RU2463445C2 - Method of developing oil pool in fractured-porous carbonate basins - Google Patents

Abstract

FIELD: oil-and-gas production.

SUBSTANCE: proposed method comprises drilling production and injection wells, injecting displacement fluid via injection wells and withdrawing oil via production wells. Note here that oil pool is developed by pattern-water flooding system with arranging production and injection wells so that, at least, three lines and/or orbits of injection wells are located between production wells. Production wells to be located nearby injection wells are drilled vertically while production wells of next rows and/or orbits are drilled horizontally. Note here that one horizontal production well substitutes for, at least, two vertical production wells in well pattern. Polymer solution is injected into production wells of first row after their drowning by more than 50%.

EFFECT: higher efficiency, extended period of water-free production of oil.

2 cl, 1 dwg

Description

The invention relates to the oil and gas industry and may find application in the development of oil deposits with a porous-fractured reservoir.

A known method of developing an oil field (Surguchev ML Secondary and tertiary methods of increasing oil recovery. - M .: Nedra, 1985, p. 37-116), including the displacement of oil by pumping water into the reservoir and extracting oil to the surface.

The disadvantage of this method is the low coefficient of oil recovery, not exceeding 30-40%.

Also known is a method of developing oil fields (patent RU No. 2088752, IPC 8 E21B 43/20, published in Bulletin No. 24 of 08/27/1997), including the injection of a gas-gas mixture into injection wells and oil production through production wells, while the water-gas mixture is formed by ejection, the degree of aeration of which is initially maintained at a level that ensures the viscosity of the obtained gas-gas mixture and oil viscosity are equal, and after the front of displacement of production wells, the degree of aeration of the gas-gas mixture is increased 2-5 times to decrease injectivity of injection wells by 1.5-2.5 times, after which the injection pressure of the water-gas mixture is increased by 1.1-1.5 times until the initial injectivity is restored, and a mixture of surface-active substances of anionic and nonionic types is added to the water-gas mixture concentration of 0.1-1.0% with a ratio of components 1: 1 and 1: 3, respectively.

The disadvantages of this method is that the injection of the water-gas mixture into the reservoir provides an increase in the oil recovery coefficient with a stable or increasing water cut, only in the established directions of filtration, while the gas-gas mixture pumped into the cracks is not a hard barrier, creating the necessary hydrodynamic resistance in order to form new filtration channels, in addition, this method does not allow to increase the development of reserves by increasing the coverage ratio, that is stagnation dead-end zones are not involved in the development process.

Also known is a method of developing an oil field represented by a porous-fractured reservoir (patent RU No. 2171368, IPC 8 E21B 43/20, published in Bulletin No. 21 dated 07/27/2001), including water injection through injection wells with volume control and injection pressure and oil extraction through production wells with control of the production volume, reservoir pressure, water-oil ratio and forecasting changes in indicators, and water injection through injection wells is carried out inside the circuit, and before reaching threshold values, to the limit x cost-effective development, indicators of water injection and oil withdrawal, conduct tracer studies to identify the channels connecting the injection wells to the producers, then they are blocked and new channels are formed by temporarily increasing the injection pressure, after which water is pumped into the injection wells in an amount equal to the volume oil extraction from producing wells in reservoir conditions.

The disadvantage of this method is that it is very demanding and time-consuming to implement, since constant monitoring of the volume of production, reservoir pressure, the ratio of water and oil is necessary, as well as tracer studies to identify channels connecting injection wells to production wells. In addition, the blockage of these channels and the formation of new channels is carried out by temporarily increasing the injection pressure, which can lead to a breakthrough of water in the producing wells and, as a result, premature flooding of the product

The closest in technical essence is the method of developing an oil reservoir in the carbonate reservoirs of the fracture-pore type (patent RU No. 2204703, IPC 8 E21B 43/22; 43/27, published in Bulletin No. 14 of 05/20/2003), including drilling of production and injection wells, selection of products through production wells, waterproofing work in production wells by injection of a plugging reagent of selective action, followed by treatment of the bottom-hole zone of the well with an acidic composition, while batch injection of the specified plugging of the reagent with pushing it to a certain distance, and treatment of the bottomhole zone of the well is carried out with an acid-oil mixture with fracturing of the formation blocks through a system of cracks, the same mixture being used as a squeezing fluid.

The disadvantages of this method are:

- firstly, the low efficiency of water insulation works, due to the fact that it is impossible to accurately calculate the volume of the plugging reagent and the distance at which it is pressed into the reservoir, since it is impossible to accurately determine the structure and absorption capacity of cracks in the reservoirs;

- secondly, premature flooding of producing wells may occur, since the treatment of the bottom-hole zone of the well is carried out with an acid-oil mixture with fracturing of the formation blocks through a system of fractures, while the producing well is flooded without taking “its” oil reserves.

The objective of the invention is to increase the efficiency and extend the anhydrous mode of development of an oil deposit by creating such a mechanism (grid) of production and injection wells that would allow for uniform and consistent production of oil reserves in carbonate reservoirs of a fracture-pore type.

The problem is solved by the method of developing an oil reservoir in fractured-pore type reservoirs, including drilling production and injection wells, pumping displacement fluid through injection wells and selecting products through production wells.

What is new is that the oil reservoir is developed according to an areal water flooding system with the placement of injection and production wells so that at least three rows and / or orbits of production wells are located between the injection wells, and production wells of a nearby row and / or orbits to the injection wells are drilled vertically and the production wells of subsequent rows and / or orbits are drilled horizontal, while one horizontal production well replaces at least two vertical production wells along the grid azmescheniya wells.

It is also new that in the first row production wells periodically after their flooding more than 50% polymer solution is pumped and forced into the formation.

The drawing schematically depicts the proposed grid of wells, which is developing an oil reservoir, represented by a carbonate reservoir of a fracture-pore type.

The proposed method is as follows.

It is known that due to fracturing of the carbonate reservoir, water breaks through the cracks into the well. Oil located in the matrix of the carbonate reservoir is blocked by water that is filtered through cracks. The phase permeability for oil is reduced and the well is flooded without taking "its" oil reserves.

In the proposed method, the oil reservoir 1 (see drawing), represented by the carbonate reservoir of the fracture-pore type, is developed according to the areal flooding system by drilling with a grid of injection and production wells.

When drilling oil reservoir 1, injection wells 2 ¹ , 2 ² , 2 ³ , 2 ⁴ are positioned so that at least three rows and / or orbits of production wells are located between them. For example, in the proposed grid, between the injection wells 2 ¹ and 2 ² (2 ³ and 2 ⁴ ) there are three rows 3 ¹ ; 3 ² ; 3 ³ production wells, and between the injection wells 2 ¹ and 2 ³ (2 ² and 2 ⁴ ) seven rows 4 ¹ ; 4 ² ; 4 ³ ; 4 ⁴ ; 4 ⁵ ; 4 ⁶ ; 4 ⁷ producing wells. Production wells of a nearby row and / or orbits are drilled vertically. For example, the horizontal surrounding the injection well 2 ¹ is rows 3 ¹ and 3 ⁴ , and vertically - rows 4 ¹ ; 4 ² and 4 ⁸ ; 4 ⁹ in them are adjacent to the injection well 2 ¹ production wells 5 ¹ ; 5 ² ; 5 ³ ; 5 ⁴ ; 5 ⁵ ; 5 ⁶ are vertical.

Similarly, producing wells of nearby rows relative to injection wells 2 ² ; 2 ³ ; 2 ⁴ are vertical. Further, production wells of subsequent rows and / or orbits are drilled horizontal. For example, surrounding the injection well ^{1 February} horizontally - is Rows 3 ² and 3 ⁵ located directly behind the rows of 3 ¹ and 3 ^4, respectively, and vertically - is a 4 ³ and 4, ¹⁰ placed immediately behind the rows rows of ⁴ February and April ⁹ , respectively, in them producing wells 6 ¹ ; 6 ² ; 6 ³ ; 6 ⁴ ; 6 ⁵ ; 6 ^{6 are} made horizontal.

One horizontal production well, for example, well 6 ¹ , in the well placement grid replaces at least two vertical production wells.

Next, the construction of wells and perforation of production casing of all wells in the productive part of the reservoir are carried out, an oil reservoir 1 is equipped and commissioned.

Produce the injection of a displacing agent (for example, wastewater) in injection wells 2 ¹ ; 2 ² ; 2 ³ ; 2 ⁴ , and the selection of products (oil) is made from vertical 5 ¹ ; 5 ² ; 5 ³ ; 5 ⁴ ; 5 ⁵ ; 5 ⁶ ... 5 ⁿ and horizontal 6 ¹ ; 6 ² ; 6 ³ ; 6 ⁴ ; 6 ⁵ ; 6 ⁶ ... 6 ⁿ production wells. Thus, the development of oil deposits in the carbonate reservoirs of the fracture-pore type.

In the process of developing an oil deposit as products are selected from vertical 5 ¹ ; 5 ² ; 5 ³ ; 5 ⁴ ; 5 ⁵ ; 5 ⁶ ... 5 ⁿ production wells located in adjacent rows to the corresponding injection wells 2 ¹ ; 2 ² ; 2 ³ ; 2 ⁴ , take samples and determine the water content of the selected product as soon as the water content of the product in one or more vertical 5 ¹ ; 5 ² ; 5 ³ ; 5 ⁴ ; 5 ⁵ ; If 5 ⁶ ... 5 ⁿ production wells reach more than 50%, then any well-known polymer solution (for example, the well-known water-swellable polymer (GNP) or the new WCA phase permeability modifier) is injected into these wells and then sold into the formation.

For example, the water cut of products produced from vertical producing wells 5 ² ; 5 ³ ; 5 ⁴ is 60%. Then into the vertical producing wells 5 ² ; 5 ³ ; 5 ^{4 are} injected simultaneously or sequentially, for example, along the pipe production string lowered into the well (not shown in the drawing), the rim of the polymer solution (with water being pushed through it, for example, into the formation through perforations (not shown) of the production string.

As the polymer solution, a hydrophilic polymer can be used, for example, a phase permeability modifier WCA-1-hydrophilic copolymer of DMDAAC and acrylamide, which is able to bind and retain water in oil reservoir 1 and not impede the flow of oil, which reduces the water cut of oil entering the reservoir through perforations production casing in the wellbore. WCA-1 is a new chemical reagent that has been successfully applied at some fields in Western Siberia during hydraulic fracturing by Newco Well Service. WCA-1 is a highly hydrophilic elastic chain of a medium molecular weight polymer based on polyacrylamide.

With subsequent flooding of products more than 50% extracted from vertical 5 ¹ ; 5 ² ; 5 ³ ; 5 ⁴ ; 5 ⁵ ; 5 ⁶ ... 5 ⁿ production wells located in adjacent rows to the corresponding injection wells 2 ¹ ; 2 ² ; 2 ³ ; 2 ⁴ , the injection of the polymer solution with its pushing into the formation is repeated, i.e. produce a periodic injection of the polymer solution with its sale in the reservoir through vertical production wells 5 ¹ ; 5 ² ; 5 ³ ; 5 ⁴ ; 5 ⁵ ; 5 ⁶ ... 5 ⁿ .

Thus, in the process of developing an oil reservoir in the carbonate reservoirs of the fracture-pore type due to vertical production wells 5 ¹ ; 5 ² ; 5 ³ ; 5 ⁴ ; 5 ⁵ ; 5 ⁶ ... 5 ⁿ around injection wells 2 ¹ ; 2 ² ; 2 ³ ; 2 ⁴ creates a waterproofing block, which allows to extend the anhydrous mode of operation of more expensive horizontal production wells 6 ¹ ; 6 ² ; 6 ³ ; 6 ⁴ ; 6 ⁵ ; 6 ⁶ ... 6 ⁿ during the development of oil deposits in carbonate reservoirs of the fracture-pore type and, accordingly, increase the oil recovery coefficient.

The proposed method for developing an oil deposit in fractured-pore carbonate reservoirs can increase the efficiency and extend the anhydrous regime of developing an oil reservoir by creating such a mechanism (grid) of production and injection wells that would allow for uniform and consistent production of oil reserves in fractured carbonate reservoirs pore type.

Claims (2)

1. A method of developing an oil reservoir in fractured-pore type reservoirs, including drilling production and injection wells, injecting displacing fluid through injection wells and selecting products through production wells, characterized in that the oil reservoir is developed according to an areal water flooding system with the placement of injection and production wells so that between the injection wells there are at least three rows and / or orbits of production wells, and production wells of a nearby row and / or orbits injection wells are drilled vertically, and the subsequent series of production wells and / or drilled horizontal orbits, wherein one horizontal production well replaces at least two vertical production wells for placement grid boreholes. 2. A method of developing an oil reservoir in fractured-pore type reservoirs according to claim 1, characterized in that a polymer solution is pumped into production wells of the first row periodically after flooding more than 50%.

Images