RU2210664C1 - Method of development of high viscosity oil pool - Google Patents

Abstract

FIELD: oil producing industry. SUBSTANCE: method includes drilling of wells, injection of working medium through injection wells, injection of working medium through injection wells, oil withdrawal through producing wells and heating with electrical current. Injection wells are drilled beyond contour of oil content, below water-oil contact to which working medium in form of formation water is injected. Electric current is supplied through injection wells to water-bearing zone underlying the pool for its heating and subsequent heating of oil-bearing zone. In so doing, oil is displaced from pool vertically to producing wells. Electric current is supplied through diametrically located wells accommodating electrodes with opposite potentials of plus and minus. EFFECT: higher oil recovery. 1 ex

Description

 The invention relates to the oil industry and may find application in the development of deposits of high viscosity oil.

A known method of mining, including opening a reservoir at least two wells and creating a high-frequency electromagnetic field in it, which ensures the mobility of hydrocarbons and extraction of the product to the surface (RF Patent 2108446, class E 21 B 43/00, published. 1998)
The known method allows you to select the main oil reserves from the reservoir, however, the oil recovery of the reservoir remains low.

 Closest to the invention, the technical essence is a method of developing a highly viscous oil reservoir, which includes opening wells, heating the reservoir by creating an electric field with a high-frequency current in it, selecting a product, in the area of the formation covered by heating, drilling wells equidistant from previously drilled through which the displacer is pumped an agent with a temperature above the pour point of the product (USSR Author's Certificate 805684, class E 21 B 43/24, published. 1995 - prototype).

 The known method does not allow to develop an oil reservoir with the achievement of high oil recovery.

 The invention solves the problem of increasing oil recovery deposits.

 The problem is solved in that in a method for developing a highly viscous oil deposit, including drilling wells, injecting a working agent through injection wells, taking oil through production wells and heating it with electric current, according to the invention, injection wells are drilled for the oil circuit below the oil-water contact, where as a working agent formation water is pumped, electric current is injected through injection wells into the underlying aquifer of the reservoir for its heating, and after it the heating and oil zones s, at the same time they carry out vertical displacement of oil from the reservoir to the producing wells, and electric current is supplied through diametrically placed wells with electrodes with opposite potentials “plus” and “minus” in them.

SUMMARY OF THE INVENTION
When developing an oil reservoir, part of the oil reserves remains in the reservoir.

 When developing a highly viscous oil deposit, wells are drilled, a working agent is injected through injection wells, oil is taken through production wells and heated by electric current. Injection wells are drilled beyond the oil content below the oil-water contact, where formation water is pumped as a working agent. At the same time, vertical displacement of oil from the reservoir to production wells is carried out. An electric current is fed through injection wells into the underlying aquifer of the reservoir for its heating, followed by heating of the oil zone. The electric current is supplied through diametrically placed wells with electrodes with opposite potentials "plus" and "minus" in them.

 With this method, a gradual heating of the underlying water occurs, and after it the oil zone. The injection of a working agent below the oil profile contributes to the vertical displacement of oil from the reservoir to the producing wells. The use of formation water as a displacing agent contributes to a better combination of formation water and a more uniform displacement of oil. The placement of potentials in diametrically opposite wells makes it possible to increase the coverage of the reservoir by exposure to electric heating.

 An example of a specific implementation.

An oil reservoir of the Romashkinskoye field is being developed with the following characteristics: porosity 11.9%, permeability 0.029 μm ² , oil saturation 61.1%, absolute mark of water-oil contact 870 m, average oil saturated thickness 8 m, initial reservoir pressure 11 MPa, reservoir temperature 25 ^o С ; 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%.

 Four injection wells are drilled beyond the oil contour below the oil-water contact. Eight production wells are drilled into the oil-saturated part of the reservoir. A direct electric current is supplied through two injection wells placed diametrically into the aquifer of the reservoir with the electrodes with opposite potentials “plus” and “minus” located in them. The electric current supplied to the reservoir is 1000 kW • h. A working agent, produced water, is pumped through two other injection wells. Oil is taken through production wells.

 As a result of development, oil recovery of 36% is achieved. The calculation of oil recovery in the development of the classic version of horizontal displacement is 31%.

 The application of the proposed method will improve the recovery of deposits.

Claims (1)

 A method of developing a highly viscous oil deposit, including drilling wells, injecting a working agent through injection wells, extracting oil through production wells and heating it with electric current, characterized in that the injection wells are drilled for the oil circuit below the oil-water contact, where formation water is pumped as the working agent, through injection wells an electric current is supplied to the underlying aquifer of the reservoir for its heating, and after it the heating of the oil zone, tikalnoe displacement of oil from the reservoir to producing wells, and the supply of electric current is carried through the diametrically located with the location of the well in which electrodes with opposite potentials "plus" and "minus".