RU2177537C1 - Method of oil pool development - Google Patents

Abstract

FIELD: development of oil pools; development of water-encroached oil pools. SUBSTANCE: method includes withdrawal of oil through producing wells from formations. Formation water is withdrawn from water-bearing bed through water wells. Formation water is injected through injection wells into formations. Flow lines of water wells are interconnected. Volumes of injection of formation water are redistributed by regulation of pipelines supplying water to injection wells. In case of stopping of one or several water wells, formation water is produced from other water wells and injected into injection wells through pipeline of interconnected flow lines of water wells and regulated pipeline supplying water to injection wells. In this case, formation water is injected by electrical centrifugal pump with total capacity somewhat less than total injectivity of injection wells. Interconnection and regulation of pipelines provide for redistribution and limitation of injected volumes of working fluid to correspond to capacity of electrical centrifugal pumps. EFFECT: higher efficiency and reliability. 1 ex

Description

 The invention relates to the field of development of oil deposits and may find application in the development of waterlogged oil deposits.

 A known method of pumping a displacing agent into a well, including placing an electric centrifugal pump in a special hole in a special pit, connecting a flow line of an electric centrifugal pump to a pressure well, and a suction part with a water source pipeline and supplying water to an electric centrifugal pump via low pressure communications (RF Patent N 2079640, CL E 21 B 43/20, published. 1997).

 The known method does not allow to quickly manage the process of production and injection of water when the electric centrifugal pump is stopped, which reduces the efficiency and reliability of the method.

 Closest to the invention in technical essence is a method of developing a multi-layer heterogeneous oil reservoir, which includes the selection of oil through production wells from the reservoirs, the selection of produced water from the underlying formation through water wells and pumping formation water through injection wells into the reservoirs. At the same time, additional wells are drilled to the entire depth of the reservoir. When passing through an oil reservoir, wells are operated as producing. When passing to the underlying layer, bypassing the oil reservoir, the wells are operated as water intakes, the reservoir underlying water is taken through them and pumped as a working agent through injection wells into the oil reservoirs. Formation underlying water is pumped from the water well to the injection well through pressurized pipelines without contact with atmospheric oxygen and without breaking the stream. Water wells are equipped with high-performance electric centrifugal pumps and connected to the nearest injection wells with sealed groundwater conduits (RF Patent N 2061177, class E 21 B 43/20, published in 1996 - prototype).

 The known method allows you to select the main oil reserves from the reservoir, eliminate the cost of preparing a working agent, prevent the growth of sulfate-reducing bacteria in the reservoir, however, the method does not allow you to quickly manage the production and injection of produced water when one or several water wells are stopped, which reduces the efficiency and reliability of the method .

 The invention solves the problem of increasing the efficiency and reliability of the method.

 The problem is solved in that in the method of developing an oil reservoir, including the selection of oil through production wells from the reservoirs, the selection of formation water from the aquifer through the water wells and the injection of formation water through the injection wells into the reservoirs, according to the invention, loopback pipelines of the water wells are looped and redistribute the volume of injection of produced water by fitting the supply pipelines to the injection wells, and when one or more intake wells stop Azhinov production of formation water is carried from water wells and other injection into the injection well through the looped pipeline and shtutsirovannye lead-in pipes to injection wells.

The features of the invention are:
1. the selection of oil through production wells from the reservoirs;
2. the selection of reservoir water from an aquifer through water wells;
3. injection of formation water through injection wells into the reservoirs;
4. looping of flowlines of water wells;
5. redistribution of volumes of injection of produced water by connecting the supply pipelines to the injection wells;
6. when one or more water wells are stopped, producing produced water from other water wells;
7. the same injection into injection wells through a looped pipe and the connected pipelines leading to injection wells.

 Signs 1 to 3 are common with the prototype, signs 4 to 7 are essential distinguishing features of the invention.

SUMMARY OF THE INVENTION
When developing an oil reservoir by water flooding, formation water is used as a working agent, which is taken from the reservoir through water wells and pumped into the reservoir through injection wells by electric centrifugal pumps without breaking the stream and without communication with air oxygen. This eliminates the cost of preparing the working agent, and prevents the growth of sulfate-reducing bacteria in the reservoir. However, at the same time, it is not possible to efficiently control the process of production and injection of produced water when one or more water wells are stopped, which reduces the efficiency and reliability of the method. The invention solves the problem of increasing the efficiency and reliability of the development of oil deposits. The problem is solved by the following set of operations.

 When developing an oil reservoir, oil is extracted through production wells from the reservoirs, formation reservoir water is taken from the aquifer through water wells, and reservoir formation water is injected through the injection wells into the reservoirs. Circling flow lines of water wells. When one or more water wells are stopped, formation water is extracted from other water wells and injected into injection wells through a looped pipe.

 The loopback of the pipeline allows redistributing the flow of the working agent, and if the flow rate of one or more water wells is insufficient, it is possible to quickly eliminate this drawback due to the work of other water wells.

 Redistribution of volumes of produced water injection by fitting the supply pipelines to injection wells achieve individual supply of wells with a working agent, depending on the injectivity of the wells.

 In addition, looping and plating allow observing the most favorable operating conditions of electric centrifugal pumps. For this, electric centrifugal pumps are installed with a total capacity of slightly lower total injectivity of injection wells. Ringing and plating provides a redistribution and limitation of the injected volumes of the working agent to the performance level of electric centrifugal pumps.

Concrete example
An oil reservoir of the Romashkinskoye field is developed with the following characteristics: porosity - 18.4%, average permeability - 0.646 μm ² , oil saturation - 61.1%, absolute mark of water-oil contact - 1530 m, average oil-saturated thickness - 4 m, initial reservoir pressure - 16 MPa, reservoir temperature - 29 ^o C, reservoir oil parameters: density - 930 kg / m ³ , viscosity - 46 MPa • s, saturation pressure - 1.8 MPa, gas content - 15.2 m ³ / t, sulfur content - 3.64 %

 The reservoir is multi-layer. The number of layers can reach 8 or more. The deposit section is developed by 16 injection and 46 producing wells. To supply injection wells with a working agent, reservoir water is taken from the aquifer through 11 water wells equipped with electric centrifugal pumps. The flow lines of the water wells are looped and the looped pipe is connected to the injection wells with connected supply pipelines to the injection wells. At the same time, pipelines are kept tight, i.e. conduct injection of formation water from the formation directly into injection wells without breaking the stream and without contact with oxygen. Intake wells are alternately stopped for preventive and ongoing repairs. In this case, the supply of injection wells is carried out through a looped pipeline due to the operation of other water wells.

11 water wells provide production of 1,500 m ³ / day of produced water with a total injectivity of 16 injection wells of 2,000 m ³ / day. For 5 injection wells, throttle response is limited by piping to 500 m ³ / day. This allows you to ensure the optimal mode of operation of pumps for water wells, equal to 1500 m ³ / day.

 When stopping one or more water wells, the injectivity of injection wells is limited by fitting by the required amount.

 The application of the proposed method will improve the efficiency and reliability of the supply of injection wells with a working agent and ultimately increase the oil recovery of the reservoir.

Claims (1)

 A method of developing an oil reservoir, including the selection of oil through production wells from the reservoirs, the selection of produced water from the aquifer through the water wells and the injection of formation water through the injection wells into the reservoirs, characterized in that the flow lines of the water wells are looped over, redistributed volumes of the injection of formation water by nippling pipelines to injection wells, and when one or more water wells are stopped, produced water is extracted from other water wells wells and injection into injection wells through a looped pipe and choked pipelines leading to injection wells, while providing injection of formation water with electric centrifugal pumps with total productivity, somewhat lower total injectivity of injection wells, and by looping and choking provide redistribution and limitation of injected volumes of the working agent to the productivity level electric centrifugal pumps.