RU2753318C1 - Method for developing petroleum deposits - Google Patents

Abstract

FIELD: petroleum industry.

SUBSTANCE: invention relates to the mining industry and can be used in development of natural and man-made petroleum mineral deposits with hard-to-recover hydrocarbons. The method for developing petroleum formation includes opening a productive formation with a system of vertical injection boreholes and horizontal injection boreholes, wherein an agent displacing petroleum from the formation is supplied through said boreholes under pressure, containing components providing hydraulic fracturing of the productive formation considering the temperature-pressure conditions of the vertical injection boreholes and the horizontal injection boreholes. To increase the efficiency of the production process at the first preparation stage, a three-phase mixture is supplied under high pressure into the productive formation as an agent, consisting of a water-gas emulsion prepared in an anode chamber of an electrochemical reactor with the addition of a reagent increasing the pH of the water-gas emulsion to a level of 9 to 11, and a sand-gravel material with a fraction of no more than 4 to 7 mm depending on the content of the sand mass relative to the gravel and on the content of solid to liquid in the water-gas emulsion prepared in the anode chamber, to ensure hydraulic fracturing of the productive formation, to weaken the bond of heavy petroleum fractions with mineral particles by oxygen contained in the anolyte and to form a mobile water-gas-petroleum intraformational emulsion. A water-gas emulsion from the cathode chamber used to transfer heavy petroleum fractions to the main operating area of the pumping boreholes due to the adhesion of oil microdroplets with electrolytic hydrogen bubbles and to increase the total petroleum recovery of the productive formation is therein supplied to the lower part of the productive formation. The supply rate and flow rate of the water-gas emulsions are therein made considering the temperature-pressure conditions of the vertical injection boreholes and the horizontal injection boreholes and the effect of initiation of cavitation during inversion modulation of water-gas emulsions from irregularly shaped holes.

EFFECT: increase in the technological and operational efficiency of the hydrocarbon production process due to initiation of hydraulic fracturing by activation components and formation of cavitation hydrodynamic effects for increasing the permeability of the formation.

1 cl, 2 dwg

Description

The invention relates to the mining industry and can be used in the development of natural and man-made oil deposits of minerals with difficult to extract hydrocarbons.

There is a known method of hydraulic fracturing of a formation, including pumping liquid into the formation and fracturing the formation by increasing the bottomhole pressure with the creation of a crack of a given size, reducing the bottomhole pressure below the fracturing pressure, pumping a suspension with a fixing material and pumping a displacement fluid at a rate that ensures the bottomhole pressure rises above the fracture pressure formation, and the fracturing fluid is pumped in a volume that provides the creation of a fracture with a length exceeding the radius of the near-wellbore zone of the formation with reduced permeability, use a suspension with an anchor material in the form of a gel and pump it in a volume larger than the volume of the created fracture [1].

The main disadvantage of this method is the use of a gel suspension, which reduces the efficiency of the hydrocarbon production process.

The known method of hydraulic fracturing, including the injection into the formation of a mixture of fracturing fluid with a proppant, and as a proppant used gas-filled granules, the density of which is close to the density of the fracturing fluid and provides the ability to keep the proppant in suspension in the fracturing fluid, while the latter use a fluid that is compatible with the rock and formation fluid, water or oil [2].

The main disadvantage of this method is the use of gas-filled granules as a proppant, after the destruction of which and the release of gas from them, polymer films remain, clogging the pores of the formation and reducing its permeability for the passage of the produced fluid.

The closest in technical essence is a method including pumping a mixture of a fracturing fluid with a proppant into the formation, which is used as gaseous crystalline hydrates. The injection is carried out under thermobaric conditions of existence of the latter, after fracturing the formation, gas crystalline hydrates decompose with the release of a gas phase from them [3].

The use of gaseous crystalline hydrates as proppants narrows the possibilities of initiating a process that depends on the thermobaric conditions of their existence.

The technical result of the proposed method is to increase the technological and operational efficiency of the hydrocarbon production process by initiating hydraulic fracturing with activation components and the formation of cavitation hydrodynamic effects to increase the permeability of the formation.

The technical result is achieved due to the fact that in the method for the development of oil fields, including the opening of the productive formation by a system of vertical injection wells and injection horizontal wells, through which an agent displacing oil from the formation is supplied under pressure, containing components that provide hydraulic fracturing of the productive formation, taking into account the temperature and pressure conditions of vertical injection wells. wells and injection horizontal wells, in order to increase the efficiency of the production process, a three-phase mixture is supplied to the productive formation under elevated pressure as an agent, consisting of a water-gas emulsion prepared in the anode chamber of an electrochemical reactor with the addition of a reagent that increases the pH of the water-gas emulsion to a level of 9-11, and sand and gravel material with a fraction of not more than 4-7 mm, depending on the content of the mass of sand in relation to gravel and the content of solid to liquid in a water-gas emulsion prepared in an anode chamber, to ensure hydraulic fracturing of a productive formation, weakening of the bond of heavy oil fractions with mineral particles in the anolyte by oxygen and the formation of a mobile water-gas-oil in-situ emulsion, while a water-gas emulsion is supplied to the lower part of the productive formation from the cathode chamber, with the help of which - due to the adhesion of oil microdroplets with bubbles of electrolytic hydrogen , move heavy oil fractions into the main area of action of pumping wells and increase the total oil recovery of the productive formation, while the feed rate and flow rate of water-gas emulsions are made taking into account the temperature and pressure conditions of vertical injection wells and injection horizontal wells and the effect of cavitation initiation during inversion modulation of water-gas emulsions from the holes of the wrong forms.

The possibility of forming the required sequence of actions performed by the proposed means allows you to solve the problem, determines the novelty, industrial applicability and inventive level of development.

Figure 1 is a general sectional view of the implementation of the method; figure 2 - view A in figure 1., shows on an enlarged scale holes of irregular shape, initiating cavitation.

The method is performed using a pumping system 1, which produces from reservoir 2 through injection vertical wells 3 and injection horizontal wells 4, injecting agent 5 into reservoir 6. Agent 5 contains components 7 that provide hydraulic fracturing of productive reservoir 6, taking into account the temperature and pressure conditions of injection vertical wells 3 and injection horizontal wells 4. As agent 5, a three-phase mixture 8 is prepared, consisting of a water-gas emulsion 9 prepared in an anode chamber 10 of an electrochemical reactor 11 with the addition of a reagent 12, which increases the pH of the water-gas emulsion 9 to a level of 9-11, as well as sand -gravel material 13 fractions not more than 4-7 mm, depending on the content of the mass of sand in relation to gravel and the content of solid to liquid in the water-gas emulsion 9. The weakening of the bonds of heavy oil fractions with mineral particles and the formation of a mobile water-gas-oil in-situ emulsion 14 is also carried out with the help of oxygen in the anolyte. In the lower part 15 of the productive formation 6, a water-gas emulsion 17 is fed from the cathode chamber 16, which facilitates the movement of heavy oil fractions into the main area of action of the extraction wells 18. During the inversion modulation of the water-gas emulsions 9, 17 from the holes 19 of irregular shape 20, cavitation is initiated, contributing to the activation of the process permeability and viscosity reduction of heavy oil fractions.

The method of developing oil fields is carried out as follows.

The method of developing oil fields is carried out by opening the productive formation 6 with a system of vertical injection wells 3 and injection horizontal wells 4, through which, by means of the pumping system 1, an agent 5 displacing oil from the reservoir is supplied under pressure from the reservoir 2. Agent 5 contains components 7 that provide hydraulic fracturing of the productive formation 6 taking into account the thermobaric conditions of vertical injection wells 3 and injection horizontal wells 4. To ensure hydraulic fracturing of the productive formation 6, weakening by oxygen in the anolyte of the bond of heavy oil fractions with mineral particles and the formation of a mobile water-gas-oil in-situ emulsion 14, as an agent 5 into the productive formation 6 under high pressure serves a three-phase mixture 8, consisting of a water-gas emulsion 9, prepared in the anode chamber 10 of an electrochemical reactor 11 with the addition of a reagent 12, which increases the pH of the water-gas emulsion 9 to a level of 9-11, and sand ano-gravel material of fraction not more than 4-7 mm. In the water-gas emulsion 9, which entered the tank 2, also through the pumping system 1, sand and gravel material 13 of fractions of not more than 4-7 mm is fed, depending on the content of the mass of sand in relation to gravel and the content of solid to liquid in the water-gas emulsion 9. In the lower part 15 of the productive formation 6 serves a water-gas emulsion 17 from the cathode chamber 16. With the help of a water-gas emulsion 17 - due to the adhesion of oil microdroplets with bubbles of electrolytic hydrogen, they move heavy oil fractions into the main area of action of the pumping wells 18 and increase the total oil recovery of the productive formation 6. Speed supply and consumption of water-gas emulsions 9, 17 is made taking into account the thermobaric conditions of vertical injection wells 3 and injection horizontal wells 4 and the effect of initiation of cavitation during inversion modulation of water-gas emulsions 9, 17 from holes 19 of irregular shape 20.

The proposed method for the development of oil fields will increase the technological level of mineral extraction, reduce energy consumption, improve the performance of the complex maintenance, and increase the profitability of production and environmental safety.

Sources of information

1. Patent RU No. 2164290, E21B 43/26, publ. 03/20/2001.

2. Patent RU No. 2096603, E21B 43/26, publ. 20.11.1997.

3. Patent RU No. 2507389, E21B 43/267, C09K 8/80, publ. 02/20/2014.

Claims (1)

A method for the development of oil fields, including opening a productive formation with a system of vertical injection wells and horizontal injection wells, through which an agent displacing oil from the formation is supplied under pressure, containing components that provide hydraulic fracturing of the productive formation, taking into account the temperature and pressure conditions of vertical injection wells and horizontal injection wells, characterized by the fact that that to increase the efficiency of the production process as an agent, a three-phase mixture is fed into the productive formation under increased pressure, consisting of a water-gas emulsion prepared in the anode chamber of an electrochemical reactor with the addition of a reagent that increases the pH of the water-gas emulsion to a level of 9-11, and sand-gravel material of the fraction not more than 4-7 mm, depending on the content of the mass of sand in relation to gravel and the content of solid to liquid in the water-gas emulsion prepared in the anode chamber to ensure hydraulic fracturing of the productive formation , the weakening of the bond of heavy oil fractions with mineral particles in the anolyte by oxygen and the formation of a mobile water-gas-oil in-situ emulsion, while a water-gas emulsion is supplied to the lower part of the productive formation from the cathode chamber, with the help of which, due to the adhesion of oil microdroplets with bubbles of electrolytic hydrogen, heavy oil fractions are moved into the main area of action of pumping wells and increase the total oil recovery of the productive formation, while the feed rate and flow rate of water-gas emulsions are made taking into account the temperature and pressure conditions of vertical injection wells and injection horizontal wells and the effect of cavitation initiation during inversion modulation of water-gas emulsions from irregularly shaped holes.

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