a diagram of the development of a multi-layer oil deposit with a circular injection well in the middle of the area.

The method is carried out in the following sequence.

Hydrodynamic studies are conducted in wells and, based on the results, a section of a multi-layer deposit with interlayers that coincide in the structural plan is determined. Reservoir pressures are determined for each of the interlayers, excluding the hydrodynamic connection between them during communication, and the permeabilities corresponding to the interlayers.

A circular injection well 1 (drawing) is drilled in the central part of the reservoir section with an entrance to the formation and an angle of 4° per 10 m and deep perforation, with each perforation hole being no more than 10 m away from the previous one, having in this case no less than 25-30 holes located evenly along the wellbore in a spiral, 1.5-2.0 m deep each with a changing direction of perforation as the injection wellbore deepens, monitoring the wellbore with hydrodynamic studies conducted after the end of its drilling, orienting the perforation and/or perforation holes downwards at an angle to the wellbore of 60-70°, leaving 50-70 m from the entry point to the bottom of the circular well to displace oil from the injection well circle to the vertical production wells.

Drilling of production wells 2 (drawing) is carried out along the perimeter of the deposit area. Production wells are drilled at an angle from the vertical.

In the case where the upper interlayer has lower permeability and the lower interlayer has higher permeability, the production well is constructed with distance from the circular bore of the injection well as it deepens. In the case where the upper interlayer has higher permeability and the lower interlayer has lower permeability, the production well is constructed with approach to the circular bore of the injection well as it deepens.

After which, the displacing fluid is injected into each interlayer through a circular injection well 1 (drawing) and the deposit product is extracted from each interlayer through inclined production wells 2 (drawing).

Example of specific implementation

A multi-layer oil deposit is being developed with the following characteristics: heterogeneous reservoir, average depth of 1240 m, initial reservoir pressure of 12.5 MPa, interlayer permeability of 0.264-0.495 ^μm2 , oil saturation within 79-88%. Oil-saturated thickness of the productive layer is 12 m.

Geophysical studies are conducted and a section of the deposit with interlayers of different permeability is identified. Measurements of formation pressures are taken, which show that the interlayers are not hydrodynamically connected.

Drilling and construction of a circular injection well 1 (drawing) is carried out in the central part of the deposit area with an entrance to the formation and a set angle of 4° per 10 m. Drilling is completed when the distance between the entry point and the bottomhole reaches 60 m to displace oil from the injection well circle to inclined production wells.

Based on the results of a hydrodynamic study conducted after completion of drilling a circular injection well, deep perforation holes are oriented depending on the location of the interlayers downwards or upwards at an angle of 65° to the borehole of inclined production wells.

Drilling and construction of inclined production wells 2 (drawing) are carried out along the perimeter of the deposit area.

In the case where the permeability of the upper interlayer is 0.264 ^μm2 , the permeability of the lower interlayer is 0.495 μm2 ^, the inclined production well is constructed with a distance from the circular bore of the injection well as it deepens. In the case where the permeability of the upper interlayer is 0.387 ^μm2 , and the permeability of the lower interlayer is 0.302 ^μm2 , the inclined production well is constructed with an approach to the circular bore of the injection well as it deepens.

An injection well is put into operation with the pumping of displacing fluid into each interlayer. The production of the deposit section is carried out from each interlayer through inclined production wells.

Due to the use of the proposed method, maximum drainage of the productive formation is carried out for each of the heterogeneous interlayers along the section by increasing the volume of the drained rock around the circular bore of the injection well using deep perforation in the center of the element. Providing a uniform profile of the injectivity for all interlayers.

Claims (1)

A method for developing a multi-layer oil deposit with a circular injection well in the middle of the section, including determining interlayers with different permeability, drilling injection and production wells, pumping a displacement fluid into each interlayer through the injection well and extracting the reservoir product from each interlayer through production wells, characterized in that the injection well in the middle of the section with interlayers of a multi-layer deposit of different permeability is made circular with an entrance to the formation and a set of an angle of 4° per 10 m and deep perforation, wherein each perforation hole is no more than 10 m from the previous one, having at least 25-30 holes, located evenly along the wellbore in a spiral, 1.5-2.0 m deep each with a changing perforation direction as the injection trunk deepens, while according to the results of a hydrodynamic study conducted after completion drilling a circular injection well, the perforation holes in the interlayers are oriented downward or upward at an angle of 60-70° to the wellbore, leaving 50-70 m from the entry point to the bottom of the circular well to displace oil from the injection well circle to the vertical production wells, then production wells are drilled along the perimeter of the reservoir area, while the production wells are drilled at an angle from the vertical, and in the case where the upper interlayer has less permeability and the lower interlayer has more permeability, the production well is built with a distance from the circular bore of the injection well as it deepens, and when the upper interlayer has more permeability and the lower interlayer has less permeability, the production well is built with an approach to the circular bore of the injection well as it deepens.