RU2704685C1 - Downhole water pumping method for oil formation flooding purposes - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil industry and can be used in water flooding of oil formations with application of downhole water pumping. Method includes selection of injection well opening oil-bearing formation, perforation of water-bearing formation, in which current formation pressure exceeds reservoir pressure of oil-bearing formation, and the water-bearing formation itself is located above or below relative to the perforated oil-bearing formation, pumping water from the water-bearing formation into the oil-bearing formation. According to the invention, in the wellbore between the water-bearing and oil-bearing formations, system A, which is a pipe is lowered on the perforated tubing string, in which in sequence from water-bearing bed to oil-bearing there connected is electric power rotor-generator, accumulator, electric motor drive and electric-centrifugal pump, wherein between system A and production string opposite to rotor-generator packer is installed so that water flow passes through system A, inside the perforated tubing string a cable is placed, water flow rate for pumping into the oil formation is controlled from the surface through the cable by changing the electric motor operating modes, which is powered by electric power accumulated in accumulator from rotor-generator due to water flow.

EFFECT: technical result consists in improvement of efficiency of downhole water pumping.

1 cl, 1 dwg

Description

The invention relates to the oil industry and may find application in waterflooding of oil reservoirs using downhole pumping of water.

There is a method of developing a multilayer oil reservoir, including downhole pumping of water from an underlying aquifer into an overlying reservoir by injection wells and taking oil from a reservoir through production wells, and downhole pumping of water is performed in natural mode due to the energy of the aquifer in the reservoir injection wells performing downhole water pumping through intensification of production through production wells the reservoir pressure is compressed, while the selection through the production wells is performed in a cyclic mode, providing a change in the direction of fluid flow in the reservoir, for which the intensity of oil extraction from production wells located opposite each other is alternated so that one pair of opposing wells works with the maximum flow rate , while another pair of wells during this period operates with a 50% production rate from the maximum production rate over time to a decrease in the dynamic oil level below the permissible level stationary selection, then the well regime is changed to the opposite (RF patent No. 2303125, cl. ЕВВ 43/20, publ. 07/20/2007).

Closest to the technical nature of the proposed method is a method of developing a multilayer oil reservoir, including downhole pumping of water from an aquifer to a reservoir in natural mode due to the energy of the aquifer in injection wells and the selection of oil from the reservoir through production wells. Injection wells between the strata are equipped with seats, inside which valves are installed that allow water to pass from bottom to top when the aquifer is below the oil-bearing or from top to bottom when the aquifer is above the oil-bearing. When the aquifer is located below the oil-bearing valve, they are made with buoyancy in the pumped water less than zero, which ensures the flow of water when the pressure drop is higher than the selected one. When the aquifer is located above the oil-bearing valve, they are made with buoyancy in the pumped water greater than zero, which ensures the flow of water when the pressure drop is higher than the selected one. The technical result consists in increasing the efficiency of the development of a multilayer oil reservoir (RF patent No. 2591291, class E21B 43/14, class E21B 43/20, publ. 07.20.2016 - prototype).

A common disadvantage of the known methods is the lack of regulation of injection modes, which leads to low efficiency of downhole pumping of water and, accordingly, reduces oil production in the surrounding production wells.

The proposed invention solves the problem of increasing the efficiency of downhole pumping of water.

The problem is solved in that in the method of downhole pumping of water for waterflooding of oil reservoirs, which includes selecting an injection well to open the oil reservoir, perforating the aquifer, in which the current reservoir pressure exceeds the reservoir pressure of the oil reservoir, and the aquifer itself is located higher or lower relative to the perforated oil reservoir, pumping water from an aquifer to an oil reservoir, according to the invention, into the wellbore between the aquifer and the oil reservoir on perforated tubing system A, which is a pipe in which a rotor-electric power generator, a battery, an electric motor drive and an electric centrifugal pump are connected in series from the aquifer to the oil-bearing pipe, and a packer is installed between system A and the production casing opposite the rotor-generator so that the water flow passes through system A, a cable is placed inside the perforated tubing, regulating the flow of water for injection into the oil reservoir Article performed from the surface through the cable by changing the operation modes of the electric motor, which is powered by electricity from the battery to the accumulated rotor generator by the water flow.

SUMMARY OF THE INVENTION

The operation of injection wells by the downhole pumping method in terms of regulating the injection rate is characterized by low efficiency. Existing technical solutions do not fully solve this problem. The proposed invention solves the problem of increasing the efficiency of downhole pumping of water. The problem is solved as follows.

In FIG. 1 is a schematic representation of an injection wellbore with equipment. Designations: 1 - injection well, 2 - aquifer, 3 - oil reservoir, 4 - perforated tubing, 5 - electric power rotor-generator, 6 - battery, 7 - electric motor drive, 8 - electric centrifugal pump, 9 - production casing , 10 - packer, 11 - cable, 12 - perforations of the aquifer 2, 13 - perforations of the oil reservoir 3.

The method is implemented as follows.

In the injection well 1 (Fig. 1), the aquifer 2 is perforated, located above or below relative to the oil reservoir 3 perforated in the same well 1. Moreover, the reservoir pressure in the aquifer 2 exceeds the reservoir pressure of the oil reservoir 3.

System A, which is a pipe in which a rotor generator 5 of electric power, a battery 6, an electric motor 7 drive is connected in series from an aquifer 2 to an oil 3, is lowered into the wellbore 1 between the aquifer 2 and the oil 3 reservoirs on perforated tubing 4. and an electric centrifugal pump 8. Between system A and production casing 9 opposite the rotor generator 5, a packer 10 is installed so that the water flow passes through system A. Inside the perforated tubing 4 would place cable 11.

The process of pumping water from an aquifer 2 to an oil 3 occurs as follows:

a) if the aquifer 2 is located above the oil 3: from the aquifer 2 through the perforations 12, water enters the perforated tubing 4, then into the rotor generator 5, as a result of which electricity is generated, which accumulates in the battery 6. Next, the battery 6 feeds the electric motor 7, which in turn drives the electric centrifugal pump 8. The pump 8 directs the flow of water into the perforations 13 and then into the oil reservoir 3;

a) if the aquifer 2 is located below the oil 3: from the aquifer 2 through the perforations 12 water flows directly into the rotor-generator 5, as a result of which electricity is generated, which accumulates in the battery 6. Next, the battery 6 feeds the electric motor 7, which the turn drives the electric centrifugal pump 8. The pump 8 directs the flow of water into the perforated tubing 4, then into the perforations 13 and then into the oil reservoir 3.

Regulation of water flow for injection into the oil reservoir 3 is carried out from the surface through the cable 11 by changing the operating modes of the electric motor 7.

System A is configured to freely flow water through it.

Pumping is carried out until the reservoir pressure decreases in the aquifer 2 to the reservoir pressure in the oil reservoir 3.

The result of the implementation of this method is to increase the efficiency of downhole pumping of water.

Examples of specific performance of the method.

Example 1. In injection well 1 (Fig. 1), an aquifer 2 is perforated located above or below relative to the oil reservoir 3 perforated in the same well 1. Moreover, the reservoir pressure in the aquifer 2 exceeds the reservoir pressure of the oil reservoir 3.

System A, which is a pipe in which a rotor generator 5 of electric power, a battery 6, an electric motor 7 drive is connected in series from an aquifer 2 to an oil 3, is lowered into the wellbore 1 between the aquifer 2 and the oil 3 reservoirs on perforated tubing 4. and an electric centrifugal pump 8. Between system A and production casing 9 opposite the rotor generator 5, a packer 10 is installed so that the water flow passes through system A. Inside the perforated tubing 4 would place cable 11.

The process of pumping water from an aquifer 2 to an oil 3 occurs as follows. From the aquifer 2 through the perforations 12, water enters the perforated tubing 4, then into the rotor generator 5, as a result of which electricity is generated, which accumulates in the battery 6. Next, the battery 6 feeds the electric motor 7, which in turn leads to the action of the electric centrifugal pump 8. The pump 8 directs the flow of water into the perforations 13 and then into the oil reservoir 3;

Regulation of water flow for injection into the oil reservoir 3 is carried out from the surface through the cable 11 by changing the operating modes of the electric motor 7.

System A is configured to freely flow water through it.

Pumping is carried out until the reservoir pressure decreases in the aquifer 2 to the reservoir pressure in the oil reservoir 3.

Example 2. Perform as example 1. The aquifer 2 is located below the oil 3. From the aquifer 2 through the perforations 12 water flows directly into the rotor-generator 5, resulting in the generation of electricity that accumulates in the battery 6. Next, the battery 6 powers the electric motor 7, which in turn drives the electric centrifugal pump 8. The pump 8 directs the flow of water into the perforated tubing 4, then into the perforations 13 and then into the oil reservoir 3.

As a result of the operation of the injection well during the period of reducing the reservoir pressure in the aquifer to the reservoir pressure in the oil reservoir, 57 thousand tons of oil were produced by the surrounding production wells. According to the prototype, ceteris paribus, the surrounding producing wells produced 51 thousand tons of oil. The increase in oil production by the proposed method is 6 thousand tons

The proposed method allows to increase the efficiency of the operation of injection wells, to increase oil production of the surrounding producing wells by regulating the injection using energy generated from the flow of water from the aquifer.

Application of the proposed method will solve the problem of increasing the efficiency of downhole pumping of water.

Claims (1)

A method of downhole pumping water for waterflooding of oil reservoirs, comprising selecting an injection well that opens up the oil reservoir, perforating the aquifer, in which the current reservoir pressure exceeds the reservoir pressure of the oil reservoir, and the aquifer itself is located above or below the perforated oil reservoir, pumping water from aquifer in oil, characterized in that the wellbore between the aquifer and oil reservoir is lowered on a perforated pump -compressor pipes, system A, which is a pipe in which a rotor-electric power generator, a battery, an electric motor drive and an electric centrifugal pump are connected in series from the aquifer to the oil-bearing pipe, and a packer is installed between system A and the production casing opposite the rotor-generator so that the water flow passes through system A, a cable is placed inside the perforated tubing, the flow rate of water for injection into the oil reservoir is controlled from the surface minute via a cable by changing the operation modes of the electric motor, which is powered by electricity from the battery to the accumulated rotor generator by the water flow.

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