RU2733239C1 - Method for development of dense oil deposit by electric fracture - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil industry and can be used in development of multilayer low-permeability oil formations with application of formation fracturing. Method includes drilling and / or selection of vertical, horizontal and / or directional wells already existing on the deposit. Providing use of electroconductive casing string and / or electroconductive cement ring. Electrodes are lowered into the well, and formation electric fracturing is performed due to creation of electric arc between electrodes. At that, reservoir is selected, in which water-bearing stratum is located below productive oil-bearing dense formation, at that oil-bearing and water-bearing strata coincide in structural plan. Distance between bottom of upper oil-bearing formation and roof of lower water-bearing formation shall not exceed 100 m. Formation electric fracturing is supplemented with hydraulic fracturing. After hydraulic fracturing of oil-bearing stratum and withdrawal of product from it to reduction of formation pressure to level, at which further operation of wells is not viable, electrodes of different polarity are placed in adjacent wells. Electrodes with one polarity are placed opposite the upper oil-bearing bed. Electrodes with opposite polarity are placed opposite the lower water-bearing stratum. After electric fracturing of the formation, these wells are left to redistribute pressure for 10–30 days for penetration of water into oil-bearing productive formation on previously created hydraulic fractures and in subsequent - electric fracture cracks until pressure increase in oil-bearing productive stratum. After that wells are let into production along upper oil-bearing formation. Conducting electric fracturing of the formation and waiting periods are repeated.

EFFECT: increasing oil recovery of a deposit.

1 cl, 3 ex

Description

The invention relates to the oil industry and can find application in the development of multilayer low-permeability oil reservoirs using formation fracturing.

A device and method for electrical fracturing are known. The device contains two packers defining between themselves a limited space in a well drilled in the formation, a pump for increasing the pressure of the fluid in the specified limited space, a device for heating the fluid, at least one pair of two electrodes located in the specified limited space and an electrical a circuit for creating an electric arc between two electrodes. Moreover, the specified circuit contains at least one voltage source connected to the electrodes, and an inductance element between the voltage source and one of the two electrodes. The method includes electrical fracturing of the formation by creating an electric arc in a fluid in a well drilled in the formation, and the electric arc induces a pressure wave, the rise time of which is more than 0.1 μs, preferably more than 10 μs (RF patent No. 2592313, class E21B 43/26, G01V 1/157, publ. 20.07.2016).

The closest in technical essence to the proposed method is the method of electrical fracturing, which is carried out in formations with low permeability - less than 10 mD. A pair of electrodes is installed, different voltages are applied between pairs of electrodes of a given frequency, while the potential difference is greater than at least 10000 V. The potential difference between the pairs of electrodes is provided with pulses of less than 500 ns duration with the formation of plasma discharges. The removal of rock masses between the electrodes is provided to reduce the stress in the formation by at least 5% of the initial stress in the formation. Due to the electric arc, rock is removed in the local zone with the formation of channels (RF patent No. 2640520, class Е21В 43/16, Е21В 43/17, publ. 09.01.2018 - prototype).

A common disadvantage of the known methods is low oil recovery. Despite the creation of an electric arc fracturing, the need for a complex impact on the formation is not taken into account, which leads to low reservoir sweep and poor recovery of oil reserves.

The problem is solved by the fact that in the method of developing a dense oil reservoir by electric fracturing, including drilling and / or selection of vertical, horizontal and / or directional wells already existing in the reservoir, the use of an electrically conductive casing string and / or an electrically conductive cement ring, running electrodes into the well, electric fracturing of the formation due to the creation of an electric arc between the electrodes, selection of products from the wells, according to the invention, a deposit is selected in which an aquifer lies below the productive oil-bearing dense formation, and these oil-bearing and aquiferous layers coincide in structural terms, the distance between the bottom of the upper oil-bearing formation and the top of the lower aquifer is not more than 100 m, the electric fracturing of the formation is supplemented with hydraulic fracturing, after hydraulic fracturing of the oil-bearing formation and the withdrawal of products from it until the formation pressure decreases to a level at which further well operation is economically inexpedient, to neighboring wells They place electrodes of different polarity, and electrodes with the same polarity are placed opposite the upper oil-bearing formation, and electrodes with opposite polarity are placed opposite the lower aquifer, after the electric fracturing of the formation, these wells are left for pressure redistribution for 10-30 days for water penetration into the oil-bearing formation along the previously created hydraulic fractures and, subsequently, electrical fractures until the pressure in the oil-bearing reservoir increases, after which they are put into production along the upper oil-bearing reservoir, the electrical fracturing of the reservoir and the waiting periods are repeated.

The essence of the invention.

The development of tight oil deposits is characterized by a rapid drop in reservoir pressure as a result of exploitation, underdevelopment of oil reserves and low oil recovery. The existing technical solutions do not fully allow for the most complete production of oil reserves from such deposits. The proposed invention solves the problem of increasing oil recovery of the reservoir. The problem is solved as follows.

The method is implemented as follows.

A reservoir is selected in which an aquifer lies below the productive oil-bearing dense layer, and these oil-bearing and aquiferous layers coincide in structural terms. The distance between the bottom of the upper oil-bearing formation and the top of the lower aquifer is no more than 100 m (non-reservoir interlayer). According to research, when the distance between the bottom of the upper layer and the top of the lower layer is more than 100 m, it is difficult to obtain a sufficient temperature for an electric arc between the electrodes.

New and / or existing vertical, horizontal and / or directional production wells are drilled on this deposit. New wells use electrically conductive casing and / or electrically conductive cement ring. In existing wells, the implementation of the method is possible when the wellbore is open in the productive formation.

Further, hydraulic fracturing of the oil-bearing formation is carried out and the selection of products from it. After reducing the reservoir pressure to a level at which further well operation is economically unfeasible, electrodes of different polarity are placed in adjacent wells. Moreover, electrodes with one polarity are placed opposite the upper oil-bearing formation, and electrodes with opposite polarity are placed opposite the lower aquifer.

Electric fracturing of the formation (the above non-reservoir interlayer) is carried out by creating an electric arc between the electrodes. The electrodes generate an instantaneous voltage of 10-500 kV for a few microseconds. After electrical fracturing, the wells are left to redistribute the pressure for 10-30 days. During this time, water from the aquifer penetrates into the oil-bearing formation through the fractures created by the electric fracture into the interlayer of the non-reservoir and then spreads into the oil-bearing formation along the previously created hydraulic fracturing fractures. Thus, the pressure in the oil-saturated reservoir increases. According to studies, shutting in wells for pressure redistribution for a period of less than 10 days is not effective for most reservoirs, because pressure does not have time to redistribute, while stopping for more than 30 days does not make sense, because there is no further pressure redistribution useful for enhanced oil recovery.

Then the wells are put into production in the upper oil-bearing formation. Fracturing and waiting periods are repeated.

Development is carried out until the full economically viable development of the deposit.

The result of the introduction of this method is to increase the oil recovery of the reservoir.

Examples of specific execution of the method.

Example 1. An oil reservoir is represented by two layers that are structurally identical. A terrigenous aquifer lies below the productive oil-bearing dense carbonate stratum. The distance between the bottom of the upper oil-bearing stratum and the top of the lower aquifer is 100 m (non-reservoir interlayer). The upper oil-bearing layer has an average absolute permeability of 0.5 mD, an average oil-saturated thickness of 14 m, an average depth of the formation top - 1580 m, and an initial reservoir pressure of 16 MPa. The lower aquifer has an average absolute permeability of 250 mD, an average water-saturated thickness of 25 m, an average depth of the formation top - 1690 m, and an initial reservoir pressure of 17 MPa.

Five new vertical production wells are drilled in this deposit with a distance between adjacent boreholes of 300-400 m. These wells use electrically conductive casing strings and an electrically conductive cement ring.

Further, hydraulic fracturing of the oil-bearing formation is carried out and the selection of products from it. After a decrease in oil production rates to 0.5 t / day due to a drop in reservoir pressure, electrodes of different polarity are placed in adjacent wells. Moreover, electrodes with one polarity are placed opposite the upper oil-bearing formation, and electrodes with opposite polarity are placed opposite the lower aquifer.

Electric fracturing of the formation is carried out with an instantaneous voltage of 100 kV and a duration of several microseconds. The wells are left for pressure redistribution for 10 days.

Then the wells are put into production in the upper oil-bearing formation. Electric fracturing and waiting periods are repeated five times with a frequency of 3-8 months.

Development is carried out until the full economically viable development of the deposit.

Example 2. Perform as example 1. Oil deposit has other geological and physical characteristics. Already existing directional production wells with open boreholes in the productive formation are selected on this deposit. After the electric fracturing of the formation, the wells are left for pressure redistribution for 30 days.

Example 3. Perform as example 1. Oil reservoir has other geological and physical characteristics. Horizontal and directional wells are drilled on this deposit.

As a result of the development, which was limited to achieving a water cut of the reservoir up to 98%, 181.3 thousand tons of oil were produced, the oil recovery factor (ORF) was 0.229 unit fraction. All other things being equal, the prototype produced 128.3 thousand tons of oil, the oil recovery factor was 0.162 unit units. The increase in oil recovery factor by the proposed method is 0.067 unit units.

The proposed method makes it possible to increase the oil recovery factor of a dense oil reservoir, to increase the coverage of reservoirs and the development of oil reserves due to a complex of works on hydraulic fracturing and electrical fracturing and creating a natural system for maintaining reservoir pressure.

Application of the proposed method will allow solving the problem of increasing oil recovery of the reservoir.

Claims (1)

A method of developing a dense oil reservoir by electrical fracturing, including drilling and / or selection of vertical, horizontal and / or directional wells already existing in the reservoir, the use of an electrically conductive casing string and / or an electrically conductive cement ring, lowering electrodes into the well, electrical fracturing of the formation by creating an electrical arcs between the electrodes, the selection of products from wells, characterized in that they select a deposit in which an aquifer lies below the productive oil-bearing dense formation, and these oil-bearing and aquifer formations coincide in structural terms, the distance between the bottom of the upper oil-bearing formation and the top of the lower aquifer is no more than 100 m, electric fracturing is supplemented with hydraulic fracturing, after hydraulic fracturing of an oil-bearing formation and withdrawal of products from it until the formation pressure drops to a level at which further well operation is impractical, electrodes of different polarity are placed in adjacent wells and, moreover, electrodes with one polarity are placed opposite the upper oil-bearing formation, and electrodes with opposite polarity are placed opposite the lower aquifer, after the electric fracturing of the formation, these wells are left for pressure redistribution for 10-30 days for water penetration into the oil-bearing formation along the previously created fractures hydraulic fracturing and subsequently - electric fracturing cracks until the pressure in the oil-bearing formation is increased, after which the wells are put into production in the upper oil-bearing formation, the electric fracturing of the formation and the waiting periods are repeated.